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entry_point stringlengths 1 65	original_triton_code stringlengths 4.5k 619k	python_code stringlengths 208 60.9k	triton_code stringlengths 1.15k 275k	repo_name stringlengths 7 115	module_name stringlengths 1 65	synthetic bool 1 class	uuid int64 0 18.5k	licenses listlengths 1 6	sha stringlengths 40 40	repo_link stringlengths 72 180
EPE	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/66/c66hxpbagrcocdwcb457ompxihfzu23jo3ydcrdaz3uwb63isyhd.py # Topologically Sorted Source Nodes: [sub, loss_map, sum_1, add, loss_map_1], Original ATen: [aten.sub, aten.pow, aten.sum, aten.add] # Source node to ATen node mapping: # add => add # loss_map => pow_1 # loss_map_1 => pow_2 # sub => sub # sum_1 => sum_1 # Graph fragment: # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%arg1_1, %arg0_1), kwargs = {}) # %pow_1 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sub, 2), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%pow_1, [1], True), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%sum_1, 1e-06), kwargs = {}) # %pow_2 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%add, 0.5), kwargs = {}) triton_poi_fused_add_pow_sub_sum_0 = async_compile.triton('triton_poi_fused_add_pow_sub_sum_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_pow_sub_sum_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 8, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_pow_sub_sum_0(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 16 x1 = (xindex // 16) x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + (64x1)), xmask) tmp1 = tl.load(in_ptr1 + (x0 + (64x1)), xmask) tmp4 = tl.load(in_ptr0 + (16 + x0 + (64x1)), xmask) tmp5 = tl.load(in_ptr1 + (16 + x0 + (64x1)), xmask) tmp9 = tl.load(in_ptr0 + (32 + x0 + (64x1)), xmask) tmp10 = tl.load(in_ptr1 + (32 + x0 + (64x1)), xmask) tmp14 = tl.load(in_ptr0 + (48 + x0 + (64x1)), xmask) tmp15 = tl.load(in_ptr1 + (48 + x0 + (64x1)), xmask) tmp2 = tmp0 - tmp1 tmp3 = tmp2 * tmp2 tmp6 = tmp4 - tmp5 tmp7 = tmp6 * tmp6 tmp8 = tmp3 + tmp7 tmp11 = tmp9 - tmp10 tmp12 = tmp11 * tmp11 tmp13 = tmp8 + tmp12 tmp16 = tmp14 - tmp15 tmp17 = tmp16 * tmp16 tmp18 = tmp13 + tmp17 tmp19 = 1e-06 tmp20 = tmp18 + tmp19 tmp21 = libdevice.sqrt(tmp20) tl.store(out_ptr0 + (x2), tmp21, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/ek/cekbmmkf6jeivdyacikwn7uzkvx2g3akquy5d3t5m43oyey2rpi2.py # Topologically Sorted Source Nodes: [sub, loss_map, sum_1, add, loss_map_1, mul], Original ATen: [aten.sub, aten.pow, aten.sum, aten.add, aten.mul] # Source node to ATen node mapping: # add => add # loss_map => pow_1 # loss_map_1 => pow_2 # mul => mul # sub => sub # sum_1 => sum_1 # Graph fragment: # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%arg1_1, %arg0_1), kwargs = {}) # %pow_1 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sub, 2), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%pow_1, [1], True), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%sum_1, 1e-06), kwargs = {}) # %pow_2 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%add, 0.5), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%pow_2, %arg2_1), kwargs = {}) triton_poi_fused_add_mul_pow_sub_sum_1 = async_compile.triton('triton_poi_fused_add_mul_pow_sub_sum_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_mul_pow_sub_sum_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_mul_pow_sub_sum_1(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 16 x2 = (xindex // 64) x3 = xindex tmp0 = tl.load(in_ptr0 + (x0 + (16x2)), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (x3), xmask) tmp2 = tmp0 tmp1 tl.store(out_ptr0 + (x3), tmp2, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1, arg2_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg2_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 1, 4, 4), (16, 64, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [sub, loss_map, sum_1, add, loss_map_1], Original ATen: [aten.sub, aten.pow, aten.sum, aten.add] stream0 = get_raw_stream(0) triton_poi_fused_add_pow_sub_sum_0.run(arg1_1, arg0_1, buf0, 64, grid=grid(64), stream=stream0) del arg0_1 del arg1_1 buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [sub, loss_map, sum_1, add, loss_map_1, mul], Original ATen: [aten.sub, aten.pow, aten.sum, aten.add, aten.mul] triton_poi_fused_add_mul_pow_sub_sum_1.run(buf0, arg2_1, buf1, 256, grid=grid(256), stream=stream0) del arg2_1 del buf0 return (buf1, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg2_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1, arg2_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class EPE(nn.Module): def __init__(self): super(EPE, self).__init__() def forward(self, flow, gt, loss_mask): loss_map = (flow - gt.detach()) 2 loss_map = (loss_map.sum(1, True) + 1e-06) 0.5 return loss_map * loss_mask def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4]), torch.rand( [4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import libdevice import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_add_pow_sub_sum_0(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 16 x1 = xindex // 16 x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + 64 * x1), xmask) tmp1 = tl.load(in_ptr1 + (x0 + 64 * x1), xmask) tmp4 = tl.load(in_ptr0 + (16 + x0 + 64 * x1), xmask) tmp5 = tl.load(in_ptr1 + (16 + x0 + 64 * x1), xmask) tmp9 = tl.load(in_ptr0 + (32 + x0 + 64 * x1), xmask) tmp10 = tl.load(in_ptr1 + (32 + x0 + 64 * x1), xmask) tmp14 = tl.load(in_ptr0 + (48 + x0 + 64 * x1), xmask) tmp15 = tl.load(in_ptr1 + (48 + x0 + 64 * x1), xmask) tmp2 = tmp0 - tmp1 tmp3 = tmp2 * tmp2 tmp6 = tmp4 - tmp5 tmp7 = tmp6 * tmp6 tmp8 = tmp3 + tmp7 tmp11 = tmp9 - tmp10 tmp12 = tmp11 * tmp11 tmp13 = tmp8 + tmp12 tmp16 = tmp14 - tmp15 tmp17 = tmp16 * tmp16 tmp18 = tmp13 + tmp17 tmp19 = 1e-06 tmp20 = tmp18 + tmp19 tmp21 = libdevice.sqrt(tmp20) tl.store(out_ptr0 + x2, tmp21, xmask) @triton.jit def triton_poi_fused_add_mul_pow_sub_sum_1(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 16 x2 = xindex // 64 x3 = xindex tmp0 = tl.load(in_ptr0 + (x0 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp1 = tl.load(in_ptr1 + x3, xmask) tmp2 = tmp0 * tmp1 tl.store(out_ptr0 + x3, tmp2, xmask) def call(args): arg0_1, arg1_1, arg2_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg2_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 1, 4, 4), (16, 64, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_add_pow_sub_sum_0[grid(64)](arg1_1, arg0_1, buf0, 64, XBLOCK=64, num_warps=1, num_stages=1) del arg0_1 del arg1_1 buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) triton_poi_fused_add_mul_pow_sub_sum_1[grid(256)](buf0, arg2_1, buf1, 256, XBLOCK=256, num_warps=4, num_stages=1) del arg2_1 del buf0 return buf1, class EPENew(nn.Module): def __init__(self): super(EPENew, self).__init__() def forward(self, input_0, input_1, input_2): arg0_1 = input_0 arg1_1 = input_1 arg2_1 = input_2 output = call([arg0_1, arg1_1, arg2_1]) return output[0]	Entangled-Others-Studio/arXiv2020-RIFE	EPE	false	9,075	[ "MIT" ]	4cd37527876b19f2eb357385eb5e9167545450af	https://github.com/Entangled-Others-Studio/arXiv2020-RIFE/tree/4cd37527876b19f2eb357385eb5e9167545450af
Encoder	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/lp/clp5td7lbqtje3pt7v6xbcp766swgazqemomz2nzsxtdtmjesxht.py # Topologically Sorted Source Nodes: [x, x_1], Original ATen: [aten.convolution, aten.relu] # Source node to ATen node mapping: # x => convolution # x_1 => relu # Graph fragment: # %convolution : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_3, %primals_1, %primals_2, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution,), kwargs = {}) triton_poi_fused_convolution_relu_0 = async_compile.triton('triton_poi_fused_convolution_relu_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[262144], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_relu_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_relu_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 262144 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x3 = xindex x1 = (xindex // 4096) % 16 tmp0 = tl.load(in_out_ptr0 + (x3), None) tmp1 = tl.load(in_ptr0 + (x1), None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + (x3), tmp4, None) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/wy/cwyx3wa4jndgnwzcjpr33hhlviahccyeckxfax46ztwjbjc22gd7.py # Topologically Sorted Source Nodes: [x_2], Original ATen: [aten.max_pool2d_with_indices] # Source node to ATen node mapping: # x_2 => getitem, getitem_1 # Graph fragment: # %getitem : [num_users=2] = call_function[target=operator.getitem](args = (%_low_memory_max_pool2d_with_offsets, 0), kwargs = {}) # %getitem_1 : [num_users=1] = call_function[target=operator.getitem](args = (%_low_memory_max_pool2d_with_offsets, 1), kwargs = {}) triton_poi_fused_max_pool2d_with_indices_1 = async_compile.triton('triton_poi_fused_max_pool2d_with_indices_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[65536], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i8', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_max_pool2d_with_indices_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_max_pool2d_with_indices_1(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 65536 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x0 = xindex % 32 x1 = (xindex // 32) x2 = xindex tmp0 = tl.load(in_ptr0 + ((2x0) + (128x1)), None, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + (2x0) + (128x1)), None, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (64 + (2x0) + (128x1)), None, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (65 + (2x0) + (128x1)), None, eviction_policy='evict_last') tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp6 = triton_helpers.maximum(tmp5, tmp4) tmp7 = tmp1 > tmp0 tmp8 = tl.full([1], 1, tl.int8) tmp9 = tl.full([1], 0, tl.int8) tmp10 = tl.where(tmp7, tmp8, tmp9) tmp11 = tmp3 > tmp2 tmp12 = tl.full([1], 2, tl.int8) tmp13 = tl.where(tmp11, tmp12, tmp10) tmp14 = tmp5 > tmp4 tmp15 = tl.full([1], 3, tl.int8) tmp16 = tl.where(tmp14, tmp15, tmp13) tl.store(out_ptr0 + (x2), tmp6, None) tl.store(out_ptr1 + (x2), tmp16, None) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/j6/cj6faeofhfnxsh5iuwazughjlau4igyajnmvjequyelq7apzs4qm.py # Topologically Sorted Source Nodes: [x_3, x_4], Original ATen: [aten.convolution, aten.relu] # Source node to ATen node mapping: # x_3 => convolution_1 # x_4 => relu_1 # Graph fragment: # %convolution_1 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%getitem, %primals_4, %primals_5, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %relu_1 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution_1,), kwargs = {}) triton_poi_fused_convolution_relu_2 = async_compile.triton('triton_poi_fused_convolution_relu_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[131072], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_relu_2', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_relu_2(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 131072 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x3 = xindex x1 = (xindex // 1024) % 32 tmp0 = tl.load(in_out_ptr0 + (x3), None) tmp1 = tl.load(in_ptr0 + (x1), None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + (x3), tmp4, None) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/6y/c6yx6oq7oo2cwoaop3iwu5iqfdckg6lycdtu4jjuiv3wdcf2o6p7.py # Topologically Sorted Source Nodes: [x_5], Original ATen: [aten.max_pool2d_with_indices] # Source node to ATen node mapping: # x_5 => getitem_2, getitem_3 # Graph fragment: # %getitem_2 : [num_users=2] = call_function[target=operator.getitem](args = (%_low_memory_max_pool2d_with_offsets_1, 0), kwargs = {}) # %getitem_3 : [num_users=1] = call_function[target=operator.getitem](args = (%_low_memory_max_pool2d_with_offsets_1, 1), kwargs = {}) triton_poi_fused_max_pool2d_with_indices_3 = async_compile.triton('triton_poi_fused_max_pool2d_with_indices_3', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[32768], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i8', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_max_pool2d_with_indices_3', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_max_pool2d_with_indices_3(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 32768 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x0 = xindex % 16 x1 = (xindex // 16) x2 = xindex tmp0 = tl.load(in_ptr0 + ((2x0) + (64x1)), None, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + (2x0) + (64x1)), None, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (32 + (2x0) + (64x1)), None, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (33 + (2x0) + (64x1)), None, eviction_policy='evict_last') tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp6 = triton_helpers.maximum(tmp5, tmp4) tmp7 = tmp1 > tmp0 tmp8 = tl.full([1], 1, tl.int8) tmp9 = tl.full([1], 0, tl.int8) tmp10 = tl.where(tmp7, tmp8, tmp9) tmp11 = tmp3 > tmp2 tmp12 = tl.full([1], 2, tl.int8) tmp13 = tl.where(tmp11, tmp12, tmp10) tmp14 = tmp5 > tmp4 tmp15 = tl.full([1], 3, tl.int8) tmp16 = tl.where(tmp14, tmp15, tmp13) tl.store(out_ptr0 + (x2), tmp6, None) tl.store(out_ptr1 + (x2), tmp16, None) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/d4/cd4s5ogbgu46xbdaa3oicwxi7l6pnddrap26pxiqzcpei77ta53h.py # Topologically Sorted Source Nodes: [x_6, x_7], Original ATen: [aten.convolution, aten.relu] # Source node to ATen node mapping: # x_6 => convolution_2 # x_7 => relu_2 # Graph fragment: # %convolution_2 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%getitem_2, %primals_6, %primals_7, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %relu_2 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution_2,), kwargs = {}) triton_poi_fused_convolution_relu_4 = async_compile.triton('triton_poi_fused_convolution_relu_4', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[65536], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_relu_4', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_relu_4(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 65536 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x3 = xindex x1 = (xindex // 256) % 64 tmp0 = tl.load(in_out_ptr0 + (x3), None) tmp1 = tl.load(in_ptr0 + (x1), None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + (x3), tmp4, None) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/a4/ca43wvja2n3mesrfuj54dcwx324bk23dhpnatmpi7kjryanvrx2z.py # Topologically Sorted Source Nodes: [x_8], Original ATen: [aten.max_pool2d_with_indices] # Source node to ATen node mapping: # x_8 => getitem_4, getitem_5 # Graph fragment: # %getitem_4 : [num_users=2] = call_function[target=operator.getitem](args = (%_low_memory_max_pool2d_with_offsets_2, 0), kwargs = {}) # %getitem_5 : [num_users=1] = call_function[target=operator.getitem](args = (%_low_memory_max_pool2d_with_offsets_2, 1), kwargs = {}) triton_poi_fused_max_pool2d_with_indices_5 = async_compile.triton('triton_poi_fused_max_pool2d_with_indices_5', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16384], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i8', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_max_pool2d_with_indices_5', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_max_pool2d_with_indices_5(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 16384 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x0 = xindex % 8 x1 = (xindex // 8) x2 = xindex tmp0 = tl.load(in_ptr0 + ((2x0) + (32x1)), None, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + (2x0) + (32x1)), None, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (16 + (2x0) + (32x1)), None, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (17 + (2x0) + (32x1)), None, eviction_policy='evict_last') tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp6 = triton_helpers.maximum(tmp5, tmp4) tmp7 = tmp1 > tmp0 tmp8 = tl.full([1], 1, tl.int8) tmp9 = tl.full([1], 0, tl.int8) tmp10 = tl.where(tmp7, tmp8, tmp9) tmp11 = tmp3 > tmp2 tmp12 = tl.full([1], 2, tl.int8) tmp13 = tl.where(tmp11, tmp12, tmp10) tmp14 = tmp5 > tmp4 tmp15 = tl.full([1], 3, tl.int8) tmp16 = tl.where(tmp14, tmp15, tmp13) tl.store(out_ptr0 + (x2), tmp6, None) tl.store(out_ptr1 + (x2), tmp16, None) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/pw/cpwsgxngvwi42czirdy5mqcvlzqz5ddbdn3ytrocy4pgt7bp7hcr.py # Topologically Sorted Source Nodes: [x_9, x_10], Original ATen: [aten.convolution, aten.relu] # Source node to ATen node mapping: # x_10 => relu_3 # x_9 => convolution_3 # Graph fragment: # %convolution_3 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%getitem_4, %primals_8, %primals_9, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %relu_3 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution_3,), kwargs = {}) triton_poi_fused_convolution_relu_6 = async_compile.triton('triton_poi_fused_convolution_relu_6', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16384], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_relu_6', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_relu_6(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16384 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x3 = xindex x1 = (xindex // 64) % 64 tmp0 = tl.load(in_out_ptr0 + (x3), None) tmp1 = tl.load(in_ptr0 + (x1), None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + (x3), tmp4, None) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/nk/cnkzs5jmhhmrcpvb6zj5jqdidguxoz45pd7jrl3rxado6v5daf6k.py # Topologically Sorted Source Nodes: [x_11, h], Original ATen: [aten.max_pool2d_with_indices, aten.mean] # Source node to ATen node mapping: # h => mean # x_11 => _low_memory_max_pool2d_with_offsets_3, getitem_7 # Graph fragment: # %_low_memory_max_pool2d_with_offsets_3 : [num_users=2] = call_function[target=torch.ops.prims._low_memory_max_pool2d_with_offsets.default](args = (%relu_3, [2, 2], [2, 2], [0, 0], [1, 1], False), kwargs = {}) # %getitem_7 : [num_users=1] = call_function[target=operator.getitem](args = (%_low_memory_max_pool2d_with_offsets_3, 1), kwargs = {}) # %mean : [num_users=2] = call_function[target=torch.ops.aten.mean.dim](args = (%getitem_6, [2, 3]), kwargs = {}) triton_per_fused_max_pool2d_with_indices_mean_7 = async_compile.triton('triton_per_fused_max_pool2d_with_indices_mean_7', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[256, 16], reduction_hint=ReductionHint.DEFAULT, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i8', 3: 'i32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_max_pool2d_with_indices_mean_7', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 1, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_max_pool2d_with_indices_mean_7(in_out_ptr0, in_ptr0, out_ptr0, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 256 rnumel = 16 RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) r1 = rindex % 4 r2 = (rindex // 4) x0 = xindex r3 = rindex tmp0 = tl.load(in_ptr0 + ((2r1) + (16r2) + (64x0)), xmask, eviction_policy='evict_last', other=0.0) tmp1 = tl.load(in_ptr0 + (1 + (2r1) + (16r2) + (64x0)), xmask, eviction_policy='evict_last', other=0.0) tmp7 = tl.load(in_ptr0 + (8 + (2r1) + (16r2) + (64x0)), xmask, eviction_policy='evict_last', other=0.0) tmp12 = tl.load(in_ptr0 + (9 + (2r1) + (16r2) + (64x0)), xmask, eviction_policy='evict_last', other=0.0) tmp2 = tmp1 > tmp0 tmp3 = tl.full([1, 1], 1, tl.int8) tmp4 = tl.full([1, 1], 0, tl.int8) tmp5 = tl.where(tmp2, tmp3, tmp4) tmp6 = triton_helpers.maximum(tmp1, tmp0) tmp8 = tmp7 > tmp6 tmp9 = tl.full([1, 1], 2, tl.int8) tmp10 = tl.where(tmp8, tmp9, tmp5) tmp11 = triton_helpers.maximum(tmp7, tmp6) tmp13 = tmp12 > tmp11 tmp14 = tl.full([1, 1], 3, tl.int8) tmp15 = tl.where(tmp13, tmp14, tmp10) tmp16 = triton_helpers.maximum(tmp12, tmp11) tmp17 = tl.broadcast_to(tmp16, [XBLOCK, RBLOCK]) tmp19 = tl.where(xmask, tmp17, 0) tmp20 = tl.sum(tmp19, 1)[:, None] tmp21 = 16.0 tmp22 = tmp20 / tmp21 tl.store(out_ptr0 + (r3 + (16x0)), tmp15, xmask) tl.debug_barrier() tl.store(in_out_ptr0 + (x0), tmp22, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/nx/cnxa3vlwdljrqxm7y6obufkshm4wnjkxynv7ec3urwiscpmwzsfe.py # Topologically Sorted Source Nodes: [x_13], Original ATen: [aten.relu] # Source node to ATen node mapping: # x_13 => relu_4 # Graph fragment: # %add_tensor : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mm_default, %primals_11), kwargs = {}) # %relu_4 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%add_tensor,), kwargs = {}) triton_poi_fused_relu_8 = async_compile.triton('triton_poi_fused_relu_8', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_relu_8', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_relu_8(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 64 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + (x2), tmp4, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13 = args args.clear() assert_size_stride(primals_1, (16, 3, 3, 3), (27, 9, 3, 1)) assert_size_stride(primals_2, (16, ), (1, )) assert_size_stride(primals_3, (4, 3, 64, 64), (12288, 4096, 64, 1)) assert_size_stride(primals_4, (32, 16, 3, 3), (144, 9, 3, 1)) assert_size_stride(primals_5, (32, ), (1, )) assert_size_stride(primals_6, (64, 32, 3, 3), (288, 9, 3, 1)) assert_size_stride(primals_7, (64, ), (1, )) assert_size_stride(primals_8, (64, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_9, (64, ), (1, )) assert_size_stride(primals_10, (64, 64), (64, 1)) assert_size_stride(primals_11, (64, ), (1, )) assert_size_stride(primals_12, (64, 64), (64, 1)) assert_size_stride(primals_13, (64, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [x], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 16, 64, 64), (65536, 4096, 64, 1)) buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [x, x_1], Original ATen: [aten.convolution, aten.relu] stream0 = get_raw_stream(0) triton_poi_fused_convolution_relu_0.run(buf1, primals_2, 262144, grid=grid(262144), stream=stream0) del primals_2 buf2 = empty_strided_cuda((4, 16, 32, 32), (16384, 1024, 32, 1), torch.float32) buf3 = empty_strided_cuda((4, 16, 32, 32), (16384, 1024, 32, 1), torch.int8) # Topologically Sorted Source Nodes: [x_2], Original ATen: [aten.max_pool2d_with_indices] triton_poi_fused_max_pool2d_with_indices_1.run(buf1, buf2, buf3, 65536, grid=grid(65536), stream=stream0) # Topologically Sorted Source Nodes: [x_3], Original ATen: [aten.convolution] buf4 = extern_kernels.convolution(buf2, primals_4, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf4, (4, 32, 32, 32), (32768, 1024, 32, 1)) buf5 = buf4; del buf4 # reuse # Topologically Sorted Source Nodes: [x_3, x_4], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_2.run(buf5, primals_5, 131072, grid=grid(131072), stream=stream0) del primals_5 buf6 = empty_strided_cuda((4, 32, 16, 16), (8192, 256, 16, 1), torch.float32) buf7 = empty_strided_cuda((4, 32, 16, 16), (8192, 256, 16, 1), torch.int8) # Topologically Sorted Source Nodes: [x_5], Original ATen: [aten.max_pool2d_with_indices] triton_poi_fused_max_pool2d_with_indices_3.run(buf5, buf6, buf7, 32768, grid=grid(32768), stream=stream0) # Topologically Sorted Source Nodes: [x_6], Original ATen: [aten.convolution] buf8 = extern_kernels.convolution(buf6, primals_6, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf8, (4, 64, 16, 16), (16384, 256, 16, 1)) buf9 = buf8; del buf8 # reuse # Topologically Sorted Source Nodes: [x_6, x_7], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_4.run(buf9, primals_7, 65536, grid=grid(65536), stream=stream0) del primals_7 buf10 = empty_strided_cuda((4, 64, 8, 8), (4096, 64, 8, 1), torch.float32) buf11 = empty_strided_cuda((4, 64, 8, 8), (4096, 64, 8, 1), torch.int8) # Topologically Sorted Source Nodes: [x_8], Original ATen: [aten.max_pool2d_with_indices] triton_poi_fused_max_pool2d_with_indices_5.run(buf9, buf10, buf11, 16384, grid=grid(16384), stream=stream0) # Topologically Sorted Source Nodes: [x_9], Original ATen: [aten.convolution] buf12 = extern_kernels.convolution(buf10, primals_8, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf12, (4, 64, 8, 8), (4096, 64, 8, 1)) buf13 = buf12; del buf12 # reuse # Topologically Sorted Source Nodes: [x_9, x_10], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_6.run(buf13, primals_9, 16384, grid=grid(16384), stream=stream0) del primals_9 buf14 = empty_strided_cuda((4, 64, 4, 4), (1024, 16, 4, 1), torch.int8) buf15 = empty_strided_cuda((4, 64), (64, 1), torch.float32) buf16 = buf15; del buf15 # reuse # Topologically Sorted Source Nodes: [x_11, h], Original ATen: [aten.max_pool2d_with_indices, aten.mean] triton_per_fused_max_pool2d_with_indices_mean_7.run(buf16, buf13, buf14, 256, 16, grid=grid(256), stream=stream0) buf17 = empty_strided_cuda((4, 64), (64, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(buf16, reinterpret_tensor(primals_10, (64, 64), (1, 64), 0), out=buf17) buf18 = buf17; del buf17 # reuse # Topologically Sorted Source Nodes: [x_13], Original ATen: [aten.relu] triton_poi_fused_relu_8.run(buf18, primals_11, 256, grid=grid(256), stream=stream0) del primals_11 buf19 = empty_strided_cuda((4, 64), (64, 1), torch.float32) # Topologically Sorted Source Nodes: [x_14], Original ATen: [aten.addmm] extern_kernels.addmm(primals_13, buf18, reinterpret_tensor(primals_12, (64, 64), (1, 64), 0), alpha=1, beta=1, out=buf19) del primals_13 return (buf16, buf19, primals_1, primals_3, primals_4, primals_6, primals_8, buf1, buf2, buf3, buf5, buf6, buf7, buf9, buf10, buf11, buf13, buf14, buf16, buf18, primals_12, primals_10, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((16, 3, 3, 3), (27, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((16, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 3, 64, 64), (12288, 4096, 64, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((32, 16, 3, 3), (144, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((32, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((64, 32, 3, 3), (288, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((64, ), (1, ), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((64, 64, 3, 3), (576, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((64, ), (1, ), device='cuda:0', dtype=torch.float32) primals_10 = rand_strided((64, 64), (64, 1), device='cuda:0', dtype=torch.float32) primals_11 = rand_strided((64, ), (1, ), device='cuda:0', dtype=torch.float32) primals_12 = rand_strided((64, 64), (64, 1), device='cuda:0', dtype=torch.float32) primals_13 = rand_strided((64, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.nn.functional as F class Encoder(nn.Module): def __init__(self, out_dim=64): super(Encoder, self).__init__() self.conv1 = nn.Conv2d(3, 16, kernel_size=3, stride=1, padding=1) self.conv2 = nn.Conv2d(16, 32, kernel_size=3, stride=1, padding=1) self.conv3 = nn.Conv2d(32, 64, kernel_size=3, stride=1, padding=1) self.conv4 = nn.Conv2d(64, 64, kernel_size=3, stride=1, padding=1) self.pool = nn.MaxPool2d(2, 2) self.l1 = nn.Linear(64, 64) self.l2 = nn.Linear(64, out_dim) def forward(self, x): x = self.conv1(x) x = F.relu(x) x = self.pool(x) x = self.conv2(x) x = F.relu(x) x = self.pool(x) x = self.conv3(x) x = F.relu(x) x = self.pool(x) x = self.conv4(x) x = F.relu(x) x = self.pool(x) h = torch.mean(x, dim=[2, 3]) x = self.l1(h) x = F.relu(x) x = self.l2(x) return h, x def get_inputs(): return [torch.rand([4, 3, 64, 64])] def get_init_inputs(): return [[], {}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_convolution_relu_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x3 = xindex x1 = xindex // 4096 % 16 tmp0 = tl.load(in_out_ptr0 + x3, None) tmp1 = tl.load(in_ptr0 + x1, None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + x3, tmp4, None) @triton.jit def triton_poi_fused_max_pool2d_with_indices_1(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x0 = xindex % 32 x1 = xindex // 32 x2 = xindex tmp0 = tl.load(in_ptr0 + (2 * x0 + 128 * x1), None, eviction_policy= 'evict_last') tmp1 = tl.load(in_ptr0 + (1 + 2 * x0 + 128 * x1), None, eviction_policy ='evict_last') tmp3 = tl.load(in_ptr0 + (64 + 2 * x0 + 128 * x1), None, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (65 + 2 * x0 + 128 * x1), None, eviction_policy='evict_last') tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp6 = triton_helpers.maximum(tmp5, tmp4) tmp7 = tmp1 > tmp0 tmp8 = tl.full([1], 1, tl.int8) tmp9 = tl.full([1], 0, tl.int8) tmp10 = tl.where(tmp7, tmp8, tmp9) tmp11 = tmp3 > tmp2 tmp12 = tl.full([1], 2, tl.int8) tmp13 = tl.where(tmp11, tmp12, tmp10) tmp14 = tmp5 > tmp4 tmp15 = tl.full([1], 3, tl.int8) tmp16 = tl.where(tmp14, tmp15, tmp13) tl.store(out_ptr0 + x2, tmp6, None) tl.store(out_ptr1 + x2, tmp16, None) @triton.jit def triton_poi_fused_convolution_relu_2(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x3 = xindex x1 = xindex // 1024 % 32 tmp0 = tl.load(in_out_ptr0 + x3, None) tmp1 = tl.load(in_ptr0 + x1, None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + x3, tmp4, None) @triton.jit def triton_poi_fused_max_pool2d_with_indices_3(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x0 = xindex % 16 x1 = xindex // 16 x2 = xindex tmp0 = tl.load(in_ptr0 + (2 * x0 + 64 * x1), None, eviction_policy= 'evict_last') tmp1 = tl.load(in_ptr0 + (1 + 2 * x0 + 64 * x1), None, eviction_policy= 'evict_last') tmp3 = tl.load(in_ptr0 + (32 + 2 * x0 + 64 * x1), None, eviction_policy ='evict_last') tmp5 = tl.load(in_ptr0 + (33 + 2 * x0 + 64 * x1), None, eviction_policy ='evict_last') tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp6 = triton_helpers.maximum(tmp5, tmp4) tmp7 = tmp1 > tmp0 tmp8 = tl.full([1], 1, tl.int8) tmp9 = tl.full([1], 0, tl.int8) tmp10 = tl.where(tmp7, tmp8, tmp9) tmp11 = tmp3 > tmp2 tmp12 = tl.full([1], 2, tl.int8) tmp13 = tl.where(tmp11, tmp12, tmp10) tmp14 = tmp5 > tmp4 tmp15 = tl.full([1], 3, tl.int8) tmp16 = tl.where(tmp14, tmp15, tmp13) tl.store(out_ptr0 + x2, tmp6, None) tl.store(out_ptr1 + x2, tmp16, None) @triton.jit def triton_poi_fused_convolution_relu_4(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x3 = xindex x1 = xindex // 256 % 64 tmp0 = tl.load(in_out_ptr0 + x3, None) tmp1 = tl.load(in_ptr0 + x1, None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + x3, tmp4, None) @triton.jit def triton_poi_fused_max_pool2d_with_indices_5(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x0 = xindex % 8 x1 = xindex // 8 x2 = xindex tmp0 = tl.load(in_ptr0 + (2 * x0 + 32 * x1), None, eviction_policy= 'evict_last') tmp1 = tl.load(in_ptr0 + (1 + 2 * x0 + 32 * x1), None, eviction_policy= 'evict_last') tmp3 = tl.load(in_ptr0 + (16 + 2 * x0 + 32 * x1), None, eviction_policy ='evict_last') tmp5 = tl.load(in_ptr0 + (17 + 2 * x0 + 32 * x1), None, eviction_policy ='evict_last') tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp6 = triton_helpers.maximum(tmp5, tmp4) tmp7 = tmp1 > tmp0 tmp8 = tl.full([1], 1, tl.int8) tmp9 = tl.full([1], 0, tl.int8) tmp10 = tl.where(tmp7, tmp8, tmp9) tmp11 = tmp3 > tmp2 tmp12 = tl.full([1], 2, tl.int8) tmp13 = tl.where(tmp11, tmp12, tmp10) tmp14 = tmp5 > tmp4 tmp15 = tl.full([1], 3, tl.int8) tmp16 = tl.where(tmp14, tmp15, tmp13) tl.store(out_ptr0 + x2, tmp6, None) tl.store(out_ptr1 + x2, tmp16, None) @triton.jit def triton_poi_fused_convolution_relu_6(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x3 = xindex x1 = xindex // 64 % 64 tmp0 = tl.load(in_out_ptr0 + x3, None) tmp1 = tl.load(in_ptr0 + x1, None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + x3, tmp4, None) @triton.jit def triton_per_fused_max_pool2d_with_indices_mean_7(in_out_ptr0, in_ptr0, out_ptr0, xnumel, rnumel, XBLOCK: tl.constexpr): xnumel = 256 RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] tl.full([XBLOCK, RBLOCK], True, tl.int1) r1 = rindex % 4 r2 = rindex // 4 x0 = xindex r3 = rindex tmp0 = tl.load(in_ptr0 + (2 * r1 + 16 * r2 + 64 * x0), xmask, eviction_policy='evict_last', other=0.0) tmp1 = tl.load(in_ptr0 + (1 + 2 * r1 + 16 * r2 + 64 * x0), xmask, eviction_policy='evict_last', other=0.0) tmp7 = tl.load(in_ptr0 + (8 + 2 * r1 + 16 * r2 + 64 * x0), xmask, eviction_policy='evict_last', other=0.0) tmp12 = tl.load(in_ptr0 + (9 + 2 * r1 + 16 * r2 + 64 * x0), xmask, eviction_policy='evict_last', other=0.0) tmp2 = tmp1 > tmp0 tmp3 = tl.full([1, 1], 1, tl.int8) tmp4 = tl.full([1, 1], 0, tl.int8) tmp5 = tl.where(tmp2, tmp3, tmp4) tmp6 = triton_helpers.maximum(tmp1, tmp0) tmp8 = tmp7 > tmp6 tmp9 = tl.full([1, 1], 2, tl.int8) tmp10 = tl.where(tmp8, tmp9, tmp5) tmp11 = triton_helpers.maximum(tmp7, tmp6) tmp13 = tmp12 > tmp11 tmp14 = tl.full([1, 1], 3, tl.int8) tmp15 = tl.where(tmp13, tmp14, tmp10) tmp16 = triton_helpers.maximum(tmp12, tmp11) tmp17 = tl.broadcast_to(tmp16, [XBLOCK, RBLOCK]) tmp19 = tl.where(xmask, tmp17, 0) tmp20 = tl.sum(tmp19, 1)[:, None] tmp21 = 16.0 tmp22 = tmp20 / tmp21 tl.store(out_ptr0 + (r3 + 16 * x0), tmp15, xmask) tl.debug_barrier() tl.store(in_out_ptr0 + x0, tmp22, xmask) @triton.jit def triton_poi_fused_relu_8(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 64 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + x2, tmp4, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13) = args args.clear() assert_size_stride(primals_1, (16, 3, 3, 3), (27, 9, 3, 1)) assert_size_stride(primals_2, (16,), (1,)) assert_size_stride(primals_3, (4, 3, 64, 64), (12288, 4096, 64, 1)) assert_size_stride(primals_4, (32, 16, 3, 3), (144, 9, 3, 1)) assert_size_stride(primals_5, (32,), (1,)) assert_size_stride(primals_6, (64, 32, 3, 3), (288, 9, 3, 1)) assert_size_stride(primals_7, (64,), (1,)) assert_size_stride(primals_8, (64, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_9, (64,), (1,)) assert_size_stride(primals_10, (64, 64), (64, 1)) assert_size_stride(primals_11, (64,), (1,)) assert_size_stride(primals_12, (64, 64), (64, 1)) assert_size_stride(primals_13, (64,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 16, 64, 64), (65536, 4096, 64, 1)) buf1 = buf0 del buf0 get_raw_stream(0) triton_poi_fused_convolution_relu_0[grid(262144)](buf1, primals_2, 262144, XBLOCK=1024, num_warps=4, num_stages=1) del primals_2 buf2 = empty_strided_cuda((4, 16, 32, 32), (16384, 1024, 32, 1), torch.float32) buf3 = empty_strided_cuda((4, 16, 32, 32), (16384, 1024, 32, 1), torch.int8) triton_poi_fused_max_pool2d_with_indices_1[grid(65536)](buf1, buf2, buf3, 65536, XBLOCK=512, num_warps=4, num_stages=1) buf4 = extern_kernels.convolution(buf2, primals_4, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf4, (4, 32, 32, 32), (32768, 1024, 32, 1)) buf5 = buf4 del buf4 triton_poi_fused_convolution_relu_2[grid(131072)](buf5, primals_5, 131072, XBLOCK=512, num_warps=8, num_stages=1) del primals_5 buf6 = empty_strided_cuda((4, 32, 16, 16), (8192, 256, 16, 1), torch.float32) buf7 = empty_strided_cuda((4, 32, 16, 16), (8192, 256, 16, 1), torch.int8) triton_poi_fused_max_pool2d_with_indices_3[grid(32768)](buf5, buf6, buf7, 32768, XBLOCK=256, num_warps=4, num_stages=1) buf8 = extern_kernels.convolution(buf6, primals_6, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf8, (4, 64, 16, 16), (16384, 256, 16, 1)) buf9 = buf8 del buf8 triton_poi_fused_convolution_relu_4[grid(65536)](buf9, primals_7, 65536, XBLOCK=512, num_warps=4, num_stages=1) del primals_7 buf10 = empty_strided_cuda((4, 64, 8, 8), (4096, 64, 8, 1), torch. float32) buf11 = empty_strided_cuda((4, 64, 8, 8), (4096, 64, 8, 1), torch.int8) triton_poi_fused_max_pool2d_with_indices_5[grid(16384)](buf9, buf10, buf11, 16384, XBLOCK=128, num_warps=4, num_stages=1) buf12 = extern_kernels.convolution(buf10, primals_8, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf12, (4, 64, 8, 8), (4096, 64, 8, 1)) buf13 = buf12 del buf12 triton_poi_fused_convolution_relu_6[grid(16384)](buf13, primals_9, 16384, XBLOCK=256, num_warps=4, num_stages=1) del primals_9 buf14 = empty_strided_cuda((4, 64, 4, 4), (1024, 16, 4, 1), torch.int8) buf15 = empty_strided_cuda((4, 64), (64, 1), torch.float32) buf16 = buf15 del buf15 triton_per_fused_max_pool2d_with_indices_mean_7[grid(256)](buf16, buf13, buf14, 256, 16, XBLOCK=8, num_warps=2, num_stages=1) buf17 = empty_strided_cuda((4, 64), (64, 1), torch.float32) extern_kernels.mm(buf16, reinterpret_tensor(primals_10, (64, 64), ( 1, 64), 0), out=buf17) buf18 = buf17 del buf17 triton_poi_fused_relu_8[grid(256)](buf18, primals_11, 256, XBLOCK= 256, num_warps=4, num_stages=1) del primals_11 buf19 = empty_strided_cuda((4, 64), (64, 1), torch.float32) extern_kernels.addmm(primals_13, buf18, reinterpret_tensor( primals_12, (64, 64), (1, 64), 0), alpha=1, beta=1, out=buf19) del primals_13 return (buf16, buf19, primals_1, primals_3, primals_4, primals_6, primals_8, buf1, buf2, buf3, buf5, buf6, buf7, buf9, buf10, buf11, buf13, buf14, buf16, buf18, primals_12, primals_10) class EncoderNew(nn.Module): def __init__(self, out_dim=64): super(EncoderNew, self).__init__() self.conv1 = nn.Conv2d(3, 16, kernel_size=3, stride=1, padding=1) self.conv2 = nn.Conv2d(16, 32, kernel_size=3, stride=1, padding=1) self.conv3 = nn.Conv2d(32, 64, kernel_size=3, stride=1, padding=1) self.conv4 = nn.Conv2d(64, 64, kernel_size=3, stride=1, padding=1) self.pool = nn.MaxPool2d(2, 2) self.l1 = nn.Linear(64, 64) self.l2 = nn.Linear(64, out_dim) def forward(self, input_0): primals_1 = self.conv1.weight primals_2 = self.conv1.bias primals_4 = self.conv2.weight primals_5 = self.conv2.bias primals_6 = self.conv3.weight primals_7 = self.conv3.bias primals_8 = self.conv4.weight primals_9 = self.conv4.bias primals_10 = self.l1.weight primals_11 = self.l1.bias primals_12 = self.l2.weight primals_13 = self.l2.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13]) return output[0], output[1]	GuohongLi/simclr-pytorch	Encoder	false	9,076	[ "BSD-3-Clause" ]	7e08b2433a623fdbc1c097402fded4cc69d1b54e	https://github.com/GuohongLi/simclr-pytorch/tree/7e08b2433a623fdbc1c097402fded4cc69d1b54e
TransitionUp	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/vj/cvjfjp2c5b6kmum7rzezdgvc6ty2cuox66h5ldj2uxo4hybemm3x.py # Topologically Sorted Source Nodes: [out], Original ATen: [aten._to_copy, aten.arange, aten.mul, aten.clamp, aten._unsafe_index, aten.sub, aten.add] # Source node to ATen node mapping: # out => _unsafe_index, _unsafe_index_1, _unsafe_index_2, _unsafe_index_3, add_2, add_3, add_4, clamp_max_2, clamp_max_3, clamp_min_1, clamp_min_2, clamp_min_3, convert_element_type_1, convert_element_type_2, convert_element_type_3, iota_1, mul_1, mul_2, mul_3, mul_4, sub, sub_1, sub_2, sub_3, sub_4 # Graph fragment: # %convert_element_type_1 : [num_users=4] = call_function[target=torch.ops.prims.convert_element_type.default](args = (%view, torch.int64), kwargs = {}) # %iota_1 : [num_users=1] = call_function[target=torch.ops.prims.iota.default](args = (4,), kwargs = {start: 0, step: 1, dtype: torch.int64, device: cuda:0, requires_grad: False}) # %convert_element_type_2 : [num_users=1] = call_function[target=torch.ops.prims.convert_element_type.default](args = (%iota_1, torch.float32), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%convert_element_type_2, 1.0), kwargs = {}) # %clamp_min_1 : [num_users=2] = call_function[target=torch.ops.aten.clamp_min.default](args = (%mul_1, 0.0), kwargs = {}) # %convert_element_type_3 : [num_users=4] = call_function[target=torch.ops.prims.convert_element_type.default](args = (%clamp_min_1, torch.int64), kwargs = {}) # %_unsafe_index_3 : [num_users=1] = call_function[target=torch.ops.aten._unsafe_index.Tensor](args = (%arg1_1, [None, None, %clamp_max, %clamp_max_1]), kwargs = {}) # %_unsafe_index_2 : [num_users=2] = call_function[target=torch.ops.aten._unsafe_index.Tensor](args = (%arg1_1, [None, None, %clamp_max, %convert_element_type_3]), kwargs = {}) # %sub_2 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%_unsafe_index_3, %_unsafe_index_2), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%clamp_min_1, %convert_element_type_3), kwargs = {}) # %clamp_min_2 : [num_users=1] = call_function[target=torch.ops.aten.clamp_min.default](args = (%sub, 0.0), kwargs = {}) # %clamp_max_2 : [num_users=2] = call_function[target=torch.ops.aten.clamp_max.default](args = (%clamp_min_2, 1.0), kwargs = {}) # %mul_3 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub_2, %clamp_max_2), kwargs = {}) # %add_3 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%_unsafe_index_2, %mul_3), kwargs = {}) # %_unsafe_index_1 : [num_users=1] = call_function[target=torch.ops.aten._unsafe_index.Tensor](args = (%arg1_1, [None, None, %convert_element_type_1, %clamp_max_1]), kwargs = {}) # %_unsafe_index : [num_users=2] = call_function[target=torch.ops.aten._unsafe_index.Tensor](args = (%arg1_1, [None, None, %convert_element_type_1, %convert_element_type_3]), kwargs = {}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%_unsafe_index_1, %_unsafe_index), kwargs = {}) # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub_1, %clamp_max_2), kwargs = {}) # %add_2 : [num_users=2] = call_function[target=torch.ops.aten.add.Tensor](args = (%_unsafe_index, %mul_2), kwargs = {}) # %sub_4 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%add_3, %add_2), kwargs = {}) # %sub_3 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%view, %convert_element_type_1), kwargs = {}) # %clamp_min_3 : [num_users=1] = call_function[target=torch.ops.aten.clamp_min.default](args = (%sub_3, 0.0), kwargs = {}) # %clamp_max_3 : [num_users=1] = call_function[target=torch.ops.aten.clamp_max.default](args = (%clamp_min_3, 1.0), kwargs = {}) # %mul_4 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub_4, %clamp_max_3), kwargs = {}) # %add_4 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%add_2, %mul_4), kwargs = {}) triton_poi_fused__to_copy__unsafe_index_add_arange_clamp_mul_sub_0 = async_compile.triton('triton_poi_fused__to_copy__unsafe_index_add_arange_clamp_mul_sub_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__to_copy__unsafe_index_add_arange_clamp_mul_sub_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 0, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__to_copy__unsafe_index_add_arange_clamp_mul_sub_0(in_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = (xindex // 4) % 4 x0 = xindex % 4 x2 = (xindex // 16) x6 = xindex x4 = (xindex // 64) x7 = xindex % 64 tmp0 = x1 tmp1 = tmp0.to(tl.float32) tmp2 = 1.0 tmp3 = tmp1 * tmp2 tmp4 = 0.0 tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp6 = tmp5.to(tl.int32) tmp7 = tl.full([1], 1, tl.int64) tmp8 = tmp6 + tmp7 tmp9 = tl.full([1], 3, tl.int64) tmp10 = triton_helpers.minimum(tmp8, tmp9) tmp11 = x0 tmp12 = tmp11.to(tl.float32) tmp13 = tmp12 * tmp2 tmp14 = triton_helpers.maximum(tmp13, tmp4) tmp15 = tmp14.to(tl.int32) tmp16 = tl.load(in_ptr0 + (tmp15 + (4tmp10) + (16x2)), xmask, eviction_policy='evict_last') tmp17 = tmp15 + tmp7 tmp18 = triton_helpers.minimum(tmp17, tmp9) tmp19 = tl.load(in_ptr0 + (tmp18 + (4tmp10) + (16x2)), xmask, eviction_policy='evict_last') tmp20 = tmp19 - tmp16 tmp21 = tmp15.to(tl.float32) tmp22 = tmp14 - tmp21 tmp23 = triton_helpers.maximum(tmp22, tmp4) tmp24 = triton_helpers.minimum(tmp23, tmp2) tmp25 = tmp20 * tmp24 tmp26 = tmp16 + tmp25 tmp27 = tl.load(in_ptr0 + (tmp15 + (4tmp6) + (16x2)), xmask, eviction_policy='evict_last') tmp28 = tl.load(in_ptr0 + (tmp18 + (4tmp6) + (16x2)), xmask, eviction_policy='evict_last') tmp29 = tmp28 - tmp27 tmp30 = tmp29 * tmp24 tmp31 = tmp27 + tmp30 tmp32 = tmp26 - tmp31 tmp33 = tmp6.to(tl.float32) tmp34 = tmp5 - tmp33 tmp35 = triton_helpers.maximum(tmp34, tmp4) tmp36 = triton_helpers.minimum(tmp35, tmp2) tmp37 = tmp32 * tmp36 tmp38 = tmp31 + tmp37 tl.store(out_ptr1 + (x7 + (128x4)), tmp38, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/6h/c6hnaocrwyk7i35femierhjm5d6m2w7sd7rm4icjfabzyhwhapei.py # Topologically Sorted Source Nodes: [out_1], Original ATen: [aten.cat] # Source node to ATen node mapping: # out_1 => cat # Graph fragment: # %cat : [num_users=1] = call_function[target=torch.ops.aten.cat.default](args = ([%add_4, %arg0_1], 1), kwargs = {}) triton_poi_fused_cat_1 = async_compile.triton('triton_poi_fused_cat_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_cat_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_cat_1(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 64 x1 = (xindex // 64) tmp0 = tl.load(in_ptr0 + (x2), xmask) tl.store(out_ptr0 + (x0 + (128*x1)), tmp0, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf3 = empty_strided_cuda((4, 8, 4, 4), (128, 16, 4, 1), torch.float32) buf1 = reinterpret_tensor(buf3, (4, 4, 4, 4), (128, 16, 4, 1), 0) # alias # Topologically Sorted Source Nodes: [out], Original ATen: [aten._to_copy, aten.arange, aten.mul, aten.clamp, aten._unsafe_index, aten.sub, aten.add] stream0 = get_raw_stream(0) triton_poi_fused__to_copy__unsafe_index_add_arange_clamp_mul_sub_0.run(arg1_1, buf1, 256, grid=grid(256), stream=stream0) del arg1_1 buf2 = reinterpret_tensor(buf3, (4, 4, 4, 4), (128, 16, 4, 1), 64) # alias # Topologically Sorted Source Nodes: [out_1], Original ATen: [aten.cat] triton_poi_fused_cat_1.run(arg0_1, buf2, 256, grid=grid(256), stream=stream0) del arg0_1 return (buf3, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn import torch.nn.functional as F import torch.nn as nn class TransitionUp(nn.Module): def __init__(self, in_channels, out_channels): super().__init__() def forward(self, x, skip, concat=True): out = F.interpolate(x, size=(skip.size(2), skip.size(3)), mode= 'bilinear', align_corners=True) if concat: out = torch.cat([out, skip], 1) return out def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'in_channels': 4, 'out_channels': 4}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers import torch.nn import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused__to_copy__unsafe_index_add_arange_clamp_mul_sub_0(in_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = xindex // 4 % 4 x0 = xindex % 4 x2 = xindex // 16 x4 = xindex // 64 x7 = xindex % 64 tmp0 = x1 tmp1 = tmp0.to(tl.float32) tmp2 = 1.0 tmp3 = tmp1 * tmp2 tmp4 = 0.0 tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp6 = tmp5.to(tl.int32) tmp7 = tl.full([1], 1, tl.int64) tmp8 = tmp6 + tmp7 tmp9 = tl.full([1], 3, tl.int64) tmp10 = triton_helpers.minimum(tmp8, tmp9) tmp11 = x0 tmp12 = tmp11.to(tl.float32) tmp13 = tmp12 * tmp2 tmp14 = triton_helpers.maximum(tmp13, tmp4) tmp15 = tmp14.to(tl.int32) tmp16 = tl.load(in_ptr0 + (tmp15 + 4 * tmp10 + 16 * x2), xmask, eviction_policy='evict_last') tmp17 = tmp15 + tmp7 tmp18 = triton_helpers.minimum(tmp17, tmp9) tmp19 = tl.load(in_ptr0 + (tmp18 + 4 * tmp10 + 16 * x2), xmask, eviction_policy='evict_last') tmp20 = tmp19 - tmp16 tmp21 = tmp15.to(tl.float32) tmp22 = tmp14 - tmp21 tmp23 = triton_helpers.maximum(tmp22, tmp4) tmp24 = triton_helpers.minimum(tmp23, tmp2) tmp25 = tmp20 * tmp24 tmp26 = tmp16 + tmp25 tmp27 = tl.load(in_ptr0 + (tmp15 + 4 * tmp6 + 16 * x2), xmask, eviction_policy='evict_last') tmp28 = tl.load(in_ptr0 + (tmp18 + 4 * tmp6 + 16 * x2), xmask, eviction_policy='evict_last') tmp29 = tmp28 - tmp27 tmp30 = tmp29 * tmp24 tmp31 = tmp27 + tmp30 tmp32 = tmp26 - tmp31 tmp33 = tmp6.to(tl.float32) tmp34 = tmp5 - tmp33 tmp35 = triton_helpers.maximum(tmp34, tmp4) tmp36 = triton_helpers.minimum(tmp35, tmp2) tmp37 = tmp32 * tmp36 tmp38 = tmp31 + tmp37 tl.store(out_ptr1 + (x7 + 128 * x4), tmp38, xmask) @triton.jit def triton_poi_fused_cat_1(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 64 x1 = xindex // 64 tmp0 = tl.load(in_ptr0 + x2, xmask) tl.store(out_ptr0 + (x0 + 128 * x1), tmp0, xmask) def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf3 = empty_strided_cuda((4, 8, 4, 4), (128, 16, 4, 1), torch.float32) buf1 = reinterpret_tensor(buf3, (4, 4, 4, 4), (128, 16, 4, 1), 0) get_raw_stream(0) triton_poi_fused__to_copy__unsafe_index_add_arange_clamp_mul_sub_0[grid (256)](arg1_1, buf1, 256, XBLOCK=256, num_warps=4, num_stages=1) del arg1_1 buf2 = reinterpret_tensor(buf3, (4, 4, 4, 4), (128, 16, 4, 1), 64) triton_poi_fused_cat_1[grid(256)](arg0_1, buf2, 256, XBLOCK=256, num_warps=4, num_stages=1) del arg0_1 return buf3, class TransitionUpNew(nn.Module): def __init__(self, in_channels, out_channels): super().__init__() def forward(self, input_0, input_1): arg0_1 = input_0 arg1_1 = input_1 output = call([arg0_1, arg1_1]) return output[0]	FUTUREEEEEE/FCHarDNet	TransitionUp	false	9,077	[ "MIT" ]	fc4b854b5cfa01a449bcfaece6bb3c32d84d9e2b	https://github.com/FUTUREEEEEE/FCHarDNet/tree/fc4b854b5cfa01a449bcfaece6bb3c32d84d9e2b
SCRM	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/fh/cfhnguw4v6uy4ysjg54ojclakwi3bj2lte6oqizl4rpf4lcxpiyp.py # Topologically Sorted Source Nodes: [f_s_1], Original ATen: [aten.div] # Source node to ATen node mapping: # f_s_1 => div # Graph fragment: # %div : [num_users=8] = call_function[target=torch.ops.aten.div.Tensor](args = (%select, %expand), kwargs = {}) triton_poi_fused_div_0 = async_compile.triton('triton_poi_fused_div_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_div_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_div_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 16 x2 = (xindex // 64) tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x0 + (64x2)), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (16 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (32 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr0 + (48 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp2 = tmp1 * tmp1 tmp4 = tmp3 * tmp3 tmp5 = tmp2 + tmp4 tmp7 = tmp6 * tmp6 tmp8 = tmp5 + tmp7 tmp10 = tmp9 * tmp9 tmp11 = tmp8 + tmp10 tmp12 = libdevice.sqrt(tmp11) tmp13 = 1e-12 tmp14 = triton_helpers.maximum(tmp12, tmp13) tmp15 = tmp0 / tmp14 tl.store(out_ptr0 + (x3), tmp15, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/vb/cvbckpx36pmi43pm4nuhmb6mk2i2izcpcwp6w2mt4dtyxosapprc.py # Topologically Sorted Source Nodes: [f_s_3], Original ATen: [aten.div] # Source node to ATen node mapping: # f_s_3 => div_6 # Graph fragment: # %div_6 : [num_users=8] = call_function[target=torch.ops.aten.div.Tensor](args = (%select_1, %expand_4), kwargs = {}) triton_poi_fused_div_1 = async_compile.triton('triton_poi_fused_div_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_div_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_div_1(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 16 x2 = (xindex // 64) tmp0 = tl.load(in_ptr0 + (256 + x3), xmask) tmp1 = tl.load(in_ptr0 + (256 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (272 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (288 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr0 + (304 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp2 = tmp1 * tmp1 tmp4 = tmp3 * tmp3 tmp5 = tmp2 + tmp4 tmp7 = tmp6 * tmp6 tmp8 = tmp5 + tmp7 tmp10 = tmp9 * tmp9 tmp11 = tmp8 + tmp10 tmp12 = libdevice.sqrt(tmp11) tmp13 = 1e-12 tmp14 = triton_helpers.maximum(tmp12, tmp13) tmp15 = tmp0 / tmp14 tl.store(out_ptr0 + (x3), tmp15, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/gx/cgxjobnzpzl5xuw5yvex6rq6zcbzjr3ccnjs2perkcswcbvp6qmi.py # Topologically Sorted Source Nodes: [f_s_5], Original ATen: [aten.div] # Source node to ATen node mapping: # f_s_5 => div_12 # Graph fragment: # %div_12 : [num_users=8] = call_function[target=torch.ops.aten.div.Tensor](args = (%select_2, %expand_8), kwargs = {}) triton_poi_fused_div_2 = async_compile.triton('triton_poi_fused_div_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_div_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_div_2(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 16 x2 = (xindex // 64) tmp0 = tl.load(in_ptr0 + (512 + x3), xmask) tmp1 = tl.load(in_ptr0 + (512 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (528 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (544 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr0 + (560 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp2 = tmp1 * tmp1 tmp4 = tmp3 * tmp3 tmp5 = tmp2 + tmp4 tmp7 = tmp6 * tmp6 tmp8 = tmp5 + tmp7 tmp10 = tmp9 * tmp9 tmp11 = tmp8 + tmp10 tmp12 = libdevice.sqrt(tmp11) tmp13 = 1e-12 tmp14 = triton_helpers.maximum(tmp12, tmp13) tmp15 = tmp0 / tmp14 tl.store(out_ptr0 + (x3), tmp15, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/n2/cn2spcpuvudmkpvrlw2achoyo7v7k2vktctfincso3dyfom5oz4x.py # Topologically Sorted Source Nodes: [f_s_7], Original ATen: [aten.div] # Source node to ATen node mapping: # f_s_7 => div_18 # Graph fragment: # %div_18 : [num_users=8] = call_function[target=torch.ops.aten.div.Tensor](args = (%select_3, %expand_12), kwargs = {}) triton_poi_fused_div_3 = async_compile.triton('triton_poi_fused_div_3', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_div_3', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_div_3(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 16 x2 = (xindex // 64) tmp0 = tl.load(in_ptr0 + (768 + x3), xmask) tmp1 = tl.load(in_ptr0 + (768 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (784 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (800 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr0 + (816 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp2 = tmp1 * tmp1 tmp4 = tmp3 * tmp3 tmp5 = tmp2 + tmp4 tmp7 = tmp6 * tmp6 tmp8 = tmp5 + tmp7 tmp10 = tmp9 * tmp9 tmp11 = tmp8 + tmp10 tmp12 = libdevice.sqrt(tmp11) tmp13 = 1e-12 tmp14 = triton_helpers.maximum(tmp12, tmp13) tmp15 = tmp0 / tmp14 tl.store(out_ptr0 + (x3), tmp15, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/4m/c4m2wk5rzhradyfdzzmfqu2fhq5ceu6npmbjot6ovfl5pvukl5cw.py # Topologically Sorted Source Nodes: [energy_new], Original ATen: [aten.sub] # Source node to ATen node mapping: # energy_new => sub_3 # Graph fragment: # %sub_3 : [num_users=2] = call_function[target=torch.ops.aten.sub.Tensor](args = (%expand_2, %bmm_4), kwargs = {}) triton_poi_fused_sub_4 = async_compile.triton('triton_poi_fused_sub_4', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_sub_4', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_sub_4(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = (xindex // 4) x2 = xindex tmp0 = tl.load(in_ptr0 + (4x1), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + (4x1)), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (2 + (4x1)), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (3 + (4x1)), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr0 + (x2), xmask) tmp2 = triton_helpers.maximum(tmp0, tmp1) tmp4 = triton_helpers.maximum(tmp2, tmp3) tmp6 = triton_helpers.maximum(tmp4, tmp5) tmp8 = tmp6 - tmp7 tl.store(out_ptr0 + (x2), tmp8, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/j7/cj7mv2k5l2kigfluq2rwwpouckm4oow7jia7wwvjogp3qlr23xwv.py # Topologically Sorted Source Nodes: [attention_2], Original ATen: [aten._softmax] # Source node to ATen node mapping: # attention_2 => amax_2, exp_2, sub_4 # Graph fragment: # %amax_2 : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%sub_3, [-1], True), kwargs = {}) # %sub_4 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%sub_3, %amax_2), kwargs = {}) # %exp_2 : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub_4,), kwargs = {}) triton_poi_fused__softmax_5 = async_compile.triton('triton_poi_fused__softmax_5', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_5', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_5(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (4x1), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + (4x1)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + (4x1)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + (4x1)), xmask, eviction_policy='evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + (x2), tmp9, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/b4/cb4vdtviarmy2ckmxjdkc3dnwp4gssl3dh4u4col3s2illvdpvql.py # Topologically Sorted Source Nodes: [attention_2], Original ATen: [aten._softmax] # Source node to ATen node mapping: # attention_2 => div_4, sum_5 # Graph fragment: # %sum_5 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp_2, [-1], True), kwargs = {}) # %div_4 : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp_2, %sum_5), kwargs = {}) triton_poi_fused__softmax_6 = async_compile.triton('triton_poi_fused__softmax_6', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_6', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_6(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (4x1), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + (4x1)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + (4x1)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + (4x1)), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + (x2), tmp8, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/ps/cpsrn3vzizx4kiw2ao7vdniku66p6jnqllxcgsuag4wnndz4qytq.py # Topologically Sorted Source Nodes: [attention], Original ATen: [aten._softmax] # Source node to ATen node mapping: # attention => amax, div_2, exp, sub, sum_3 # Graph fragment: # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%bmm, [-1], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%bmm, %amax), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub,), kwargs = {}) # %sum_3 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp, [-1], True), kwargs = {}) # %div_2 : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp, %sum_3), kwargs = {}) triton_per_fused__softmax_7 = async_compile.triton('triton_per_fused__softmax_7', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[64, 16], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused__softmax_7', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 2, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused__softmax_7(in_ptr0, out_ptr2, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 64 rnumel = 16 RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) r1 = rindex x0 = xindex tmp0 = tl.load(in_ptr0 + (r1 + (16x0)), xmask, other=0.0) tmp1 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp3 = tl.where(xmask, tmp1, float("-inf")) tmp4 = triton_helpers.max2(tmp3, 1)[:, None] tmp5 = tmp0 - tmp4 tmp6 = tl_math.exp(tmp5) tmp7 = tl.broadcast_to(tmp6, [XBLOCK, RBLOCK]) tmp9 = tl.where(xmask, tmp7, 0) tmp10 = tl.sum(tmp9, 1)[:, None] tmp11 = tmp6 / tmp10 tl.store(out_ptr2 + (r1 + (16x0)), tmp11, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/2r/c2rthu53scnzgesjbiparrgvjr27o2yifa3oqcdcu5hbzqwmf3wx.py # Topologically Sorted Source Nodes: [mul_2, out_8, mul_3, out_11, ca_loss, mul, out_2, mul_1, out_5, sa_loss, add_4, add_20, mul_6, out_20, mul_7, out_23, ca_loss_1, mul_4, out_14, mul_5, out_17, sa_loss_1, add_9, add_21, mul_10, out_32, mul_11, out_35, ca_loss_2, mul_8, out_26, mul_9, out_29, sa_loss_2, add_14, add_22, mul_14, out_44, mul_15, out_47, ca_loss_3, mul_12, out_38, mul_13, out_41, sa_loss_3, add_19, add_23], Original ATen: [aten.mul, aten.add, aten.sub, aten.abs, aten.mean] # Source node to ATen node mapping: # add_14 => add_14 # add_19 => add_19 # add_20 => add_20 # add_21 => add_21 # add_22 => add_22 # add_23 => add_23 # add_4 => add_4 # add_9 => add_9 # ca_loss => abs_2, mean_1, sub_7 # ca_loss_1 => abs_4, mean_3, sub_15 # ca_loss_2 => abs_6, mean_5, sub_23 # ca_loss_3 => abs_8, mean_7, sub_31 # mul => mul # mul_1 => mul_1 # mul_10 => mul_10 # mul_11 => mul_11 # mul_12 => mul_12 # mul_13 => mul_13 # mul_14 => mul_14 # mul_15 => mul_15 # mul_2 => mul_2 # mul_3 => mul_3 # mul_4 => mul_4 # mul_5 => mul_5 # mul_6 => mul_6 # mul_7 => mul_7 # mul_8 => mul_8 # mul_9 => mul_9 # out_11 => add_3 # out_14 => add_5 # out_17 => add_6 # out_2 => add # out_20 => add_7 # out_23 => add_8 # out_26 => add_10 # out_29 => add_11 # out_32 => add_12 # out_35 => add_13 # out_38 => add_15 # out_41 => add_16 # out_44 => add_17 # out_47 => add_18 # out_5 => add_1 # out_8 => add_2 # sa_loss => abs_1, mean, sub_2 # sa_loss_1 => abs_3, mean_2, sub_10 # sa_loss_2 => abs_5, mean_4, sub_18 # sa_loss_3 => abs_7, mean_6, sub_26 # Graph fragment: # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_11, 0.1), kwargs = {}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_2, %div), kwargs = {}) # %mul_3 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_15, 0.1), kwargs = {}) # %add_3 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_3, %div_1), kwargs = {}) # %sub_7 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%add_2, %add_3), kwargs = {}) # %abs_2 : [num_users=1] = call_function[target=torch.ops.aten.abs.default](args = (%sub_7,), kwargs = {}) # %mean_1 : [num_users=1] = call_function[target=torch.ops.aten.mean.default](args = (%abs_2,), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_3, 0.1), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul, %div), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_7, 0.1), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_1, %div_1), kwargs = {}) # %sub_2 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%add, %add_1), kwargs = {}) # %abs_1 : [num_users=1] = call_function[target=torch.ops.aten.abs.default](args = (%sub_2,), kwargs = {}) # %mean : [num_users=1] = call_function[target=torch.ops.aten.mean.default](args = (%abs_1,), kwargs = {}) # %add_4 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mean_1, %mean), kwargs = {}) # %add_20 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%add_4, 0), kwargs = {}) # %mul_6 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_27, 0.1), kwargs = {}) # %add_7 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_6, %div_6), kwargs = {}) # %mul_7 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_31, 0.1), kwargs = {}) # %add_8 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_7, %div_7), kwargs = {}) # %sub_15 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%add_7, %add_8), kwargs = {}) # %abs_4 : [num_users=1] = call_function[target=torch.ops.aten.abs.default](args = (%sub_15,), kwargs = {}) # %mean_3 : [num_users=1] = call_function[target=torch.ops.aten.mean.default](args = (%abs_4,), kwargs = {}) # %mul_4 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_19, 0.1), kwargs = {}) # %add_5 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_4, %div_6), kwargs = {}) # %mul_5 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_23, 0.1), kwargs = {}) # %add_6 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_5, %div_7), kwargs = {}) # %sub_10 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%add_5, %add_6), kwargs = {}) # %abs_3 : [num_users=1] = call_function[target=torch.ops.aten.abs.default](args = (%sub_10,), kwargs = {}) # %mean_2 : [num_users=1] = call_function[target=torch.ops.aten.mean.default](args = (%abs_3,), kwargs = {}) # %add_9 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mean_3, %mean_2), kwargs = {}) # %add_21 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%add_20, %add_9), kwargs = {}) # %mul_10 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_43, 0.1), kwargs = {}) # %add_12 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_10, %div_12), kwargs = {}) # %mul_11 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_47, 0.1), kwargs = {}) # %add_13 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_11, %div_13), kwargs = {}) # %sub_23 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%add_12, %add_13), kwargs = {}) # %abs_6 : [num_users=1] = call_function[target=torch.ops.aten.abs.default](args = (%sub_23,), kwargs = {}) # %mean_5 : [num_users=1] = call_function[target=torch.ops.aten.mean.default](args = (%abs_6,), kwargs = {}) # %mul_8 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_35, 0.1), kwargs = {}) # %add_10 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_8, %div_12), kwargs = {}) # %mul_9 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_39, 0.1), kwargs = {}) # %add_11 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_9, %div_13), kwargs = {}) # %sub_18 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%add_10, %add_11), kwargs = {}) # %abs_5 : [num_users=1] = call_function[target=torch.ops.aten.abs.default](args = (%sub_18,), kwargs = {}) # %mean_4 : [num_users=1] = call_function[target=torch.ops.aten.mean.default](args = (%abs_5,), kwargs = {}) # %add_14 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mean_5, %mean_4), kwargs = {}) # %add_22 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%add_21, %add_14), kwargs = {}) # %mul_14 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_59, 0.1), kwargs = {}) # %add_17 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_14, %div_18), kwargs = {}) # %mul_15 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_63, 0.1), kwargs = {}) # %add_18 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_15, %div_19), kwargs = {}) # %sub_31 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%add_17, %add_18), kwargs = {}) # %abs_8 : [num_users=1] = call_function[target=torch.ops.aten.abs.default](args = (%sub_31,), kwargs = {}) # %mean_7 : [num_users=1] = call_function[target=torch.ops.aten.mean.default](args = (%abs_8,), kwargs = {}) # %mul_12 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_51, 0.1), kwargs = {}) # %add_15 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_12, %div_18), kwargs = {}) # %mul_13 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_55, 0.1), kwargs = {}) # %add_16 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_13, %div_19), kwargs = {}) # %sub_26 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%add_15, %add_16), kwargs = {}) # %abs_7 : [num_users=1] = call_function[target=torch.ops.aten.abs.default](args = (%sub_26,), kwargs = {}) # %mean_6 : [num_users=1] = call_function[target=torch.ops.aten.mean.default](args = (%abs_7,), kwargs = {}) # %add_19 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mean_7, %mean_6), kwargs = {}) # %add_23 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%add_22, %add_19), kwargs = {}) triton_per_fused_abs_add_mean_mul_sub_8 = async_compile.triton('triton_per_fused_abs_add_mean_mul_sub_8', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[1, 256], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'fp32', 6: 'fp32', 7: 'fp32', 8: 'fp32', 9: 'fp32', 10: 'fp32', 11: 'fp32', 12: 'fp32', 13: 'fp32', 14: 'fp32', 15: 'fp32', 16: 'fp32', 17: 'fp32', 18: 'fp32', 19: 'fp32', 20: 'fp32', 21: 'fp32', 22: 'fp32', 23: 'fp32', 24: 'fp32', 25: 'i32', 26: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {25: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 26), equal_to_1=(25,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_abs_add_mean_mul_sub_8', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': True, 'num_load': 24, 'num_reduction': 8, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_abs_add_mean_mul_sub_8(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, in_ptr5, in_ptr6, in_ptr7, in_ptr8, in_ptr9, in_ptr10, in_ptr11, in_ptr12, in_ptr13, in_ptr14, in_ptr15, in_ptr16, in_ptr17, in_ptr18, in_ptr19, in_ptr20, in_ptr21, in_ptr22, in_ptr23, xnumel, rnumel): xnumel = 1 XBLOCK: tl.constexpr = 1 rnumel = 256 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) XBLOCK xindex = tl.full([1], xoffset, tl.int32) xmask = tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] roffset = 0 rmask = tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + (r0), None) tmp3 = tl.load(in_ptr1 + (r0), None) tmp5 = tl.load(in_ptr2 + (r0), None) tmp7 = tl.load(in_ptr3 + (r0), None) tmp14 = tl.load(in_ptr4 + (r0), None) tmp17 = tl.load(in_ptr5 + (r0), None) tmp25 = tl.load(in_ptr6 + (r0), None) tmp27 = tl.load(in_ptr7 + (r0), None) tmp29 = tl.load(in_ptr8 + (r0), None) tmp31 = tl.load(in_ptr9 + (r0), None) tmp38 = tl.load(in_ptr10 + (r0), None) tmp41 = tl.load(in_ptr11 + (r0), None) tmp49 = tl.load(in_ptr12 + (r0), None) tmp51 = tl.load(in_ptr13 + (r0), None) tmp53 = tl.load(in_ptr14 + (r0), None) tmp55 = tl.load(in_ptr15 + (r0), None) tmp62 = tl.load(in_ptr16 + (r0), None) tmp65 = tl.load(in_ptr17 + (r0), None) tmp73 = tl.load(in_ptr18 + (r0), None) tmp75 = tl.load(in_ptr19 + (r0), None) tmp77 = tl.load(in_ptr20 + (r0), None) tmp79 = tl.load(in_ptr21 + (r0), None) tmp86 = tl.load(in_ptr22 + (r0), None) tmp89 = tl.load(in_ptr23 + (r0), None) tmp1 = 0.1 tmp2 = tmp0 * tmp1 tmp4 = tmp2 + tmp3 tmp6 = tmp5 * tmp1 tmp8 = tmp6 + tmp7 tmp9 = tmp4 - tmp8 tmp10 = tl_math.abs(tmp9) tmp11 = tl.broadcast_to(tmp10, [RBLOCK]) tmp13 = triton_helpers.promote_to_tensor(tl.sum(tmp11, 0)) tmp15 = tmp14 * tmp1 tmp16 = tmp15 + tmp3 tmp18 = tmp17 * tmp1 tmp19 = tmp18 + tmp7 tmp20 = tmp16 - tmp19 tmp21 = tl_math.abs(tmp20) tmp22 = tl.broadcast_to(tmp21, [RBLOCK]) tmp24 = triton_helpers.promote_to_tensor(tl.sum(tmp22, 0)) tmp26 = tmp25 * tmp1 tmp28 = tmp26 + tmp27 tmp30 = tmp29 * tmp1 tmp32 = tmp30 + tmp31 tmp33 = tmp28 - tmp32 tmp34 = tl_math.abs(tmp33) tmp35 = tl.broadcast_to(tmp34, [RBLOCK]) tmp37 = triton_helpers.promote_to_tensor(tl.sum(tmp35, 0)) tmp39 = tmp38 * tmp1 tmp40 = tmp39 + tmp27 tmp42 = tmp41 * tmp1 tmp43 = tmp42 + tmp31 tmp44 = tmp40 - tmp43 tmp45 = tl_math.abs(tmp44) tmp46 = tl.broadcast_to(tmp45, [RBLOCK]) tmp48 = triton_helpers.promote_to_tensor(tl.sum(tmp46, 0)) tmp50 = tmp49 * tmp1 tmp52 = tmp50 + tmp51 tmp54 = tmp53 * tmp1 tmp56 = tmp54 + tmp55 tmp57 = tmp52 - tmp56 tmp58 = tl_math.abs(tmp57) tmp59 = tl.broadcast_to(tmp58, [RBLOCK]) tmp61 = triton_helpers.promote_to_tensor(tl.sum(tmp59, 0)) tmp63 = tmp62 * tmp1 tmp64 = tmp63 + tmp51 tmp66 = tmp65 * tmp1 tmp67 = tmp66 + tmp55 tmp68 = tmp64 - tmp67 tmp69 = tl_math.abs(tmp68) tmp70 = tl.broadcast_to(tmp69, [RBLOCK]) tmp72 = triton_helpers.promote_to_tensor(tl.sum(tmp70, 0)) tmp74 = tmp73 * tmp1 tmp76 = tmp74 + tmp75 tmp78 = tmp77 * tmp1 tmp80 = tmp78 + tmp79 tmp81 = tmp76 - tmp80 tmp82 = tl_math.abs(tmp81) tmp83 = tl.broadcast_to(tmp82, [RBLOCK]) tmp85 = triton_helpers.promote_to_tensor(tl.sum(tmp83, 0)) tmp87 = tmp86 * tmp1 tmp88 = tmp87 + tmp75 tmp90 = tmp89 * tmp1 tmp91 = tmp90 + tmp79 tmp92 = tmp88 - tmp91 tmp93 = tl_math.abs(tmp92) tmp94 = tl.broadcast_to(tmp93, [RBLOCK]) tmp96 = triton_helpers.promote_to_tensor(tl.sum(tmp94, 0)) tmp97 = 256.0 tmp98 = tmp13 / tmp97 tmp99 = tmp24 / tmp97 tmp100 = tmp98 + tmp99 tmp101 = 0.0 tmp102 = tmp100 + tmp101 tmp103 = tmp37 / tmp97 tmp104 = tmp48 / tmp97 tmp105 = tmp103 + tmp104 tmp106 = tmp102 + tmp105 tmp107 = tmp61 / tmp97 tmp108 = tmp72 / tmp97 tmp109 = tmp107 + tmp108 tmp110 = tmp106 + tmp109 tmp111 = tmp85 / tmp97 tmp112 = tmp96 / tmp97 tmp113 = tmp111 + tmp112 tmp114 = tmp110 + tmp113 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([1], 0, tl.int32)), tmp114, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4, 4), (256, 64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4, 4), (256, 64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [f_s_1], Original ATen: [aten.div] stream0 = get_raw_stream(0) triton_poi_fused_div_0.run(arg0_1, buf0, 256, grid=grid(256), stream=stream0) buf1 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [energy_2], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf0, (4, 4, 16), (64, 16, 1), 0), reinterpret_tensor(buf0, (4, 16, 4), (64, 1, 16), 0), out=buf1) buf2 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [f_t_1], Original ATen: [aten.div] triton_poi_fused_div_0.run(arg1_1, buf2, 256, grid=grid(256), stream=stream0) buf3 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [energy_3], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf2, (4, 4, 16), (64, 16, 1), 0), reinterpret_tensor(buf2, (4, 16, 4), (64, 1, 16), 0), out=buf3) buf4 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [f_s_3], Original ATen: [aten.div] triton_poi_fused_div_1.run(arg0_1, buf4, 256, grid=grid(256), stream=stream0) buf5 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [energy_6], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf4, (4, 4, 16), (64, 16, 1), 0), reinterpret_tensor(buf4, (4, 16, 4), (64, 1, 16), 0), out=buf5) buf6 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [f_t_3], Original ATen: [aten.div] triton_poi_fused_div_1.run(arg1_1, buf6, 256, grid=grid(256), stream=stream0) buf7 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [energy_7], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf6, (4, 4, 16), (64, 16, 1), 0), reinterpret_tensor(buf6, (4, 16, 4), (64, 1, 16), 0), out=buf7) buf8 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [f_s_5], Original ATen: [aten.div] triton_poi_fused_div_2.run(arg0_1, buf8, 256, grid=grid(256), stream=stream0) buf9 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [energy_10], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf8, (4, 4, 16), (64, 16, 1), 0), reinterpret_tensor(buf8, (4, 16, 4), (64, 1, 16), 0), out=buf9) buf10 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [f_t_5], Original ATen: [aten.div] triton_poi_fused_div_2.run(arg1_1, buf10, 256, grid=grid(256), stream=stream0) buf11 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [energy_11], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf10, (4, 4, 16), (64, 16, 1), 0), reinterpret_tensor(buf10, (4, 16, 4), (64, 1, 16), 0), out=buf11) buf12 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [f_s_7], Original ATen: [aten.div] triton_poi_fused_div_3.run(arg0_1, buf12, 256, grid=grid(256), stream=stream0) del arg0_1 buf13 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [energy_14], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf12, (4, 4, 16), (64, 16, 1), 0), reinterpret_tensor(buf12, (4, 16, 4), (64, 1, 16), 0), out=buf13) buf14 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [f_t_7], Original ATen: [aten.div] triton_poi_fused_div_3.run(arg1_1, buf14, 256, grid=grid(256), stream=stream0) del arg1_1 buf15 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [energy_15], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf14, (4, 4, 16), (64, 16, 1), 0), reinterpret_tensor(buf14, (4, 16, 4), (64, 1, 16), 0), out=buf15) buf16 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [energy_new], Original ATen: [aten.sub] triton_poi_fused_sub_4.run(buf1, buf16, 64, grid=grid(64), stream=stream0) buf17 = buf1; del buf1 # reuse # Topologically Sorted Source Nodes: [attention_2], Original ATen: [aten._softmax] triton_poi_fused__softmax_5.run(buf16, buf17, 64, grid=grid(64), stream=stream0) buf18 = buf16; del buf16 # reuse # Topologically Sorted Source Nodes: [attention_2], Original ATen: [aten._softmax] triton_poi_fused__softmax_6.run(buf17, buf18, 64, grid=grid(64), stream=stream0) del buf17 buf19 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) # Topologically Sorted Source Nodes: [attention_2, out_6], Original ATen: [aten._softmax, aten.bmm] extern_kernels.bmm(buf18, reinterpret_tensor(buf0, (4, 4, 16), (64, 16, 1), 0), out=buf19) buf20 = buf18; del buf18 # reuse # Topologically Sorted Source Nodes: [energy_new_1], Original ATen: [aten.sub] triton_poi_fused_sub_4.run(buf3, buf20, 64, grid=grid(64), stream=stream0) buf21 = buf3; del buf3 # reuse # Topologically Sorted Source Nodes: [attention_3], Original ATen: [aten._softmax] triton_poi_fused__softmax_5.run(buf20, buf21, 64, grid=grid(64), stream=stream0) buf22 = buf20; del buf20 # reuse # Topologically Sorted Source Nodes: [attention_3], Original ATen: [aten._softmax] triton_poi_fused__softmax_6.run(buf21, buf22, 64, grid=grid(64), stream=stream0) del buf21 buf23 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) # Topologically Sorted Source Nodes: [attention_3, out_9], Original ATen: [aten._softmax, aten.bmm] extern_kernels.bmm(buf22, reinterpret_tensor(buf2, (4, 4, 16), (64, 16, 1), 0), out=buf23) buf25 = empty_strided_cuda((4, 16, 16), (256, 16, 1), torch.float32) # Topologically Sorted Source Nodes: [energy], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf0, (4, 16, 4), (64, 1, 16), 0), reinterpret_tensor(buf0, (4, 4, 16), (64, 16, 1), 0), out=buf25) buf28 = empty_strided_cuda((4, 16, 16), (256, 16, 1), torch.float32) # Topologically Sorted Source Nodes: [attention], Original ATen: [aten._softmax] triton_per_fused__softmax_7.run(buf25, buf28, 64, 16, grid=grid(64), stream=stream0) buf29 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) # Topologically Sorted Source Nodes: [out], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf0, (4, 4, 16), (64, 16, 1), 0), reinterpret_tensor(buf28, (4, 16, 16), (256, 1, 16), 0), out=buf29) buf30 = buf28; del buf28 # reuse # Topologically Sorted Source Nodes: [energy_1], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf2, (4, 16, 4), (64, 1, 16), 0), reinterpret_tensor(buf2, (4, 4, 16), (64, 16, 1), 0), out=buf30) buf33 = buf25; del buf25 # reuse # Topologically Sorted Source Nodes: [attention_1], Original ATen: [aten._softmax] triton_per_fused__softmax_7.run(buf30, buf33, 64, 16, grid=grid(64), stream=stream0) buf34 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) # Topologically Sorted Source Nodes: [out_3], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf2, (4, 4, 16), (64, 16, 1), 0), reinterpret_tensor(buf33, (4, 16, 16), (256, 1, 16), 0), out=buf34) buf36 = buf22; del buf22 # reuse # Topologically Sorted Source Nodes: [energy_new_2], Original ATen: [aten.sub] triton_poi_fused_sub_4.run(buf5, buf36, 64, grid=grid(64), stream=stream0) buf37 = buf5; del buf5 # reuse # Topologically Sorted Source Nodes: [attention_6], Original ATen: [aten._softmax] triton_poi_fused__softmax_5.run(buf36, buf37, 64, grid=grid(64), stream=stream0) buf38 = buf36; del buf36 # reuse # Topologically Sorted Source Nodes: [attention_6], Original ATen: [aten._softmax] triton_poi_fused__softmax_6.run(buf37, buf38, 64, grid=grid(64), stream=stream0) del buf37 buf39 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) # Topologically Sorted Source Nodes: [attention_6, out_18], Original ATen: [aten._softmax, aten.bmm] extern_kernels.bmm(buf38, reinterpret_tensor(buf4, (4, 4, 16), (64, 16, 1), 0), out=buf39) buf40 = buf38; del buf38 # reuse # Topologically Sorted Source Nodes: [energy_new_3], Original ATen: [aten.sub] triton_poi_fused_sub_4.run(buf7, buf40, 64, grid=grid(64), stream=stream0) buf41 = buf7; del buf7 # reuse # Topologically Sorted Source Nodes: [attention_7], Original ATen: [aten._softmax] triton_poi_fused__softmax_5.run(buf40, buf41, 64, grid=grid(64), stream=stream0) buf42 = buf40; del buf40 # reuse # Topologically Sorted Source Nodes: [attention_7], Original ATen: [aten._softmax] triton_poi_fused__softmax_6.run(buf41, buf42, 64, grid=grid(64), stream=stream0) del buf41 buf43 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) # Topologically Sorted Source Nodes: [attention_7, out_21], Original ATen: [aten._softmax, aten.bmm] extern_kernels.bmm(buf42, reinterpret_tensor(buf6, (4, 4, 16), (64, 16, 1), 0), out=buf43) buf45 = buf33; del buf33 # reuse # Topologically Sorted Source Nodes: [energy_4], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf4, (4, 16, 4), (64, 1, 16), 0), reinterpret_tensor(buf4, (4, 4, 16), (64, 16, 1), 0), out=buf45) buf48 = buf30; del buf30 # reuse # Topologically Sorted Source Nodes: [attention_4], Original ATen: [aten._softmax] triton_per_fused__softmax_7.run(buf45, buf48, 64, 16, grid=grid(64), stream=stream0) buf49 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) # Topologically Sorted Source Nodes: [out_12], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf4, (4, 4, 16), (64, 16, 1), 0), reinterpret_tensor(buf48, (4, 16, 16), (256, 1, 16), 0), out=buf49) buf50 = buf48; del buf48 # reuse # Topologically Sorted Source Nodes: [energy_5], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf6, (4, 16, 4), (64, 1, 16), 0), reinterpret_tensor(buf6, (4, 4, 16), (64, 16, 1), 0), out=buf50) buf53 = buf45; del buf45 # reuse # Topologically Sorted Source Nodes: [attention_5], Original ATen: [aten._softmax] triton_per_fused__softmax_7.run(buf50, buf53, 64, 16, grid=grid(64), stream=stream0) buf54 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) # Topologically Sorted Source Nodes: [out_15], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf6, (4, 4, 16), (64, 16, 1), 0), reinterpret_tensor(buf53, (4, 16, 16), (256, 1, 16), 0), out=buf54) buf56 = buf42; del buf42 # reuse # Topologically Sorted Source Nodes: [energy_new_4], Original ATen: [aten.sub] triton_poi_fused_sub_4.run(buf9, buf56, 64, grid=grid(64), stream=stream0) buf57 = buf9; del buf9 # reuse # Topologically Sorted Source Nodes: [attention_10], Original ATen: [aten._softmax] triton_poi_fused__softmax_5.run(buf56, buf57, 64, grid=grid(64), stream=stream0) buf58 = buf56; del buf56 # reuse # Topologically Sorted Source Nodes: [attention_10], Original ATen: [aten._softmax] triton_poi_fused__softmax_6.run(buf57, buf58, 64, grid=grid(64), stream=stream0) del buf57 buf59 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) # Topologically Sorted Source Nodes: [attention_10, out_30], Original ATen: [aten._softmax, aten.bmm] extern_kernels.bmm(buf58, reinterpret_tensor(buf8, (4, 4, 16), (64, 16, 1), 0), out=buf59) buf60 = buf58; del buf58 # reuse # Topologically Sorted Source Nodes: [energy_new_5], Original ATen: [aten.sub] triton_poi_fused_sub_4.run(buf11, buf60, 64, grid=grid(64), stream=stream0) buf61 = buf11; del buf11 # reuse # Topologically Sorted Source Nodes: [attention_11], Original ATen: [aten._softmax] triton_poi_fused__softmax_5.run(buf60, buf61, 64, grid=grid(64), stream=stream0) buf62 = buf60; del buf60 # reuse # Topologically Sorted Source Nodes: [attention_11], Original ATen: [aten._softmax] triton_poi_fused__softmax_6.run(buf61, buf62, 64, grid=grid(64), stream=stream0) del buf61 buf63 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) # Topologically Sorted Source Nodes: [attention_11, out_33], Original ATen: [aten._softmax, aten.bmm] extern_kernels.bmm(buf62, reinterpret_tensor(buf10, (4, 4, 16), (64, 16, 1), 0), out=buf63) buf65 = buf53; del buf53 # reuse # Topologically Sorted Source Nodes: [energy_8], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf8, (4, 16, 4), (64, 1, 16), 0), reinterpret_tensor(buf8, (4, 4, 16), (64, 16, 1), 0), out=buf65) buf68 = buf50; del buf50 # reuse # Topologically Sorted Source Nodes: [attention_8], Original ATen: [aten._softmax] triton_per_fused__softmax_7.run(buf65, buf68, 64, 16, grid=grid(64), stream=stream0) buf69 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) # Topologically Sorted Source Nodes: [out_24], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf8, (4, 4, 16), (64, 16, 1), 0), reinterpret_tensor(buf68, (4, 16, 16), (256, 1, 16), 0), out=buf69) buf70 = buf68; del buf68 # reuse # Topologically Sorted Source Nodes: [energy_9], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf10, (4, 16, 4), (64, 1, 16), 0), reinterpret_tensor(buf10, (4, 4, 16), (64, 16, 1), 0), out=buf70) buf73 = buf65; del buf65 # reuse # Topologically Sorted Source Nodes: [attention_9], Original ATen: [aten._softmax] triton_per_fused__softmax_7.run(buf70, buf73, 64, 16, grid=grid(64), stream=stream0) buf74 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) # Topologically Sorted Source Nodes: [out_27], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf10, (4, 4, 16), (64, 16, 1), 0), reinterpret_tensor(buf73, (4, 16, 16), (256, 1, 16), 0), out=buf74) buf76 = buf62; del buf62 # reuse # Topologically Sorted Source Nodes: [energy_new_6], Original ATen: [aten.sub] triton_poi_fused_sub_4.run(buf13, buf76, 64, grid=grid(64), stream=stream0) buf77 = buf13; del buf13 # reuse # Topologically Sorted Source Nodes: [attention_14], Original ATen: [aten._softmax] triton_poi_fused__softmax_5.run(buf76, buf77, 64, grid=grid(64), stream=stream0) buf78 = buf76; del buf76 # reuse # Topologically Sorted Source Nodes: [attention_14], Original ATen: [aten._softmax] triton_poi_fused__softmax_6.run(buf77, buf78, 64, grid=grid(64), stream=stream0) del buf77 buf79 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) # Topologically Sorted Source Nodes: [attention_14, out_42], Original ATen: [aten._softmax, aten.bmm] extern_kernels.bmm(buf78, reinterpret_tensor(buf12, (4, 4, 16), (64, 16, 1), 0), out=buf79) buf80 = buf78; del buf78 # reuse # Topologically Sorted Source Nodes: [energy_new_7], Original ATen: [aten.sub] triton_poi_fused_sub_4.run(buf15, buf80, 64, grid=grid(64), stream=stream0) buf81 = buf15; del buf15 # reuse # Topologically Sorted Source Nodes: [attention_15], Original ATen: [aten._softmax] triton_poi_fused__softmax_5.run(buf80, buf81, 64, grid=grid(64), stream=stream0) buf82 = buf80; del buf80 # reuse # Topologically Sorted Source Nodes: [attention_15], Original ATen: [aten._softmax] triton_poi_fused__softmax_6.run(buf81, buf82, 64, grid=grid(64), stream=stream0) del buf81 buf83 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) # Topologically Sorted Source Nodes: [attention_15, out_45], Original ATen: [aten._softmax, aten.bmm] extern_kernels.bmm(buf82, reinterpret_tensor(buf14, (4, 4, 16), (64, 16, 1), 0), out=buf83) del buf82 buf85 = buf73; del buf73 # reuse # Topologically Sorted Source Nodes: [energy_12], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf12, (4, 16, 4), (64, 1, 16), 0), reinterpret_tensor(buf12, (4, 4, 16), (64, 16, 1), 0), out=buf85) buf88 = buf70; del buf70 # reuse # Topologically Sorted Source Nodes: [attention_12], Original ATen: [aten._softmax] triton_per_fused__softmax_7.run(buf85, buf88, 64, 16, grid=grid(64), stream=stream0) buf89 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) # Topologically Sorted Source Nodes: [out_36], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf12, (4, 4, 16), (64, 16, 1), 0), reinterpret_tensor(buf88, (4, 16, 16), (256, 1, 16), 0), out=buf89) buf90 = buf88; del buf88 # reuse # Topologically Sorted Source Nodes: [energy_13], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf14, (4, 16, 4), (64, 1, 16), 0), reinterpret_tensor(buf14, (4, 4, 16), (64, 16, 1), 0), out=buf90) buf93 = buf85; del buf85 # reuse # Topologically Sorted Source Nodes: [attention_13], Original ATen: [aten._softmax] triton_per_fused__softmax_7.run(buf90, buf93, 64, 16, grid=grid(64), stream=stream0) del buf90 buf94 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) # Topologically Sorted Source Nodes: [out_39], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf14, (4, 4, 16), (64, 16, 1), 0), reinterpret_tensor(buf93, (4, 16, 16), (256, 1, 16), 0), out=buf94) del buf93 buf24 = empty_strided_cuda((), (), torch.float32) buf96 = buf24; del buf24 # reuse # Topologically Sorted Source Nodes: [mul_2, out_8, mul_3, out_11, ca_loss, mul, out_2, mul_1, out_5, sa_loss, add_4, add_20, mul_6, out_20, mul_7, out_23, ca_loss_1, mul_4, out_14, mul_5, out_17, sa_loss_1, add_9, add_21, mul_10, out_32, mul_11, out_35, ca_loss_2, mul_8, out_26, mul_9, out_29, sa_loss_2, add_14, add_22, mul_14, out_44, mul_15, out_47, ca_loss_3, mul_12, out_38, mul_13, out_41, sa_loss_3, add_19, add_23], Original ATen: [aten.mul, aten.add, aten.sub, aten.abs, aten.mean] triton_per_fused_abs_add_mean_mul_sub_8.run(buf96, buf19, buf0, buf23, buf2, buf29, buf34, buf39, buf4, buf43, buf6, buf49, buf54, buf59, buf8, buf63, buf10, buf69, buf74, buf79, buf12, buf83, buf14, buf89, buf94, 1, 256, grid=grid(1), stream=stream0) del buf0 del buf10 del buf12 del buf14 del buf19 del buf2 del buf23 del buf29 del buf34 del buf39 del buf4 del buf43 del buf49 del buf54 del buf59 del buf6 del buf63 del buf69 del buf74 del buf79 del buf8 del buf83 del buf89 del buf94 return (buf96, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4, 4), (256, 64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 4, 4, 4, 4), (256, 64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn.functional as F import torch.nn as nn class SCRM(nn.Module): """ spatial & channel wise relation loss """ def __init__(self, gamma=0.1): super(SCRM, self).__init__() self.softmax = nn.Softmax(dim=-1) self.gamma = gamma def spatial_wise(self, x): m_batchsize, C, height, width = x.size() proj_query = x.view(m_batchsize, -1, width * height).permute(0, 2, 1) proj_key = x.view(m_batchsize, -1, width * height) energy = torch.bmm(proj_query, proj_key) attention = self.softmax(energy) proj_value = x.view(m_batchsize, -1, width * height) out = torch.bmm(proj_value, attention.permute(0, 2, 1)) out = out.view(m_batchsize, C, height, width) out = self.gamma * out + x return out def channel_wise(self, x): m_batchsize, C, height, width = x.size() proj_query = x.view(m_batchsize, C, -1) proj_key = x.view(m_batchsize, C, -1).permute(0, 2, 1) energy = torch.bmm(proj_query, proj_key) energy_new = torch.max(energy, -1, keepdim=True)[0].expand_as(energy ) - energy attention = self.softmax(energy_new) proj_value = x.view(m_batchsize, C, -1) out = torch.bmm(attention, proj_value) out = out.view(m_batchsize, C, height, width) out = self.gamma * out + x return out def cal_loss(self, f_s, f_t): f_s = F.normalize(f_s, dim=1) f_t = F.normalize(f_t, dim=1) sa_loss = F.l1_loss(self.spatial_wise(f_s), self.spatial_wise(f_t)) ca_loss = F.l1_loss(self.channel_wise(f_s), self.channel_wise(f_t)) return ca_loss + sa_loss def forward(self, g_s, g_t): return sum(self.cal_loss(f_s, f_t) for f_s, f_t in zip(g_s, g_t)) def get_inputs(): return [torch.rand([4, 4, 4, 4, 4]), torch.rand([4, 4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math import torch.nn.functional as F import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_div_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 16 x2 = xindex // 64 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + (x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp3 = tl.load(in_ptr0 + (16 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp6 = tl.load(in_ptr0 + (32 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp9 = tl.load(in_ptr0 + (48 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp2 = tmp1 * tmp1 tmp4 = tmp3 * tmp3 tmp5 = tmp2 + tmp4 tmp7 = tmp6 * tmp6 tmp8 = tmp5 + tmp7 tmp10 = tmp9 * tmp9 tmp11 = tmp8 + tmp10 tmp12 = libdevice.sqrt(tmp11) tmp13 = 1e-12 tmp14 = triton_helpers.maximum(tmp12, tmp13) tmp15 = tmp0 / tmp14 tl.store(out_ptr0 + x3, tmp15, xmask) @triton.jit def triton_poi_fused_div_1(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 16 x2 = xindex // 64 tmp0 = tl.load(in_ptr0 + (256 + x3), xmask) tmp1 = tl.load(in_ptr0 + (256 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp3 = tl.load(in_ptr0 + (272 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp6 = tl.load(in_ptr0 + (288 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp9 = tl.load(in_ptr0 + (304 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp2 = tmp1 * tmp1 tmp4 = tmp3 * tmp3 tmp5 = tmp2 + tmp4 tmp7 = tmp6 * tmp6 tmp8 = tmp5 + tmp7 tmp10 = tmp9 * tmp9 tmp11 = tmp8 + tmp10 tmp12 = libdevice.sqrt(tmp11) tmp13 = 1e-12 tmp14 = triton_helpers.maximum(tmp12, tmp13) tmp15 = tmp0 / tmp14 tl.store(out_ptr0 + x3, tmp15, xmask) @triton.jit def triton_poi_fused_div_2(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 16 x2 = xindex // 64 tmp0 = tl.load(in_ptr0 + (512 + x3), xmask) tmp1 = tl.load(in_ptr0 + (512 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp3 = tl.load(in_ptr0 + (528 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp6 = tl.load(in_ptr0 + (544 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp9 = tl.load(in_ptr0 + (560 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp2 = tmp1 * tmp1 tmp4 = tmp3 * tmp3 tmp5 = tmp2 + tmp4 tmp7 = tmp6 * tmp6 tmp8 = tmp5 + tmp7 tmp10 = tmp9 * tmp9 tmp11 = tmp8 + tmp10 tmp12 = libdevice.sqrt(tmp11) tmp13 = 1e-12 tmp14 = triton_helpers.maximum(tmp12, tmp13) tmp15 = tmp0 / tmp14 tl.store(out_ptr0 + x3, tmp15, xmask) @triton.jit def triton_poi_fused_div_3(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 16 x2 = xindex // 64 tmp0 = tl.load(in_ptr0 + (768 + x3), xmask) tmp1 = tl.load(in_ptr0 + (768 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp3 = tl.load(in_ptr0 + (784 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp6 = tl.load(in_ptr0 + (800 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp9 = tl.load(in_ptr0 + (816 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp2 = tmp1 * tmp1 tmp4 = tmp3 * tmp3 tmp5 = tmp2 + tmp4 tmp7 = tmp6 * tmp6 tmp8 = tmp5 + tmp7 tmp10 = tmp9 * tmp9 tmp11 = tmp8 + tmp10 tmp12 = libdevice.sqrt(tmp11) tmp13 = 1e-12 tmp14 = triton_helpers.maximum(tmp12, tmp13) tmp15 = tmp0 / tmp14 tl.store(out_ptr0 + x3, tmp15, xmask) @triton.jit def triton_poi_fused_sub_4(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = xindex // 4 x2 = xindex tmp0 = tl.load(in_ptr0 + 4 * x1, xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + 4 * x1), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (2 + 4 * x1), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (3 + 4 * x1), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr0 + x2, xmask) tmp2 = triton_helpers.maximum(tmp0, tmp1) tmp4 = triton_helpers.maximum(tmp2, tmp3) tmp6 = triton_helpers.maximum(tmp4, tmp5) tmp8 = tmp6 - tmp7 tl.store(out_ptr0 + x2, tmp8, xmask) @triton.jit def triton_poi_fused__softmax_5(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + 4 * x1, xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + 4 * x1), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + 4 * x1), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + 4 * x1), xmask, eviction_policy='evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + x2, tmp9, xmask) @triton.jit def triton_poi_fused__softmax_6(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + 4 * x1, xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + 4 * x1), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + 4 * x1), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + 4 * x1), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + x2, tmp8, xmask) @triton.jit def triton_per_fused__softmax_7(in_ptr0, out_ptr2, xnumel, rnumel, XBLOCK: tl.constexpr): xnumel = 64 RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] tl.full([XBLOCK, RBLOCK], True, tl.int1) r1 = rindex x0 = xindex tmp0 = tl.load(in_ptr0 + (r1 + 16 * x0), xmask, other=0.0) tmp1 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp3 = tl.where(xmask, tmp1, float('-inf')) tmp4 = triton_helpers.max2(tmp3, 1)[:, None] tmp5 = tmp0 - tmp4 tmp6 = tl_math.exp(tmp5) tmp7 = tl.broadcast_to(tmp6, [XBLOCK, RBLOCK]) tmp9 = tl.where(xmask, tmp7, 0) tmp10 = tl.sum(tmp9, 1)[:, None] tmp11 = tmp6 / tmp10 tl.store(out_ptr2 + (r1 + 16 * x0), tmp11, xmask) @triton.jit def triton_per_fused_abs_add_mean_mul_sub_8(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, in_ptr5, in_ptr6, in_ptr7, in_ptr8, in_ptr9, in_ptr10, in_ptr11, in_ptr12, in_ptr13, in_ptr14, in_ptr15, in_ptr16, in_ptr17, in_ptr18, in_ptr19, in_ptr20, in_ptr21, in_ptr22, in_ptr23, xnumel, rnumel): XBLOCK: tl.constexpr = 1 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) * XBLOCK tl.full([1], xoffset, tl.int32) tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + r0, None) tmp3 = tl.load(in_ptr1 + r0, None) tmp5 = tl.load(in_ptr2 + r0, None) tmp7 = tl.load(in_ptr3 + r0, None) tmp14 = tl.load(in_ptr4 + r0, None) tmp17 = tl.load(in_ptr5 + r0, None) tmp25 = tl.load(in_ptr6 + r0, None) tmp27 = tl.load(in_ptr7 + r0, None) tmp29 = tl.load(in_ptr8 + r0, None) tmp31 = tl.load(in_ptr9 + r0, None) tmp38 = tl.load(in_ptr10 + r0, None) tmp41 = tl.load(in_ptr11 + r0, None) tmp49 = tl.load(in_ptr12 + r0, None) tmp51 = tl.load(in_ptr13 + r0, None) tmp53 = tl.load(in_ptr14 + r0, None) tmp55 = tl.load(in_ptr15 + r0, None) tmp62 = tl.load(in_ptr16 + r0, None) tmp65 = tl.load(in_ptr17 + r0, None) tmp73 = tl.load(in_ptr18 + r0, None) tmp75 = tl.load(in_ptr19 + r0, None) tmp77 = tl.load(in_ptr20 + r0, None) tmp79 = tl.load(in_ptr21 + r0, None) tmp86 = tl.load(in_ptr22 + r0, None) tmp89 = tl.load(in_ptr23 + r0, None) tmp1 = 0.1 tmp2 = tmp0 * tmp1 tmp4 = tmp2 + tmp3 tmp6 = tmp5 * tmp1 tmp8 = tmp6 + tmp7 tmp9 = tmp4 - tmp8 tmp10 = tl_math.abs(tmp9) tmp11 = tl.broadcast_to(tmp10, [RBLOCK]) tmp13 = triton_helpers.promote_to_tensor(tl.sum(tmp11, 0)) tmp15 = tmp14 * tmp1 tmp16 = tmp15 + tmp3 tmp18 = tmp17 * tmp1 tmp19 = tmp18 + tmp7 tmp20 = tmp16 - tmp19 tmp21 = tl_math.abs(tmp20) tmp22 = tl.broadcast_to(tmp21, [RBLOCK]) tmp24 = triton_helpers.promote_to_tensor(tl.sum(tmp22, 0)) tmp26 = tmp25 * tmp1 tmp28 = tmp26 + tmp27 tmp30 = tmp29 * tmp1 tmp32 = tmp30 + tmp31 tmp33 = tmp28 - tmp32 tmp34 = tl_math.abs(tmp33) tmp35 = tl.broadcast_to(tmp34, [RBLOCK]) tmp37 = triton_helpers.promote_to_tensor(tl.sum(tmp35, 0)) tmp39 = tmp38 * tmp1 tmp40 = tmp39 + tmp27 tmp42 = tmp41 * tmp1 tmp43 = tmp42 + tmp31 tmp44 = tmp40 - tmp43 tmp45 = tl_math.abs(tmp44) tmp46 = tl.broadcast_to(tmp45, [RBLOCK]) tmp48 = triton_helpers.promote_to_tensor(tl.sum(tmp46, 0)) tmp50 = tmp49 * tmp1 tmp52 = tmp50 + tmp51 tmp54 = tmp53 * tmp1 tmp56 = tmp54 + tmp55 tmp57 = tmp52 - tmp56 tmp58 = tl_math.abs(tmp57) tmp59 = tl.broadcast_to(tmp58, [RBLOCK]) tmp61 = triton_helpers.promote_to_tensor(tl.sum(tmp59, 0)) tmp63 = tmp62 * tmp1 tmp64 = tmp63 + tmp51 tmp66 = tmp65 * tmp1 tmp67 = tmp66 + tmp55 tmp68 = tmp64 - tmp67 tmp69 = tl_math.abs(tmp68) tmp70 = tl.broadcast_to(tmp69, [RBLOCK]) tmp72 = triton_helpers.promote_to_tensor(tl.sum(tmp70, 0)) tmp74 = tmp73 * tmp1 tmp76 = tmp74 + tmp75 tmp78 = tmp77 * tmp1 tmp80 = tmp78 + tmp79 tmp81 = tmp76 - tmp80 tmp82 = tl_math.abs(tmp81) tmp83 = tl.broadcast_to(tmp82, [RBLOCK]) tmp85 = triton_helpers.promote_to_tensor(tl.sum(tmp83, 0)) tmp87 = tmp86 * tmp1 tmp88 = tmp87 + tmp75 tmp90 = tmp89 * tmp1 tmp91 = tmp90 + tmp79 tmp92 = tmp88 - tmp91 tmp93 = tl_math.abs(tmp92) tmp94 = tl.broadcast_to(tmp93, [RBLOCK]) tmp96 = triton_helpers.promote_to_tensor(tl.sum(tmp94, 0)) tmp97 = 256.0 tmp98 = tmp13 / tmp97 tmp99 = tmp24 / tmp97 tmp100 = tmp98 + tmp99 tmp101 = 0.0 tmp102 = tmp100 + tmp101 tmp103 = tmp37 / tmp97 tmp104 = tmp48 / tmp97 tmp105 = tmp103 + tmp104 tmp106 = tmp102 + tmp105 tmp107 = tmp61 / tmp97 tmp108 = tmp72 / tmp97 tmp109 = tmp107 + tmp108 tmp110 = tmp106 + tmp109 tmp111 = tmp85 / tmp97 tmp112 = tmp96 / tmp97 tmp113 = tmp111 + tmp112 tmp114 = tmp110 + tmp113 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([1], 0, tl.int32), tmp114, None) def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4, 4), (256, 64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4, 4), (256, 64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_div_0[grid(256)](arg0_1, buf0, 256, XBLOCK=128, num_warps=4, num_stages=1) buf1 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf0, (4, 4, 16), (64, 16, 1), 0), reinterpret_tensor(buf0, (4, 16, 4), (64, 1, 16), 0), out=buf1) buf2 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) triton_poi_fused_div_0[grid(256)](arg1_1, buf2, 256, XBLOCK=128, num_warps=4, num_stages=1) buf3 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf2, (4, 4, 16), (64, 16, 1), 0), reinterpret_tensor(buf2, (4, 16, 4), (64, 1, 16), 0), out=buf3) buf4 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) triton_poi_fused_div_1[grid(256)](arg0_1, buf4, 256, XBLOCK=256, num_warps=4, num_stages=1) buf5 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf4, (4, 4, 16), (64, 16, 1), 0), reinterpret_tensor(buf4, (4, 16, 4), (64, 1, 16), 0), out=buf5) buf6 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) triton_poi_fused_div_1[grid(256)](arg1_1, buf6, 256, XBLOCK=256, num_warps=4, num_stages=1) buf7 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf6, (4, 4, 16), (64, 16, 1), 0), reinterpret_tensor(buf6, (4, 16, 4), (64, 1, 16), 0), out=buf7) buf8 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) triton_poi_fused_div_2[grid(256)](arg0_1, buf8, 256, XBLOCK=128, num_warps=4, num_stages=1) buf9 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf8, (4, 4, 16), (64, 16, 1), 0), reinterpret_tensor(buf8, (4, 16, 4), (64, 1, 16), 0), out=buf9) buf10 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) triton_poi_fused_div_2[grid(256)](arg1_1, buf10, 256, XBLOCK=128, num_warps=4, num_stages=1) buf11 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf10, (4, 4, 16), (64, 16, 1 ), 0), reinterpret_tensor(buf10, (4, 16, 4), (64, 1, 16), 0), out=buf11) buf12 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) triton_poi_fused_div_3[grid(256)](arg0_1, buf12, 256, XBLOCK=128, num_warps=4, num_stages=1) del arg0_1 buf13 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf12, (4, 4, 16), (64, 16, 1 ), 0), reinterpret_tensor(buf12, (4, 16, 4), (64, 1, 16), 0), out=buf13) buf14 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) triton_poi_fused_div_3[grid(256)](arg1_1, buf14, 256, XBLOCK=128, num_warps=4, num_stages=1) del arg1_1 buf15 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf14, (4, 4, 16), (64, 16, 1 ), 0), reinterpret_tensor(buf14, (4, 16, 4), (64, 1, 16), 0), out=buf15) buf16 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) triton_poi_fused_sub_4[grid(64)](buf1, buf16, 64, XBLOCK=64, num_warps=1, num_stages=1) buf17 = buf1 del buf1 triton_poi_fused__softmax_5[grid(64)](buf16, buf17, 64, XBLOCK=64, num_warps=1, num_stages=1) buf18 = buf16 del buf16 triton_poi_fused__softmax_6[grid(64)](buf17, buf18, 64, XBLOCK=64, num_warps=1, num_stages=1) del buf17 buf19 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) extern_kernels.bmm(buf18, reinterpret_tensor(buf0, (4, 4, 16), (64, 16, 1), 0), out=buf19) buf20 = buf18 del buf18 triton_poi_fused_sub_4[grid(64)](buf3, buf20, 64, XBLOCK=64, num_warps=1, num_stages=1) buf21 = buf3 del buf3 triton_poi_fused__softmax_5[grid(64)](buf20, buf21, 64, XBLOCK=64, num_warps=1, num_stages=1) buf22 = buf20 del buf20 triton_poi_fused__softmax_6[grid(64)](buf21, buf22, 64, XBLOCK=64, num_warps=1, num_stages=1) del buf21 buf23 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) extern_kernels.bmm(buf22, reinterpret_tensor(buf2, (4, 4, 16), (64, 16, 1), 0), out=buf23) buf25 = empty_strided_cuda((4, 16, 16), (256, 16, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf0, (4, 16, 4), (64, 1, 16), 0), reinterpret_tensor(buf0, (4, 4, 16), (64, 16, 1), 0), out=buf25 ) buf28 = empty_strided_cuda((4, 16, 16), (256, 16, 1), torch.float32) triton_per_fused__softmax_7[grid(64)](buf25, buf28, 64, 16, XBLOCK= 8, num_warps=2, num_stages=1) buf29 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf0, (4, 4, 16), (64, 16, 1), 0), reinterpret_tensor(buf28, (4, 16, 16), (256, 1, 16), 0), out=buf29) buf30 = buf28 del buf28 extern_kernels.bmm(reinterpret_tensor(buf2, (4, 16, 4), (64, 1, 16), 0), reinterpret_tensor(buf2, (4, 4, 16), (64, 16, 1), 0), out=buf30 ) buf33 = buf25 del buf25 triton_per_fused__softmax_7[grid(64)](buf30, buf33, 64, 16, XBLOCK= 8, num_warps=2, num_stages=1) buf34 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf2, (4, 4, 16), (64, 16, 1), 0), reinterpret_tensor(buf33, (4, 16, 16), (256, 1, 16), 0), out=buf34) buf36 = buf22 del buf22 triton_poi_fused_sub_4[grid(64)](buf5, buf36, 64, XBLOCK=64, num_warps=1, num_stages=1) buf37 = buf5 del buf5 triton_poi_fused__softmax_5[grid(64)](buf36, buf37, 64, XBLOCK=64, num_warps=1, num_stages=1) buf38 = buf36 del buf36 triton_poi_fused__softmax_6[grid(64)](buf37, buf38, 64, XBLOCK=64, num_warps=1, num_stages=1) del buf37 buf39 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) extern_kernels.bmm(buf38, reinterpret_tensor(buf4, (4, 4, 16), (64, 16, 1), 0), out=buf39) buf40 = buf38 del buf38 triton_poi_fused_sub_4[grid(64)](buf7, buf40, 64, XBLOCK=64, num_warps=1, num_stages=1) buf41 = buf7 del buf7 triton_poi_fused__softmax_5[grid(64)](buf40, buf41, 64, XBLOCK=64, num_warps=1, num_stages=1) buf42 = buf40 del buf40 triton_poi_fused__softmax_6[grid(64)](buf41, buf42, 64, XBLOCK=64, num_warps=1, num_stages=1) del buf41 buf43 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) extern_kernels.bmm(buf42, reinterpret_tensor(buf6, (4, 4, 16), (64, 16, 1), 0), out=buf43) buf45 = buf33 del buf33 extern_kernels.bmm(reinterpret_tensor(buf4, (4, 16, 4), (64, 1, 16), 0), reinterpret_tensor(buf4, (4, 4, 16), (64, 16, 1), 0), out=buf45 ) buf48 = buf30 del buf30 triton_per_fused__softmax_7[grid(64)](buf45, buf48, 64, 16, XBLOCK= 8, num_warps=2, num_stages=1) buf49 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf4, (4, 4, 16), (64, 16, 1), 0), reinterpret_tensor(buf48, (4, 16, 16), (256, 1, 16), 0), out=buf49) buf50 = buf48 del buf48 extern_kernels.bmm(reinterpret_tensor(buf6, (4, 16, 4), (64, 1, 16), 0), reinterpret_tensor(buf6, (4, 4, 16), (64, 16, 1), 0), out=buf50 ) buf53 = buf45 del buf45 triton_per_fused__softmax_7[grid(64)](buf50, buf53, 64, 16, XBLOCK= 8, num_warps=2, num_stages=1) buf54 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf6, (4, 4, 16), (64, 16, 1), 0), reinterpret_tensor(buf53, (4, 16, 16), (256, 1, 16), 0), out=buf54) buf56 = buf42 del buf42 triton_poi_fused_sub_4[grid(64)](buf9, buf56, 64, XBLOCK=64, num_warps=1, num_stages=1) buf57 = buf9 del buf9 triton_poi_fused__softmax_5[grid(64)](buf56, buf57, 64, XBLOCK=64, num_warps=1, num_stages=1) buf58 = buf56 del buf56 triton_poi_fused__softmax_6[grid(64)](buf57, buf58, 64, XBLOCK=64, num_warps=1, num_stages=1) del buf57 buf59 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) extern_kernels.bmm(buf58, reinterpret_tensor(buf8, (4, 4, 16), (64, 16, 1), 0), out=buf59) buf60 = buf58 del buf58 triton_poi_fused_sub_4[grid(64)](buf11, buf60, 64, XBLOCK=64, num_warps=1, num_stages=1) buf61 = buf11 del buf11 triton_poi_fused__softmax_5[grid(64)](buf60, buf61, 64, XBLOCK=64, num_warps=1, num_stages=1) buf62 = buf60 del buf60 triton_poi_fused__softmax_6[grid(64)](buf61, buf62, 64, XBLOCK=64, num_warps=1, num_stages=1) del buf61 buf63 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) extern_kernels.bmm(buf62, reinterpret_tensor(buf10, (4, 4, 16), (64, 16, 1), 0), out=buf63) buf65 = buf53 del buf53 extern_kernels.bmm(reinterpret_tensor(buf8, (4, 16, 4), (64, 1, 16), 0), reinterpret_tensor(buf8, (4, 4, 16), (64, 16, 1), 0), out=buf65 ) buf68 = buf50 del buf50 triton_per_fused__softmax_7[grid(64)](buf65, buf68, 64, 16, XBLOCK= 8, num_warps=2, num_stages=1) buf69 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf8, (4, 4, 16), (64, 16, 1), 0), reinterpret_tensor(buf68, (4, 16, 16), (256, 1, 16), 0), out=buf69) buf70 = buf68 del buf68 extern_kernels.bmm(reinterpret_tensor(buf10, (4, 16, 4), (64, 1, 16 ), 0), reinterpret_tensor(buf10, (4, 4, 16), (64, 16, 1), 0), out=buf70) buf73 = buf65 del buf65 triton_per_fused__softmax_7[grid(64)](buf70, buf73, 64, 16, XBLOCK= 8, num_warps=2, num_stages=1) buf74 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf10, (4, 4, 16), (64, 16, 1 ), 0), reinterpret_tensor(buf73, (4, 16, 16), (256, 1, 16), 0), out=buf74) buf76 = buf62 del buf62 triton_poi_fused_sub_4[grid(64)](buf13, buf76, 64, XBLOCK=64, num_warps=1, num_stages=1) buf77 = buf13 del buf13 triton_poi_fused__softmax_5[grid(64)](buf76, buf77, 64, XBLOCK=64, num_warps=1, num_stages=1) buf78 = buf76 del buf76 triton_poi_fused__softmax_6[grid(64)](buf77, buf78, 64, XBLOCK=64, num_warps=1, num_stages=1) del buf77 buf79 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) extern_kernels.bmm(buf78, reinterpret_tensor(buf12, (4, 4, 16), (64, 16, 1), 0), out=buf79) buf80 = buf78 del buf78 triton_poi_fused_sub_4[grid(64)](buf15, buf80, 64, XBLOCK=64, num_warps=1, num_stages=1) buf81 = buf15 del buf15 triton_poi_fused__softmax_5[grid(64)](buf80, buf81, 64, XBLOCK=64, num_warps=1, num_stages=1) buf82 = buf80 del buf80 triton_poi_fused__softmax_6[grid(64)](buf81, buf82, 64, XBLOCK=64, num_warps=1, num_stages=1) del buf81 buf83 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) extern_kernels.bmm(buf82, reinterpret_tensor(buf14, (4, 4, 16), (64, 16, 1), 0), out=buf83) del buf82 buf85 = buf73 del buf73 extern_kernels.bmm(reinterpret_tensor(buf12, (4, 16, 4), (64, 1, 16 ), 0), reinterpret_tensor(buf12, (4, 4, 16), (64, 16, 1), 0), out=buf85) buf88 = buf70 del buf70 triton_per_fused__softmax_7[grid(64)](buf85, buf88, 64, 16, XBLOCK= 8, num_warps=2, num_stages=1) buf89 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf12, (4, 4, 16), (64, 16, 1 ), 0), reinterpret_tensor(buf88, (4, 16, 16), (256, 1, 16), 0), out=buf89) buf90 = buf88 del buf88 extern_kernels.bmm(reinterpret_tensor(buf14, (4, 16, 4), (64, 1, 16 ), 0), reinterpret_tensor(buf14, (4, 4, 16), (64, 16, 1), 0), out=buf90) buf93 = buf85 del buf85 triton_per_fused__softmax_7[grid(64)](buf90, buf93, 64, 16, XBLOCK= 8, num_warps=2, num_stages=1) del buf90 buf94 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf14, (4, 4, 16), (64, 16, 1 ), 0), reinterpret_tensor(buf93, (4, 16, 16), (256, 1, 16), 0), out=buf94) del buf93 buf24 = empty_strided_cuda((), (), torch.float32) buf96 = buf24 del buf24 triton_per_fused_abs_add_mean_mul_sub_8[grid(1)](buf96, buf19, buf0, buf23, buf2, buf29, buf34, buf39, buf4, buf43, buf6, buf49, buf54, buf59, buf8, buf63, buf10, buf69, buf74, buf79, buf12, buf83, buf14, buf89, buf94, 1, 256, num_warps=2, num_stages=1) del buf0 del buf10 del buf12 del buf14 del buf19 del buf2 del buf23 del buf29 del buf34 del buf39 del buf4 del buf43 del buf49 del buf54 del buf59 del buf6 del buf63 del buf69 del buf74 del buf79 del buf8 del buf83 del buf89 del buf94 return buf96, class SCRMNew(nn.Module): """ spatial & channel wise relation loss """ def __init__(self, gamma=0.1): super(SCRMNew, self).__init__() self.softmax = nn.Softmax(dim=-1) self.gamma = gamma def spatial_wise(self, x): m_batchsize, C, height, width = x.size() proj_query = x.view(m_batchsize, -1, width * height).permute(0, 2, 1) proj_key = x.view(m_batchsize, -1, width * height) energy = torch.bmm(proj_query, proj_key) attention = self.softmax(energy) proj_value = x.view(m_batchsize, -1, width * height) out = torch.bmm(proj_value, attention.permute(0, 2, 1)) out = out.view(m_batchsize, C, height, width) out = self.gamma * out + x return out def channel_wise(self, x): m_batchsize, C, height, width = x.size() proj_query = x.view(m_batchsize, C, -1) proj_key = x.view(m_batchsize, C, -1).permute(0, 2, 1) energy = torch.bmm(proj_query, proj_key) energy_new = torch.max(energy, -1, keepdim=True)[0].expand_as(energy ) - energy attention = self.softmax(energy_new) proj_value = x.view(m_batchsize, C, -1) out = torch.bmm(attention, proj_value) out = out.view(m_batchsize, C, height, width) out = self.gamma * out + x return out def cal_loss(self, f_s, f_t): f_s = F.normalize(f_s, dim=1) f_t = F.normalize(f_t, dim=1) sa_loss = F.l1_loss(self.spatial_wise(f_s), self.spatial_wise(f_t)) ca_loss = F.l1_loss(self.channel_wise(f_s), self.channel_wise(f_t)) return ca_loss + sa_loss def forward(self, input_0, input_1): arg0_1 = input_0 arg1_1 = input_1 output = call([arg0_1, arg1_1]) return output[0]	DemoAuguste/ZAQ-code	SCRM	false	9,078	[ "MIT" ]	9986a2d217ab5cb284e08c062f8726cabacb311e	https://github.com/DemoAuguste/ZAQ-code/tree/9986a2d217ab5cb284e08c062f8726cabacb311e
Critic	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/6s/c6sstbvcita246hkfqwdeatnmsh3e6vlcncrzcwlsoqg7dmxvabp.py # Topologically Sorted Source Nodes: [x_b_2], Original ATen: [aten.native_layer_norm] # Source node to ATen node mapping: # x_b_2 => add, rsqrt, var_mean # Graph fragment: # %var_mean : [num_users=2] = call_function[target=torch.ops.aten.var_mean.correction](args = (%addmm, [1]), kwargs = {correction: 0, keepdim: True}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%getitem, 1e-05), kwargs = {}) # %rsqrt : [num_users=1] = call_function[target=torch.ops.aten.rsqrt.default](args = (%add,), kwargs = {}) triton_poi_fused_native_layer_norm_0 = async_compile.triton('triton_poi_fused_native_layer_norm_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[4], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_native_layer_norm_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_native_layer_norm_0(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 4 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (4x0), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + (4x0)), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (2 + (4x0)), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (3 + (4x0)), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp6 = tmp4 + tmp5 tmp7 = 4.0 tmp8 = tmp6 / tmp7 tmp9 = tmp0 - tmp8 tmp10 = tmp9 * tmp9 tmp11 = tmp1 - tmp8 tmp12 = tmp11 * tmp11 tmp13 = tmp10 + tmp12 tmp14 = tmp3 - tmp8 tmp15 = tmp14 * tmp14 tmp16 = tmp13 + tmp15 tmp17 = tmp5 - tmp8 tmp18 = tmp17 * tmp17 tmp19 = tmp16 + tmp18 tmp20 = tmp19 / tmp7 tmp21 = 1e-05 tmp22 = tmp20 + tmp21 tmp23 = libdevice.rsqrt(tmp22) tl.store(out_ptr0 + (x0), tmp8, xmask) tl.store(out_ptr1 + (x0), tmp23, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/zv/czv3tzezwxkylzsgkrivaldxprnr7tvjr5iihe4mbc7bzdev5lsj.py # Topologically Sorted Source Nodes: [x_b_2], Original ATen: [aten.native_layer_norm] # Source node to ATen node mapping: # x_b_2 => add, add_1, mul, mul_1, rsqrt, sub, var_mean # Graph fragment: # %var_mean : [num_users=2] = call_function[target=torch.ops.aten.var_mean.correction](args = (%addmm, [1]), kwargs = {correction: 0, keepdim: True}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%getitem, 1e-05), kwargs = {}) # %rsqrt : [num_users=1] = call_function[target=torch.ops.aten.rsqrt.default](args = (%add,), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%addmm, %getitem_1), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub, %rsqrt), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul, %primals_5), kwargs = {}) # %add_1 : [num_users=3] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_1, %primals_6), kwargs = {}) triton_poi_fused_native_layer_norm_1 = async_compile.triton('triton_poi_fused_native_layer_norm_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'fp32', 6: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_native_layer_norm_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_native_layer_norm_1(in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) x0 = xindex % 4 tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr1 + (x1), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + (x1), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr3 + (x0), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr4 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 - tmp1 tmp4 = tmp2 * tmp3 tmp6 = tmp4 * tmp5 tmp8 = tmp6 + tmp7 tl.store(out_ptr0 + (x2), tmp8, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/qg/cqgqn6luq7rxekr2jgm6ycdkkmvbq4jarsx24b5iyto72zngukpy.py # Topologically Sorted Source Nodes: [x], Original ATen: [aten.cat] # Source node to ATen node mapping: # x => cat # Graph fragment: # %cat : [num_users=2] = call_function[target=torch.ops.aten.cat.default](args = ([%where, %where_1], -1), kwargs = {}) triton_poi_fused_cat_2 = async_compile.triton('triton_poi_fused_cat_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[32], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_cat_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_cat_2(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 32 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 8 x1 = (xindex // 8) x2 = xindex tmp0 = x0 tmp1 = tl.full([1], 0, tl.int64) tmp2 = tmp0 >= tmp1 tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + ((4x1) + x0), tmp4 & xmask, eviction_policy='evict_last', other=0.0) tmp6 = 0.0 tmp7 = tmp5 > tmp6 tmp8 = 0.17 tmp9 = tmp5 tmp8 tmp10 = tl.where(tmp7, tmp5, tmp9) tmp11 = tl.full(tmp10.shape, 0.0, tmp10.dtype) tmp12 = tl.where(tmp4, tmp10, tmp11) tmp13 = tmp0 >= tmp3 tmp14 = tl.full([1], 8, tl.int64) tmp15 = tmp0 < tmp14 tmp16 = tl.load(in_ptr1 + ((4x1) + ((-4) + x0)), tmp13 & xmask, eviction_policy='evict_last', other=0.0) tmp17 = tmp16 > tmp6 tmp18 = tmp16 tmp8 tmp19 = tl.where(tmp17, tmp16, tmp18) tmp20 = tl.full(tmp19.shape, 0.0, tmp19.dtype) tmp21 = tl.where(tmp13, tmp19, tmp20) tmp22 = tl.where(tmp4, tmp12, tmp21) tl.store(out_ptr0 + (x2), tmp22, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/ag/cagruse2c37f62kerweuhtvjr6uvfg5hjoefjuj6sjgmdcv6ofhf.py # Topologically Sorted Source Nodes: [x_2, x_3], Original ATen: [aten.native_layer_norm, aten.leaky_relu] # Source node to ATen node mapping: # x_2 => add_4, add_5, mul_6, mul_7, rsqrt_2, sub_2, var_mean_2 # x_3 => gt_2, mul_8, where_2 # Graph fragment: # %var_mean_2 : [num_users=2] = call_function[target=torch.ops.aten.var_mean.correction](args = (%addmm_2, [1]), kwargs = {correction: 0, keepdim: True}) # %add_4 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%getitem_4, 1e-05), kwargs = {}) # %rsqrt_2 : [num_users=1] = call_function[target=torch.ops.aten.rsqrt.default](args = (%add_4,), kwargs = {}) # %sub_2 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%addmm_2, %getitem_5), kwargs = {}) # %mul_6 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub_2, %rsqrt_2), kwargs = {}) # %mul_7 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul_6, %primals_13), kwargs = {}) # %add_5 : [num_users=3] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_7, %primals_14), kwargs = {}) # %gt_2 : [num_users=1] = call_function[target=torch.ops.aten.gt.Scalar](args = (%add_5, 0), kwargs = {}) # %mul_8 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%add_5, 0.495), kwargs = {}) # %where_2 : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%gt_2, %add_5, %mul_8), kwargs = {}) triton_per_fused_leaky_relu_native_layer_norm_3 = async_compile.triton('triton_per_fused_leaky_relu_native_layer_norm_3', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[4, 8], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32', 5: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_leaky_relu_native_layer_norm_3', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 3, 'num_reduction': 4, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_leaky_relu_native_layer_norm_3(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 4 rnumel = 8 RBLOCK: tl.constexpr = 8 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) r1 = rindex x0 = xindex tmp0 = tl.load(in_ptr0 + (r1 + (8x0)), xmask, other=0.0) tmp24 = tl.load(in_ptr1 + (r1), None, eviction_policy='evict_last') tmp26 = tl.load(in_ptr2 + (r1), None, eviction_policy='evict_last') tmp1 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp3 = tl.where(xmask, tmp1, 0) tmp4 = tl.broadcast_to(tmp1, [XBLOCK, RBLOCK]) tmp6 = tl.where(xmask, tmp4, 0) tmp7 = tl.sum(tmp6, 1)[:, None] tmp8 = tl.full([XBLOCK, 1], 8, tl.int32) tmp9 = tmp8.to(tl.float32) tmp10 = tmp7 / tmp9 tmp11 = tmp1 - tmp10 tmp12 = tmp11 tmp11 tmp13 = tl.broadcast_to(tmp12, [XBLOCK, RBLOCK]) tmp15 = tl.where(xmask, tmp13, 0) tmp16 = tl.sum(tmp15, 1)[:, None] tmp17 = tmp0 - tmp10 tmp18 = 8.0 tmp19 = tmp16 / tmp18 tmp20 = 1e-05 tmp21 = tmp19 + tmp20 tmp22 = libdevice.rsqrt(tmp21) tmp23 = tmp17 * tmp22 tmp25 = tmp23 * tmp24 tmp27 = tmp25 + tmp26 tmp28 = 0.0 tmp29 = tmp27 > tmp28 tmp30 = 0.495 tmp31 = tmp27 * tmp30 tmp32 = tl.where(tmp29, tmp27, tmp31) tl.store(in_out_ptr0 + (r1 + (8x0)), tmp32, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/g7/cg7ufpydfut22mqa7dyd5d5o76xbs5gl63fsv7qi3wi722sjwvh4.py # Topologically Sorted Source Nodes: [x_5, x_6], Original ATen: [aten.native_layer_norm, aten.leaky_relu] # Source node to ATen node mapping: # x_5 => add_6, add_7, mul_10, mul_9, rsqrt_3, sub_3, var_mean_3 # x_6 => gt_3, mul_11, where_3 # Graph fragment: # %var_mean_3 : [num_users=2] = call_function[target=torch.ops.aten.var_mean.correction](args = (%addmm_3, [1]), kwargs = {correction: 0, keepdim: True}) # %add_6 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%getitem_6, 1e-05), kwargs = {}) # %rsqrt_3 : [num_users=1] = call_function[target=torch.ops.aten.rsqrt.default](args = (%add_6,), kwargs = {}) # %sub_3 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%addmm_3, %getitem_7), kwargs = {}) # %mul_9 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub_3, %rsqrt_3), kwargs = {}) # %mul_10 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul_9, %primals_17), kwargs = {}) # %add_7 : [num_users=3] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_10, %primals_18), kwargs = {}) # %gt_3 : [num_users=1] = call_function[target=torch.ops.aten.gt.Scalar](args = (%add_7, 0), kwargs = {}) # %mul_11 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%add_7, 0.825), kwargs = {}) # %where_3 : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%gt_3, %add_7, %mul_11), kwargs = {}) triton_poi_fused_leaky_relu_native_layer_norm_4 = async_compile.triton('triton_poi_fused_leaky_relu_native_layer_norm_4', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'fp32', 6: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_leaky_relu_native_layer_norm_4', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_leaky_relu_native_layer_norm_4(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) x0 = xindex % 4 tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr1 + (x1), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + (x1), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr3 + (x0), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr4 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 - tmp1 tmp4 = tmp2 * tmp3 tmp6 = tmp4 * tmp5 tmp8 = tmp6 + tmp7 tmp9 = 0.0 tmp10 = tmp8 > tmp9 tmp11 = 0.825 tmp12 = tmp8 * tmp11 tmp13 = tl.where(tmp10, tmp8, tmp12) tl.store(in_out_ptr0 + (x2), tmp13, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/ao/caot2kmtbabfrjsou5mdjlw4z7aoemswazribraljn3jvpjk3a36.py # Topologically Sorted Source Nodes: [x_8], Original ATen: [aten.native_layer_norm] # Source node to ATen node mapping: # x_8 => var_mean_4 # Graph fragment: # %var_mean_4 : [num_users=2] = call_function[target=torch.ops.aten.var_mean.correction](args = (%addmm_4, [1]), kwargs = {correction: 0, keepdim: True}) triton_poi_fused_native_layer_norm_5 = async_compile.triton('triton_poi_fused_native_layer_norm_5', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[4], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_native_layer_norm_5', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_native_layer_norm_5(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 4 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (2x0), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + (2x0)), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 2.0 tmp4 = tmp2 / tmp3 tl.store(out_ptr0 + (x0), tmp4, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/im/cimre7rgyd7wctdtmtqhfrrl2q64xfkk664zxno2dwfktmcgsblc.py # Topologically Sorted Source Nodes: [x_8], Original ATen: [aten.native_layer_norm] # Source node to ATen node mapping: # x_8 => add_8, add_9, mul_12, mul_13, rsqrt_4, sub_4, var_mean_4 # Graph fragment: # %var_mean_4 : [num_users=2] = call_function[target=torch.ops.aten.var_mean.correction](args = (%addmm_4, [1]), kwargs = {correction: 0, keepdim: True}) # %add_8 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%getitem_8, 1e-05), kwargs = {}) # %rsqrt_4 : [num_users=1] = call_function[target=torch.ops.aten.rsqrt.default](args = (%add_8,), kwargs = {}) # %sub_4 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%addmm_4, %getitem_9), kwargs = {}) # %mul_12 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub_4, %rsqrt_4), kwargs = {}) # %mul_13 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul_12, %primals_21), kwargs = {}) # %add_9 : [num_users=2] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_13, %primals_22), kwargs = {}) triton_poi_fused_native_layer_norm_6 = async_compile.triton('triton_poi_fused_native_layer_norm_6', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[8], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_native_layer_norm_6', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 6, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_native_layer_norm_6(in_ptr0, in_ptr1, in_ptr2, in_ptr3, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 8 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 2) x0 = xindex % 2 tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr1 + (x1), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (2x1), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (1 + (2x1)), xmask, eviction_policy='evict_last') tmp16 = tl.load(in_ptr2 + (x0), xmask, eviction_policy='evict_last') tmp18 = tl.load(in_ptr3 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 - tmp1 tmp4 = tmp3 - tmp1 tmp5 = tmp4 * tmp4 tmp7 = tmp6 - tmp1 tmp8 = tmp7 * tmp7 tmp9 = tmp5 + tmp8 tmp10 = 2.0 tmp11 = tmp9 / tmp10 tmp12 = 1e-05 tmp13 = tmp11 + tmp12 tmp14 = libdevice.rsqrt(tmp13) tmp15 = tmp2 * tmp14 tmp17 = tmp15 * tmp16 tmp19 = tmp17 + tmp18 tl.store(out_ptr0 + (x2), tmp19, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13, primals_14, primals_15, primals_16, primals_17, primals_18, primals_19, primals_20, primals_21, primals_22, primals_23, primals_24 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, 4), (4, 1)) assert_size_stride(primals_3, (4, 4), (4, 1)) assert_size_stride(primals_4, (4, ), (1, )) assert_size_stride(primals_5, (4, ), (1, )) assert_size_stride(primals_6, (4, ), (1, )) assert_size_stride(primals_7, (4, 4), (4, 1)) assert_size_stride(primals_8, (4, ), (1, )) assert_size_stride(primals_9, (4, ), (1, )) assert_size_stride(primals_10, (4, ), (1, )) assert_size_stride(primals_11, (8, 8), (8, 1)) assert_size_stride(primals_12, (8, ), (1, )) assert_size_stride(primals_13, (8, ), (1, )) assert_size_stride(primals_14, (8, ), (1, )) assert_size_stride(primals_15, (4, 8), (8, 1)) assert_size_stride(primals_16, (4, ), (1, )) assert_size_stride(primals_17, (4, ), (1, )) assert_size_stride(primals_18, (4, ), (1, )) assert_size_stride(primals_19, (2, 4), (4, 1)) assert_size_stride(primals_20, (2, ), (1, )) assert_size_stride(primals_21, (2, ), (1, )) assert_size_stride(primals_22, (2, ), (1, )) assert_size_stride(primals_23, (1, 2), (2, 1)) assert_size_stride(primals_24, (1, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [x_b_1], Original ATen: [aten.addmm] extern_kernels.addmm(primals_4, primals_2, reinterpret_tensor(primals_3, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf0) del primals_3 del primals_4 buf1 = empty_strided_cuda((4, 1), (1, 4), torch.float32) buf2 = empty_strided_cuda((4, 1), (1, 4), torch.float32) # Topologically Sorted Source Nodes: [x_b_2], Original ATen: [aten.native_layer_norm] stream0 = get_raw_stream(0) triton_poi_fused_native_layer_norm_0.run(buf0, buf1, buf2, 4, grid=grid(4), stream=stream0) buf3 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [x_b_2], Original ATen: [aten.native_layer_norm] triton_poi_fused_native_layer_norm_1.run(buf0, buf1, buf2, primals_5, primals_6, buf3, 16, grid=grid(16), stream=stream0) buf4 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [x_Cbx_1], Original ATen: [aten.addmm] extern_kernels.addmm(primals_8, primals_1, reinterpret_tensor(primals_7, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf4) del primals_7 del primals_8 buf5 = buf2; del buf2 # reuse buf6 = buf1; del buf1 # reuse # Topologically Sorted Source Nodes: [x_Cbx_2], Original ATen: [aten.native_layer_norm] triton_poi_fused_native_layer_norm_0.run(buf4, buf5, buf6, 4, grid=grid(4), stream=stream0) buf7 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [x_Cbx_2], Original ATen: [aten.native_layer_norm] triton_poi_fused_native_layer_norm_1.run(buf4, buf5, buf6, primals_9, primals_10, buf7, 16, grid=grid(16), stream=stream0) buf8 = empty_strided_cuda((4, 8), (8, 1), torch.float32) # Topologically Sorted Source Nodes: [x], Original ATen: [aten.cat] triton_poi_fused_cat_2.run(buf3, buf7, buf8, 32, grid=grid(32), stream=stream0) buf9 = empty_strided_cuda((4, 8), (8, 1), torch.float32) # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.addmm] extern_kernels.addmm(primals_12, buf8, reinterpret_tensor(primals_11, (8, 8), (1, 8), 0), alpha=1, beta=1, out=buf9) del primals_12 buf13 = empty_strided_cuda((4, 8), (8, 1), torch.float32) buf14 = buf13; del buf13 # reuse # Topologically Sorted Source Nodes: [x_2, x_3], Original ATen: [aten.native_layer_norm, aten.leaky_relu] triton_per_fused_leaky_relu_native_layer_norm_3.run(buf14, buf9, primals_13, primals_14, 4, 8, grid=grid(4), stream=stream0) buf15 = buf7; del buf7 # reuse # Topologically Sorted Source Nodes: [x_4], Original ATen: [aten.addmm] extern_kernels.addmm(primals_16, buf14, reinterpret_tensor(primals_15, (8, 4), (1, 8), 0), alpha=1, beta=1, out=buf15) del primals_16 buf16 = buf6; del buf6 # reuse buf17 = buf5; del buf5 # reuse # Topologically Sorted Source Nodes: [x_5], Original ATen: [aten.native_layer_norm] triton_poi_fused_native_layer_norm_0.run(buf15, buf16, buf17, 4, grid=grid(4), stream=stream0) buf18 = buf3; del buf3 # reuse buf19 = buf18; del buf18 # reuse # Topologically Sorted Source Nodes: [x_5, x_6], Original ATen: [aten.native_layer_norm, aten.leaky_relu] triton_poi_fused_leaky_relu_native_layer_norm_4.run(buf19, buf15, buf16, buf17, primals_17, primals_18, 16, grid=grid(16), stream=stream0) del buf16 buf20 = empty_strided_cuda((4, 2), (2, 1), torch.float32) # Topologically Sorted Source Nodes: [x_7], Original ATen: [aten.addmm] extern_kernels.addmm(primals_20, buf19, reinterpret_tensor(primals_19, (4, 2), (1, 4), 0), alpha=1, beta=1, out=buf20) del primals_20 buf21 = buf17; del buf17 # reuse # Topologically Sorted Source Nodes: [x_8], Original ATen: [aten.native_layer_norm] triton_poi_fused_native_layer_norm_5.run(buf20, buf21, 4, grid=grid(4), stream=stream0) buf22 = empty_strided_cuda((4, 2), (2, 1), torch.float32) # Topologically Sorted Source Nodes: [x_8], Original ATen: [aten.native_layer_norm] triton_poi_fused_native_layer_norm_6.run(buf20, buf21, primals_21, primals_22, buf22, 8, grid=grid(8), stream=stream0) del primals_22 buf24 = reinterpret_tensor(buf21, (4, 1), (1, 1), 0); del buf21 # reuse # Topologically Sorted Source Nodes: [V], Original ATen: [aten.addmm] extern_kernels.addmm(primals_24, buf22, reinterpret_tensor(primals_23, (2, 1), (1, 2), 0), alpha=1, beta=1, out=buf24) del primals_24 return (buf24, primals_5, primals_6, primals_9, primals_10, primals_13, primals_14, primals_17, primals_18, primals_21, primals_2, buf0, primals_1, buf4, buf8, buf9, buf14, buf15, buf19, buf20, buf22, primals_23, primals_19, primals_15, primals_11, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_10 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_11 = rand_strided((8, 8), (8, 1), device='cuda:0', dtype=torch.float32) primals_12 = rand_strided((8, ), (1, ), device='cuda:0', dtype=torch.float32) primals_13 = rand_strided((8, ), (1, ), device='cuda:0', dtype=torch.float32) primals_14 = rand_strided((8, ), (1, ), device='cuda:0', dtype=torch.float32) primals_15 = rand_strided((4, 8), (8, 1), device='cuda:0', dtype=torch.float32) primals_16 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_17 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_18 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_19 = rand_strided((2, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_20 = rand_strided((2, ), (1, ), device='cuda:0', dtype=torch.float32) primals_21 = rand_strided((2, ), (1, ), device='cuda:0', dtype=torch.float32) primals_22 = rand_strided((2, ), (1, ), device='cuda:0', dtype=torch.float32) primals_23 = rand_strided((1, 2), (2, 1), device='cuda:0', dtype=torch.float32) primals_24 = rand_strided((1, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13, primals_14, primals_15, primals_16, primals_17, primals_18, primals_19, primals_20, primals_21, primals_22, primals_23, primals_24]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class Critic(nn.Module): def __init__(self, hidden_size, action, num_inputs, spp_num_outputs, data_width=8): super(Critic, self).__init__() self.action = action self.num_outputs = self.action.shape[0] self.num_inputs = num_inputs self.spp_data_width = data_width self.spp_num_outputs = spp_num_outputs self.fc_num_inputs = sum([(i * i) for i in self.spp_num_outputs]) """ self.Cbx_res_block1 = nn.Sequential( nn.Conv2d(1, 128, kernel_size=1, padding=0), nn.BatchNorm2d(128), nn.RReLU(0.66, 0.99), nn.Conv2d(128, 128, kernel_size=3, padding=1), nn.BatchNorm2d(128), nn.RReLU(0.33, 0.66), nn.Conv2d(128, 1, kernel_size=3, padding=1), nn.BatchNorm2d(1) ) self.Cbx_res_block2 = nn.Sequential( nn.Conv2d(1, 128, kernel_size=1, padding=0), nn.BatchNorm2d(128), nn.RReLU(0.66, 0.99), nn.Conv2d(128, 128, kernel_size=3, padding=1), nn.BatchNorm2d(128), nn.RReLU(0.33, 0.66), nn.Conv2d(128, 1, kernel_size=3, padding=1), nn.BatchNorm2d(1) ) """ self.cfc11 = nn.Linear(self.num_outputs, hidden_size) self.ln11 = nn.LayerNorm(hidden_size) self.relu11 = nn.RReLU(0.01, 0.33) self.cfc12 = nn.Linear(self.num_inputs, hidden_size) self.ln12 = nn.LayerNorm(hidden_size) self.relu12 = nn.RReLU(0.01, 0.33) self.cfc2 = nn.Linear(hidden_size * 2, hidden_size * 2) self.ln2 = nn.LayerNorm(hidden_size * 2) self.relu2 = nn.RReLU(0.33, 0.66) self.cfc3 = nn.Linear(hidden_size * 2, hidden_size) self.ln3 = nn.LayerNorm(hidden_size) self.relu3 = nn.RReLU(0.66, 0.99) self.cfc4 = nn.Linear(hidden_size, hidden_size // 2) self.ln4 = nn.LayerNorm(hidden_size // 2) self.drop = nn.Dropout() self.V = nn.Linear(hidden_size // 2, 1) self.V.weight.data.mul_(0.1) self.V.bias.data.mul_(0.1) def forward(self, states, actions): states = states.squeeze() actions = actions.squeeze() x_b = actions x_b = x_b.reshape(-1, self.num_outputs) x_b = self.cfc11(x_b) x_b = self.ln11(x_b) x_b = self.relu11(x_b) x_Cbx = states.squeeze() x_Cbx = self.cfc12(x_Cbx) x_Cbx = self.ln12(x_Cbx) x_Cbx = self.relu12(x_Cbx) x = torch.cat([x_b, x_Cbx], -1) x = self.cfc2(x) x = self.ln2(x) x = self.relu2(x) x = self.cfc3(x) x = self.ln3(x) x = self.relu3(x) x = self.cfc4(x) x = self.ln4(x) x = self.drop(x) V = self.V(x) return V def get_inputs(): return [torch.rand([4, 4]), torch.rand([4, 4])] def get_init_inputs(): return [[], {'hidden_size': 4, 'action': torch.rand([4, 4]), 'num_inputs': 4, 'spp_num_outputs': [4, 4]}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import libdevice import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_native_layer_norm_0(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 4 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + 4 * x0, xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + 4 * x0), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (2 + 4 * x0), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (3 + 4 * x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp6 = tmp4 + tmp5 tmp7 = 4.0 tmp8 = tmp6 / tmp7 tmp9 = tmp0 - tmp8 tmp10 = tmp9 * tmp9 tmp11 = tmp1 - tmp8 tmp12 = tmp11 * tmp11 tmp13 = tmp10 + tmp12 tmp14 = tmp3 - tmp8 tmp15 = tmp14 * tmp14 tmp16 = tmp13 + tmp15 tmp17 = tmp5 - tmp8 tmp18 = tmp17 * tmp17 tmp19 = tmp16 + tmp18 tmp20 = tmp19 / tmp7 tmp21 = 1e-05 tmp22 = tmp20 + tmp21 tmp23 = libdevice.rsqrt(tmp22) tl.store(out_ptr0 + x0, tmp8, xmask) tl.store(out_ptr1 + x0, tmp23, xmask) @triton.jit def triton_poi_fused_native_layer_norm_1(in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 x0 = xindex % 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr1 + x1, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + x1, xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr3 + x0, xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr4 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 - tmp1 tmp4 = tmp2 * tmp3 tmp6 = tmp4 * tmp5 tmp8 = tmp6 + tmp7 tl.store(out_ptr0 + x2, tmp8, xmask) @triton.jit def triton_poi_fused_cat_2(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 32 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 8 x1 = xindex // 8 x2 = xindex tmp0 = x0 tl.full([1], 0, tl.int64) tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + (4 * x1 + x0), tmp4 & xmask, eviction_policy= 'evict_last', other=0.0) tmp6 = 0.0 tmp7 = tmp5 > tmp6 tmp8 = 0.17 tmp9 = tmp5 * tmp8 tmp10 = tl.where(tmp7, tmp5, tmp9) tmp11 = tl.full(tmp10.shape, 0.0, tmp10.dtype) tmp12 = tl.where(tmp4, tmp10, tmp11) tmp13 = tmp0 >= tmp3 tl.full([1], 8, tl.int64) tmp16 = tl.load(in_ptr1 + (4 * x1 + (-4 + x0)), tmp13 & xmask, eviction_policy='evict_last', other=0.0) tmp17 = tmp16 > tmp6 tmp18 = tmp16 * tmp8 tmp19 = tl.where(tmp17, tmp16, tmp18) tmp20 = tl.full(tmp19.shape, 0.0, tmp19.dtype) tmp21 = tl.where(tmp13, tmp19, tmp20) tmp22 = tl.where(tmp4, tmp12, tmp21) tl.store(out_ptr0 + x2, tmp22, xmask) @triton.jit def triton_per_fused_leaky_relu_native_layer_norm_3(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, xnumel, rnumel, XBLOCK: tl.constexpr): xnumel = 4 RBLOCK: tl.constexpr = 8 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] tl.full([XBLOCK, RBLOCK], True, tl.int1) r1 = rindex x0 = xindex tmp0 = tl.load(in_ptr0 + (r1 + 8 * x0), xmask, other=0.0) tmp24 = tl.load(in_ptr1 + r1, None, eviction_policy='evict_last') tmp26 = tl.load(in_ptr2 + r1, None, eviction_policy='evict_last') tmp1 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tl.where(xmask, tmp1, 0) tmp4 = tl.broadcast_to(tmp1, [XBLOCK, RBLOCK]) tmp6 = tl.where(xmask, tmp4, 0) tmp7 = tl.sum(tmp6, 1)[:, None] tmp8 = tl.full([XBLOCK, 1], 8, tl.int32) tmp9 = tmp8.to(tl.float32) tmp10 = tmp7 / tmp9 tmp11 = tmp1 - tmp10 tmp12 = tmp11 * tmp11 tmp13 = tl.broadcast_to(tmp12, [XBLOCK, RBLOCK]) tmp15 = tl.where(xmask, tmp13, 0) tmp16 = tl.sum(tmp15, 1)[:, None] tmp17 = tmp0 - tmp10 tmp18 = 8.0 tmp19 = tmp16 / tmp18 tmp20 = 1e-05 tmp21 = tmp19 + tmp20 tmp22 = libdevice.rsqrt(tmp21) tmp23 = tmp17 * tmp22 tmp25 = tmp23 * tmp24 tmp27 = tmp25 + tmp26 tmp28 = 0.0 tmp29 = tmp27 > tmp28 tmp30 = 0.495 tmp31 = tmp27 * tmp30 tmp32 = tl.where(tmp29, tmp27, tmp31) tl.store(in_out_ptr0 + (r1 + 8 * x0), tmp32, xmask) @triton.jit def triton_poi_fused_leaky_relu_native_layer_norm_4(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 x0 = xindex % 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr1 + x1, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + x1, xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr3 + x0, xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr4 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 - tmp1 tmp4 = tmp2 * tmp3 tmp6 = tmp4 * tmp5 tmp8 = tmp6 + tmp7 tmp9 = 0.0 tmp10 = tmp8 > tmp9 tmp11 = 0.825 tmp12 = tmp8 * tmp11 tmp13 = tl.where(tmp10, tmp8, tmp12) tl.store(in_out_ptr0 + x2, tmp13, xmask) @triton.jit def triton_poi_fused_native_layer_norm_5(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 4 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + 2 * x0, xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + 2 * x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 2.0 tmp4 = tmp2 / tmp3 tl.store(out_ptr0 + x0, tmp4, xmask) @triton.jit def triton_poi_fused_native_layer_norm_6(in_ptr0, in_ptr1, in_ptr2, in_ptr3, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 8 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 2 x0 = xindex % 2 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr1 + x1, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + 2 * x1, xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (1 + 2 * x1), xmask, eviction_policy='evict_last') tmp16 = tl.load(in_ptr2 + x0, xmask, eviction_policy='evict_last') tmp18 = tl.load(in_ptr3 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 - tmp1 tmp4 = tmp3 - tmp1 tmp5 = tmp4 * tmp4 tmp7 = tmp6 - tmp1 tmp8 = tmp7 * tmp7 tmp9 = tmp5 + tmp8 tmp10 = 2.0 tmp11 = tmp9 / tmp10 tmp12 = 1e-05 tmp13 = tmp11 + tmp12 tmp14 = libdevice.rsqrt(tmp13) tmp15 = tmp2 * tmp14 tmp17 = tmp15 * tmp16 tmp19 = tmp17 + tmp18 tl.store(out_ptr0 + x2, tmp19, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13, primals_14, primals_15, primals_16, primals_17, primals_18, primals_19, primals_20, primals_21, primals_22, primals_23, primals_24) = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, 4), (4, 1)) assert_size_stride(primals_3, (4, 4), (4, 1)) assert_size_stride(primals_4, (4,), (1,)) assert_size_stride(primals_5, (4,), (1,)) assert_size_stride(primals_6, (4,), (1,)) assert_size_stride(primals_7, (4, 4), (4, 1)) assert_size_stride(primals_8, (4,), (1,)) assert_size_stride(primals_9, (4,), (1,)) assert_size_stride(primals_10, (4,), (1,)) assert_size_stride(primals_11, (8, 8), (8, 1)) assert_size_stride(primals_12, (8,), (1,)) assert_size_stride(primals_13, (8,), (1,)) assert_size_stride(primals_14, (8,), (1,)) assert_size_stride(primals_15, (4, 8), (8, 1)) assert_size_stride(primals_16, (4,), (1,)) assert_size_stride(primals_17, (4,), (1,)) assert_size_stride(primals_18, (4,), (1,)) assert_size_stride(primals_19, (2, 4), (4, 1)) assert_size_stride(primals_20, (2,), (1,)) assert_size_stride(primals_21, (2,), (1,)) assert_size_stride(primals_22, (2,), (1,)) assert_size_stride(primals_23, (1, 2), (2, 1)) assert_size_stride(primals_24, (1,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_4, primals_2, reinterpret_tensor( primals_3, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf0) del primals_3 del primals_4 buf1 = empty_strided_cuda((4, 1), (1, 4), torch.float32) buf2 = empty_strided_cuda((4, 1), (1, 4), torch.float32) get_raw_stream(0) triton_poi_fused_native_layer_norm_0[grid(4)](buf0, buf1, buf2, 4, XBLOCK=4, num_warps=1, num_stages=1) buf3 = empty_strided_cuda((4, 4), (4, 1), torch.float32) triton_poi_fused_native_layer_norm_1[grid(16)](buf0, buf1, buf2, primals_5, primals_6, buf3, 16, XBLOCK=16, num_warps=1, num_stages=1) buf4 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_8, primals_1, reinterpret_tensor( primals_7, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf4) del primals_7 del primals_8 buf5 = buf2 del buf2 buf6 = buf1 del buf1 triton_poi_fused_native_layer_norm_0[grid(4)](buf4, buf5, buf6, 4, XBLOCK=4, num_warps=1, num_stages=1) buf7 = empty_strided_cuda((4, 4), (4, 1), torch.float32) triton_poi_fused_native_layer_norm_1[grid(16)](buf4, buf5, buf6, primals_9, primals_10, buf7, 16, XBLOCK=16, num_warps=1, num_stages=1) buf8 = empty_strided_cuda((4, 8), (8, 1), torch.float32) triton_poi_fused_cat_2[grid(32)](buf3, buf7, buf8, 32, XBLOCK=32, num_warps=1, num_stages=1) buf9 = empty_strided_cuda((4, 8), (8, 1), torch.float32) extern_kernels.addmm(primals_12, buf8, reinterpret_tensor( primals_11, (8, 8), (1, 8), 0), alpha=1, beta=1, out=buf9) del primals_12 buf13 = empty_strided_cuda((4, 8), (8, 1), torch.float32) buf14 = buf13 del buf13 triton_per_fused_leaky_relu_native_layer_norm_3[grid(4)](buf14, buf9, primals_13, primals_14, 4, 8, XBLOCK=1, num_warps=2, num_stages=1) buf15 = buf7 del buf7 extern_kernels.addmm(primals_16, buf14, reinterpret_tensor( primals_15, (8, 4), (1, 8), 0), alpha=1, beta=1, out=buf15) del primals_16 buf16 = buf6 del buf6 buf17 = buf5 del buf5 triton_poi_fused_native_layer_norm_0[grid(4)](buf15, buf16, buf17, 4, XBLOCK=4, num_warps=1, num_stages=1) buf18 = buf3 del buf3 buf19 = buf18 del buf18 triton_poi_fused_leaky_relu_native_layer_norm_4[grid(16)](buf19, buf15, buf16, buf17, primals_17, primals_18, 16, XBLOCK=16, num_warps=1, num_stages=1) del buf16 buf20 = empty_strided_cuda((4, 2), (2, 1), torch.float32) extern_kernels.addmm(primals_20, buf19, reinterpret_tensor( primals_19, (4, 2), (1, 4), 0), alpha=1, beta=1, out=buf20) del primals_20 buf21 = buf17 del buf17 triton_poi_fused_native_layer_norm_5[grid(4)](buf20, buf21, 4, XBLOCK=4, num_warps=1, num_stages=1) buf22 = empty_strided_cuda((4, 2), (2, 1), torch.float32) triton_poi_fused_native_layer_norm_6[grid(8)](buf20, buf21, primals_21, primals_22, buf22, 8, XBLOCK=8, num_warps=1, num_stages=1) del primals_22 buf24 = reinterpret_tensor(buf21, (4, 1), (1, 1), 0) del buf21 extern_kernels.addmm(primals_24, buf22, reinterpret_tensor( primals_23, (2, 1), (1, 2), 0), alpha=1, beta=1, out=buf24) del primals_24 return (buf24, primals_5, primals_6, primals_9, primals_10, primals_13, primals_14, primals_17, primals_18, primals_21, primals_2, buf0, primals_1, buf4, buf8, buf9, buf14, buf15, buf19, buf20, buf22, primals_23, primals_19, primals_15, primals_11) class CriticNew(nn.Module): def __init__(self, hidden_size, action, num_inputs, spp_num_outputs, data_width=8): super(CriticNew, self).__init__() self.action = action self.num_outputs = self.action.shape[0] self.num_inputs = num_inputs self.spp_data_width = data_width self.spp_num_outputs = spp_num_outputs self.fc_num_inputs = sum([(i * i) for i in self.spp_num_outputs]) """ self.Cbx_res_block1 = nn.Sequential( nn.Conv2d(1, 128, kernel_size=1, padding=0), nn.BatchNorm2d(128), nn.RReLU(0.66, 0.99), nn.Conv2d(128, 128, kernel_size=3, padding=1), nn.BatchNorm2d(128), nn.RReLU(0.33, 0.66), nn.Conv2d(128, 1, kernel_size=3, padding=1), nn.BatchNorm2d(1) ) self.Cbx_res_block2 = nn.Sequential( nn.Conv2d(1, 128, kernel_size=1, padding=0), nn.BatchNorm2d(128), nn.RReLU(0.66, 0.99), nn.Conv2d(128, 128, kernel_size=3, padding=1), nn.BatchNorm2d(128), nn.RReLU(0.33, 0.66), nn.Conv2d(128, 1, kernel_size=3, padding=1), nn.BatchNorm2d(1) ) """ self.cfc11 = nn.Linear(self.num_outputs, hidden_size) self.ln11 = nn.LayerNorm(hidden_size) self.relu11 = nn.RReLU(0.01, 0.33) self.cfc12 = nn.Linear(self.num_inputs, hidden_size) self.ln12 = nn.LayerNorm(hidden_size) self.relu12 = nn.RReLU(0.01, 0.33) self.cfc2 = nn.Linear(hidden_size * 2, hidden_size * 2) self.ln2 = nn.LayerNorm(hidden_size * 2) self.relu2 = nn.RReLU(0.33, 0.66) self.cfc3 = nn.Linear(hidden_size * 2, hidden_size) self.ln3 = nn.LayerNorm(hidden_size) self.relu3 = nn.RReLU(0.66, 0.99) self.cfc4 = nn.Linear(hidden_size, hidden_size // 2) self.ln4 = nn.LayerNorm(hidden_size // 2) self.drop = nn.Dropout() self.V = nn.Linear(hidden_size // 2, 1) self.V.weight.data.mul_(0.1) self.V.bias.data.mul_(0.1) def forward(self, input_0, input_1): primals_1 = self.cfc11.weight primals_4 = self.cfc11.bias primals_5 = self.ln11.weight primals_6 = self.ln11.bias primals_2 = self.cfc12.weight primals_8 = self.cfc12.bias primals_9 = self.ln12.weight primals_10 = self.ln12.bias primals_11 = self.cfc2.weight primals_12 = self.cfc2.bias primals_13 = self.ln2.weight primals_14 = self.ln2.bias primals_15 = self.cfc3.weight primals_16 = self.cfc3.bias primals_17 = self.ln3.weight primals_18 = self.ln3.bias primals_19 = self.cfc4.weight primals_20 = self.cfc4.bias primals_21 = self.ln4.weight primals_22 = self.ln4.bias primals_23 = self.V.weight primals_24 = self.V.bias primals_3 = input_0 primals_7 = input_1 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13, primals_14, primals_15, primals_16, primals_17, primals_18, primals_19, primals_20, primals_21, primals_22, primals_23, primals_24]) return output[0]	GraceYYJ/cbx-k	Critic	false	9,079	[ "MIT" ]	1a955bc8d1675b8024763218482372dca982cc6c	https://github.com/GraceYYJ/cbx-k/tree/1a955bc8d1675b8024763218482372dca982cc6c
Decoder	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/qb/cqb3vtiomads7o6ymnn3sjvoftqw2fxs7kcu255cksqkcauhxdnm.py # Topologically Sorted Source Nodes: [est_source], Original ATen: [aten.clone] # Source node to ATen node mapping: # est_source => clone # Graph fragment: # %clone : [num_users=1] = call_function[target=torch.ops.aten.clone.default](args = (%permute,), kwargs = {memory_format: torch.contiguous_format}) triton_poi_fused_clone_0 = async_compile.triton('triton_poi_fused_clone_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16, 4], tile_hint=TileHint.DEFAULT, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_clone_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_clone_0(in_ptr0, in_ptr1, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 16 xnumel = 4 yoffset = tl.program_id(1) YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 4 y1 = (yindex // 4) tmp0 = tl.load(in_ptr0 + (x2 + (4y3)), xmask & ymask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (x2 + (4y0)), xmask & ymask, eviction_policy='evict_last') tmp2 = tmp0 * tmp1 tl.store(out_ptr0 + (y0 + (4x2) + (16y1)), tmp2, xmask & ymask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/ya/cyansxctlvhajqdzgxv2kjzkrfue2yk5b7zcghioinbkozfplw4p.py # Topologically Sorted Source Nodes: [contiguous_1], Original ATen: [aten.clone] # Source node to ATen node mapping: # contiguous_1 => clone_2 # Graph fragment: # %clone_2 : [num_users=1] = call_function[target=torch.ops.aten.clone.default](args = (%unfold,), kwargs = {memory_format: torch.contiguous_format}) triton_poi_fused_clone_1 = async_compile.triton('triton_poi_fused_clone_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[8], filename=__file__, triton_meta={'signature': {0: 'i64', 1: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0,), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_clone_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 0, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_clone_1(out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 8 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 2 x1 = (xindex // 2) x2 = xindex tmp0 = x0 + x1 tl.store(out_ptr0 + (x2), tmp0, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/rq/crqzm22z7mq3o7bwfiiomiykhemwodzsakf2v6h7bjpdqhfbuurg.py # Topologically Sorted Source Nodes: [result], Original ATen: [aten.new_zeros] # Source node to ATen node mapping: # result => full_default # Graph fragment: # %full_default : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([4, 1, 4, 5, 2], 0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) triton_poi_fused_new_zeros_2 = async_compile.triton('triton_poi_fused_new_zeros_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_new_zeros_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 0, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_new_zeros_2(out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 160 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = 0.0 tl.store(out_ptr0 + (x0), tmp0, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/bv/cbvi5v4haqxjalbdx6io67jiarq7hydzbfzpcz27hjo3ppc7xq3x.py # Topologically Sorted Source Nodes: [result, index_add_], Original ATen: [aten.new_zeros, aten.index_add] # Source node to ATen node mapping: # index_add_ => index_put # result => full_default # Graph fragment: # %full_default : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([4, 1, 4, 5, 2], 0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %index_put : [num_users=1] = call_function[target=torch.ops.aten.index_put_.default](args = (%full_default, [None, None, None, %view_4], %view_3, True), kwargs = {}) triton_poi_fused_index_add_new_zeros_3 = async_compile.triton('triton_poi_fused_index_add_new_zeros_3', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'i64', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_index_add_new_zeros_3', 'mutated_arg_names': ['out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_index_add_new_zeros_3(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = (xindex // 2) % 8 x2 = (xindex // 16) % 4 x3 = (xindex // 64) x4 = xindex % 16 x0 = xindex % 2 x5 = (xindex // 16) tmp0 = tl.load(in_ptr0 + (x1), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr1 + ((4x2) + (16(x4 // 4)) + (64x3) + (64((x4 + (16x2)) // 64)) + (x4 % 4)), xmask) tmp1 = tl.full([XBLOCK], 5, tl.int32) tmp2 = tmp0 + tmp1 tmp3 = tmp0 < 0 tmp4 = tl.where(tmp3, tmp2, tmp0) tl.device_assert(((0 <= tmp4) & (tmp4 < 5)) \| ~(xmask), "index out of bounds: 0 <= tmp4 < 5") tl.atomic_add(out_ptr0 + (x0 + (2tmp4) + (10*x5)), tmp6, xmask, sem='relaxed') ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_2, (4, 4), (4, 1)) assert_size_stride(primals_3, (16, 4), (4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 1, 4, 4), (16, 1, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [est_source], Original ATen: [aten.clone] stream0 = get_raw_stream(0) triton_poi_fused_clone_0.run(primals_1, primals_2, buf0, 16, 4, grid=grid(16, 4), stream=stream0) del primals_1 del primals_2 buf1 = empty_strided_cuda((16, 16), (16, 1), torch.float32) # Topologically Sorted Source Nodes: [est_source], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(buf0, (16, 4), (4, 1), 0), reinterpret_tensor(primals_3, (4, 16), (1, 4), 0), out=buf1) del primals_3 buf2 = empty_strided_cuda((4, 2), (2, 1), torch.int64) # Topologically Sorted Source Nodes: [contiguous_1], Original ATen: [aten.clone] triton_poi_fused_clone_1.run(buf2, 8, grid=grid(8), stream=stream0) buf3 = empty_strided_cuda((4, 1, 4, 5, 2), (40, 40, 10, 2, 1), torch.float32) # Topologically Sorted Source Nodes: [result], Original ATen: [aten.new_zeros] triton_poi_fused_new_zeros_2.run(buf3, 160, grid=grid(160), stream=stream0) # Topologically Sorted Source Nodes: [result, index_add_], Original ATen: [aten.new_zeros, aten.index_add] triton_poi_fused_index_add_new_zeros_3.run(buf2, buf1, buf3, 256, grid=grid(256), stream=stream0) del buf1 return (reinterpret_tensor(buf3, (4, 1, 4, 10), (40, 40, 10, 1), 0), reinterpret_tensor(buf0, (16, 4), (4, 1), 0), reinterpret_tensor(buf2, (8, ), (1, ), 0), ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((16, 4), (4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import math import torch from torch import nn import torch.hub def overlap_and_add(signal, frame_step): outer_dimensions = signal.size()[:-2] frames, frame_length = signal.size()[-2:] subframe_length = math.gcd(frame_length, frame_step) subframe_step = frame_step // subframe_length subframes_per_frame = frame_length // subframe_length output_size = frame_step * (frames - 1) + frame_length output_subframes = output_size // subframe_length subframe_signal = signal.view(outer_dimensions, -1, subframe_length) frame = torch.arange(0, output_subframes, device=signal.device).unfold( 0, subframes_per_frame, subframe_step) frame = frame.long() frame = frame.contiguous().view(-1) result = signal.new_zeros(outer_dimensions, output_subframes, subframe_length) result.index_add_(-2, frame, subframe_signal) result = result.view(outer_dimensions, -1) return result class Decoder(nn.Module): def __init__(self, N, L, audio_channels): super(Decoder, self).__init__() self.N, self.L = N, L self.audio_channels = audio_channels self.basis_signals = nn.Linear(N, audio_channels L, bias=False) def forward(self, mixture_w, est_mask): """ Args: mixture_w: [M, N, K] est_mask: [M, C, N, K] Returns: est_source: [M, C, T] """ source_w = torch.unsqueeze(mixture_w, 1) * est_mask source_w = torch.transpose(source_w, 2, 3) est_source = self.basis_signals(source_w) m, c, k, _ = est_source.size() est_source = est_source.view(m, c, k, self.audio_channels, -1 ).transpose(2, 3).contiguous() est_source = overlap_and_add(est_source, self.L // 2) return est_source def get_inputs(): return [torch.rand([4, 4, 4]), torch.rand([4, 4])] def get_init_inputs(): return [[], {'N': 4, 'L': 4, 'audio_channels': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import math from torch import nn import torch.hub assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_clone_0(in_ptr0, in_ptr1, out_ptr0, ynumel, xnumel, YBLOCK: tl.constexpr, XBLOCK: tl.constexpr): ynumel = 16 xnumel = 4 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 4 y1 = yindex // 4 tmp0 = tl.load(in_ptr0 + (x2 + 4 * y3), xmask & ymask, eviction_policy= 'evict_last') tmp1 = tl.load(in_ptr1 + (x2 + 4 * y0), xmask & ymask, eviction_policy= 'evict_last') tmp2 = tmp0 * tmp1 tl.store(out_ptr0 + (y0 + 4 * x2 + 16 * y1), tmp2, xmask & ymask) @triton.jit def triton_poi_fused_clone_1(out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 8 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 2 x1 = xindex // 2 x2 = xindex tmp0 = x0 + x1 tl.store(out_ptr0 + x2, tmp0, xmask) @triton.jit def triton_poi_fused_new_zeros_2(out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 160 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = 0.0 tl.store(out_ptr0 + x0, tmp0, xmask) @triton.jit def triton_poi_fused_index_add_new_zeros_3(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = xindex // 2 % 8 x2 = xindex // 16 % 4 x3 = xindex // 64 x4 = xindex % 16 x0 = xindex % 2 x5 = xindex // 16 tmp0 = tl.load(in_ptr0 + x1, xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr1 + (4 * x2 + 16 * (x4 // 4) + 64 * x3 + 64 * ((x4 + 16 * x2) // 64) + x4 % 4), xmask) tmp1 = tl.full([XBLOCK], 5, tl.int32) tmp2 = tmp0 + tmp1 tmp3 = tmp0 < 0 tmp4 = tl.where(tmp3, tmp2, tmp0) tl.device_assert((0 <= tmp4) & (tmp4 < 5) \| ~xmask, 'index out of bounds: 0 <= tmp4 < 5') tl.atomic_add(out_ptr0 + (x0 + 2 * tmp4 + 10 * x5), tmp6, xmask, sem= 'relaxed') def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_2, (4, 4), (4, 1)) assert_size_stride(primals_3, (16, 4), (4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 1, 4, 4), (16, 1, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_clone_0[grid(16, 4)](primals_1, primals_2, buf0, 16, 4, XBLOCK=4, YBLOCK=16, num_warps=1, num_stages=1) del primals_1 del primals_2 buf1 = empty_strided_cuda((16, 16), (16, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf0, (16, 4), (4, 1), 0), reinterpret_tensor(primals_3, (4, 16), (1, 4), 0), out=buf1) del primals_3 buf2 = empty_strided_cuda((4, 2), (2, 1), torch.int64) triton_poi_fused_clone_1[grid(8)](buf2, 8, XBLOCK=8, num_warps=1, num_stages=1) buf3 = empty_strided_cuda((4, 1, 4, 5, 2), (40, 40, 10, 2, 1), torch.float32) triton_poi_fused_new_zeros_2[grid(160)](buf3, 160, XBLOCK=128, num_warps=4, num_stages=1) triton_poi_fused_index_add_new_zeros_3[grid(256)](buf2, buf1, buf3, 256, XBLOCK=256, num_warps=4, num_stages=1) del buf1 return reinterpret_tensor(buf3, (4, 1, 4, 10), (40, 40, 10, 1), 0 ), reinterpret_tensor(buf0, (16, 4), (4, 1), 0), reinterpret_tensor( buf2, (8,), (1,), 0) def overlap_and_add(signal, frame_step): outer_dimensions = signal.size()[:-2] frames, frame_length = signal.size()[-2:] subframe_length = math.gcd(frame_length, frame_step) subframe_step = frame_step // subframe_length subframes_per_frame = frame_length // subframe_length output_size = frame_step * (frames - 1) + frame_length output_subframes = output_size // subframe_length subframe_signal = signal.view(outer_dimensions, -1, subframe_length) frame = torch.arange(0, output_subframes, device=signal.device).unfold( 0, subframes_per_frame, subframe_step) frame = frame.long() frame = frame.contiguous().view(-1) result = signal.new_zeros(outer_dimensions, output_subframes, subframe_length) result.index_add_(-2, frame, subframe_signal) result = result.view(outer_dimensions, -1) return result class DecoderNew(nn.Module): def __init__(self, N, L, audio_channels): super(DecoderNew, self).__init__() self.N, self.L = N, L self.audio_channels = audio_channels self.basis_signals = nn.Linear(N, audio_channels L, bias=False) def forward(self, input_0, input_1): primals_3 = self.basis_signals.weight primals_1 = input_0 primals_2 = input_1 output = call([primals_1, primals_2, primals_3]) return output[0]	FindingBen/demucs-copy	Decoder	false	9,080	[ "MIT" ]	b607e9c91b776eb03bf95a2aa9c4900c92fc7c3f	https://github.com/FindingBen/demucs-copy/tree/b607e9c91b776eb03bf95a2aa9c4900c92fc7c3f
TLU	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/cx/ccxf66rqhne57tzktyn4px2euzht4rw75vuy3fmua4ausvcns3e5.py # Topologically Sorted Source Nodes: [max_1], Original ATen: [aten.maximum, aten.eq, aten.gt] # Source node to ATen node mapping: # max_1 => maximum # Graph fragment: # %maximum : [num_users=1] = call_function[target=torch.ops.aten.maximum.default](args = (%primals_2, %view), kwargs = {}) # %eq : [num_users=1] = call_function[target=torch.ops.aten.eq.Tensor](args = (%primals_2, %view), kwargs = {}) # %gt : [num_users=1] = call_function[target=torch.ops.aten.gt.Tensor](args = (%primals_2, %view), kwargs = {}) triton_poi_fused_eq_gt_maximum_0 = async_compile.triton('triton_poi_fused_eq_gt_maximum_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i1', 4: 'i1', 5: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_eq_gt_maximum_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_eq_gt_maximum_0(in_ptr0, in_ptr1, out_ptr0, out_ptr1, out_ptr2, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 16) % 4 tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr1 + (x1), xmask, eviction_policy='evict_last') tmp2 = triton_helpers.maximum(tmp0, tmp1) tmp3 = tmp0 == tmp1 tmp4 = tmp0 > tmp1 tl.store(out_ptr0 + (x3), tmp2, xmask) tl.store(out_ptr1 + (x3), tmp3, xmask) tl.store(out_ptr2 + (x3), tmp4, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2 = args args.clear() assert_size_stride(primals_1, (4, ), (1, )) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) buf2 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) # Topologically Sorted Source Nodes: [max_1], Original ATen: [aten.maximum, aten.eq, aten.gt] stream0 = get_raw_stream(0) triton_poi_fused_eq_gt_maximum_0.run(primals_2, primals_1, buf0, buf1, buf2, 256, grid=grid(256), stream=stream0) del primals_1 del primals_2 return (buf0, buf1, buf2, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch from torch import nn from torch.nn import Parameter from torch.nn.parameter import Parameter class TLU(nn.Module): def __init__(self, num_features): """max(y, tau) = max(y - tau, 0) + tau = ReLU(y - tau) + tau""" super(TLU, self).__init__() self.num_features = num_features self.tau = Parameter(torch.Tensor(num_features)) self.reset_parameters() def reset_parameters(self): nn.init.zeros_(self.tau) def extra_repr(self): return 'num_features={num_features}'.format(**self.__dict__) def forward(self, x): return torch.max(x, self.tau.view(1, self.num_features, 1, 1)) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'num_features': 4}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch import nn from torch.nn import Parameter from torch.nn.parameter import Parameter assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_eq_gt_maximum_0(in_ptr0, in_ptr1, out_ptr0, out_ptr1, out_ptr2, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = xindex // 16 % 4 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr1 + x1, xmask, eviction_policy='evict_last') tmp2 = triton_helpers.maximum(tmp0, tmp1) tmp3 = tmp0 == tmp1 tmp4 = tmp0 > tmp1 tl.store(out_ptr0 + x3, tmp2, xmask) tl.store(out_ptr1 + x3, tmp3, xmask) tl.store(out_ptr2 + x3, tmp4, xmask) def call(args): primals_1, primals_2 = args args.clear() assert_size_stride(primals_1, (4,), (1,)) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) buf2 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) get_raw_stream(0) triton_poi_fused_eq_gt_maximum_0[grid(256)](primals_2, primals_1, buf0, buf1, buf2, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_1 del primals_2 return buf0, buf1, buf2 class TLUNew(nn.Module): def __init__(self, num_features): """max(y, tau) = max(y - tau, 0) + tau = ReLU(y - tau) + tau""" super(TLUNew, self).__init__() self.num_features = num_features self.tau = Parameter(torch.Tensor(num_features)) self.reset_parameters() def reset_parameters(self): nn.init.zeros_(self.tau) def extra_repr(self): return 'num_features={num_features}'.format(**self.__dict__) def forward(self, input_0): primals_1 = self.tau primals_2 = input_0 output = call([primals_1, primals_2]) return output[0]	DengpanFu/fast-reid-v0	TLU	false	9,081	[ "Apache-2.0" ]	e444c0187ccb6ef3b8348f8c5f0c5a0814b3683e	https://github.com/DengpanFu/fast-reid-v0/tree/e444c0187ccb6ef3b8348f8c5f0c5a0814b3683e
PixelUnshuffle	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/4p/c4p44objd5olb2fdud65n5wwlcxma5kzcjk4syrbqwvwecaiees6.py # Topologically Sorted Source Nodes: [contiguous_1], Original ATen: [aten.clone] # Source node to ATen node mapping: # contiguous_1 => clone # Graph fragment: # %clone : [num_users=1] = call_function[target=torch.ops.aten.clone.default](args = (%permute,), kwargs = {memory_format: torch.contiguous_format}) triton_poi_fused_clone_0 = async_compile.triton('triton_poi_fused_clone_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64, 4], tile_hint=TileHint.SQUARE, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_clone_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_clone_0(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 64 xnumel = 4 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x3 = xindex % 2 x4 = (xindex // 2) y0 = yindex % 2 y1 = (yindex // 2) % 2 y2 = (yindex // 4) x6 = xindex y5 = yindex tmp0 = tl.load(in_ptr0 + (y0 + (2x3) + (4y1) + (8x4) + (16y2)), xmask & ymask, eviction_policy='evict_last') tl.store(out_ptr0 + (x6 + (4*y5)), tmp0, xmask & ymask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 2, 2, 2, 2), (64, 16, 8, 4, 2, 1), torch.float32) # Topologically Sorted Source Nodes: [contiguous_1], Original ATen: [aten.clone] stream0 = get_raw_stream(0) triton_poi_fused_clone_0.run(arg0_1, buf0, 64, 4, grid=grid(64, 4), stream=stream0) del arg0_1 return (reinterpret_tensor(buf0, (4, 16, 2, 2), (64, 4, 2, 1), 0), ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch from torch import nn import torch.utils.data class PixelUnshuffle(nn.Module): """ Initialize: inplanes, planes, upscale_factor OUTPUT: (planes // upscale_factor^2) * ht * wd """ def __init__(self, downscale_factor=2): super(PixelUnshuffle, self).__init__() self._r = downscale_factor def forward(self, x): b, c, h, w = x.shape out_c = c * (self._r * self._r) out_h = h // self._r out_w = w // self._r x_view = x.contiguous().view(b, c, out_h, self._r, out_w, self._r) x_prime = x_view.permute(0, 1, 3, 5, 2, 4).contiguous().view(b, out_c, out_h, out_w) return x_prime def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch import nn import torch.utils.data assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_clone_0(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK: tl. constexpr, XBLOCK: tl.constexpr): ynumel = 64 xnumel = 4 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x3 = xindex % 2 x4 = xindex // 2 y0 = yindex % 2 y1 = yindex // 2 % 2 y2 = yindex // 4 x6 = xindex y5 = yindex tmp0 = tl.load(in_ptr0 + (y0 + 2 * x3 + 4 * y1 + 8 * x4 + 16 * y2), xmask & ymask, eviction_policy='evict_last') tl.store(out_ptr0 + (x6 + 4 * y5), tmp0, xmask & ymask) def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 2, 2, 2, 2), (64, 16, 8, 4, 2, 1), torch.float32) get_raw_stream(0) triton_poi_fused_clone_0[grid(64, 4)](arg0_1, buf0, 64, 4, XBLOCK=4, YBLOCK=32, num_warps=4, num_stages=1) del arg0_1 return reinterpret_tensor(buf0, (4, 16, 2, 2), (64, 4, 2, 1), 0), class PixelUnshuffleNew(nn.Module): """ Initialize: inplanes, planes, upscale_factor OUTPUT: (planes // upscale_factor^2) * ht * wd """ def __init__(self, downscale_factor=2): super(PixelUnshuffleNew, self).__init__() self._r = downscale_factor def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	HwangToeMat/tmp	PixelUnshuffle	false	9,082	[ "Apache-2.0" ]	a4f48443b16b5e07a9cf95f54651ade8c7669134	https://github.com/HwangToeMat/tmp/tree/a4f48443b16b5e07a9cf95f54651ade8c7669134
AnyHead	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/l3/cl35tzbhrd24dhunkbb6gjs54aklpyr46oikqhoylcgmkcmhujil.py # Topologically Sorted Source Nodes: [x], Original ATen: [aten.mean] # Source node to ATen node mapping: # x => mean # Graph fragment: # %mean : [num_users=1] = call_function[target=torch.ops.aten.mean.dim](args = (%primals_1, [-1, -2], True), kwargs = {}) triton_per_fused_mean_0 = async_compile.triton('triton_per_fused_mean_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[16, 16], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_mean_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 1, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_mean_0(in_out_ptr0, in_ptr0, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 16 rnumel = 16 RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) r1 = rindex x0 = xindex tmp0 = tl.load(in_ptr0 + (r1 + (16*x0)), xmask, other=0.0) tmp1 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp3 = tl.where(xmask, tmp1, 0) tmp4 = tl.sum(tmp3, 1)[:, None] tmp5 = 16.0 tmp6 = tmp4 / tmp5 tl.debug_barrier() tl.store(in_out_ptr0 + (x0), tmp6, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4, 4), (4, 1)) assert_size_stride(primals_3, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 16, 16), torch.float32) buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [x], Original ATen: [aten.mean] stream0 = get_raw_stream(0) triton_per_fused_mean_0.run(buf1, primals_1, 16, 16, grid=grid(16), stream=stream0) del primals_1 buf2 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [x_2], Original ATen: [aten.addmm] extern_kernels.addmm(primals_3, reinterpret_tensor(buf1, (4, 4), (4, 1), 0), reinterpret_tensor(primals_2, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf2) del primals_2 del primals_3 return (buf2, reinterpret_tensor(buf1, (4, 4), (4, 1), 0), ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch from torch import nn class AnyHead(nn.Module): """AnyNet head.""" def __init__(self, w_in, nc): super(AnyHead, self).__init__() self.avg_pool = nn.AdaptiveAvgPool2d((1, 1)) self.fc = nn.Linear(w_in, nc, bias=True) def forward(self, x): x = self.avg_pool(x) x = x.view(x.size(0), -1) x = self.fc(x) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'w_in': 4, 'nc': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch import nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_per_fused_mean_0(in_out_ptr0, in_ptr0, xnumel, rnumel, XBLOCK: tl.constexpr): xnumel = 16 RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] tl.full([XBLOCK, RBLOCK], True, tl.int1) r1 = rindex x0 = xindex tmp0 = tl.load(in_ptr0 + (r1 + 16 * x0), xmask, other=0.0) tmp1 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp3 = tl.where(xmask, tmp1, 0) tmp4 = tl.sum(tmp3, 1)[:, None] tmp5 = 16.0 tmp6 = tmp4 / tmp5 tl.debug_barrier() tl.store(in_out_ptr0 + x0, tmp6, xmask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4, 4), (4, 1)) assert_size_stride(primals_3, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 16, 16), torch.float32) buf1 = buf0 del buf0 get_raw_stream(0) triton_per_fused_mean_0[grid(16)](buf1, primals_1, 16, 16, XBLOCK=8, num_warps=2, num_stages=1) del primals_1 buf2 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_3, reinterpret_tensor(buf1, (4, 4), (4, 1), 0), reinterpret_tensor(primals_2, (4, 4), (1, 4), 0), alpha =1, beta=1, out=buf2) del primals_2 del primals_3 return buf2, reinterpret_tensor(buf1, (4, 4), (4, 1), 0) class AnyHeadNew(nn.Module): """AnyNet head.""" def __init__(self, w_in, nc): super(AnyHeadNew, self).__init__() self.avg_pool = nn.AdaptiveAvgPool2d((1, 1)) self.fc = nn.Linear(w_in, nc, bias=True) def forward(self, input_0): primals_2 = self.fc.weight primals_3 = self.fc.bias primals_1 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	DengpanFu/fast-reid-v0	AnyHead	false	9,083	[ "Apache-2.0" ]	e444c0187ccb6ef3b8348f8c5f0c5a0814b3683e	https://github.com/DengpanFu/fast-reid-v0/tree/e444c0187ccb6ef3b8348f8c5f0c5a0814b3683e
BellMembFunc	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/eb/cebvdz62qer4oz5rwrmgolin6f7xce7tjvzcl2p4jvitglhropzk.py # Topologically Sorted Source Nodes: [sub, truediv, dist, pow_2, add, reciprocal], Original ATen: [aten.sub, aten.div, aten.pow, aten.add, aten.reciprocal] # Source node to ATen node mapping: # add => add # dist => pow_1 # pow_2 => pow_2 # reciprocal => reciprocal # sub => sub # truediv => div # Graph fragment: # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%primals_2, %primals_1), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%sub, %primals_3), kwargs = {}) # %pow_1 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%div, 2), kwargs = {}) # %pow_2 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Tensor](args = (%pow_1, %primals_4), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%pow_2, 1), kwargs = {}) # %reciprocal : [num_users=1] = call_function[target=torch.ops.aten.reciprocal.default](args = (%add,), kwargs = {}) triton_poi_fused_add_div_pow_reciprocal_sub_0 = async_compile.triton('triton_poi_fused_add_div_pow_reciprocal_sub_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_div_pow_reciprocal_sub_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_div_pow_reciprocal_sub_0(in_ptr0, in_ptr1, in_ptr2, in_ptr3, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = tl.load(in_ptr1 + (0)) tmp2 = tl.broadcast_to(tmp1, [XBLOCK]) tmp4 = tl.load(in_ptr2 + (0)) tmp5 = tl.broadcast_to(tmp4, [XBLOCK]) tmp8 = tl.load(in_ptr3 + (0)) tmp9 = tl.broadcast_to(tmp8, [XBLOCK]) tmp3 = tmp0 - tmp2 tmp6 = tmp3 / tmp5 tmp7 = tmp6 * tmp6 tmp10 = libdevice.pow(tmp7, tmp9) tmp11 = 1.0 tmp12 = tmp10 + tmp11 tmp13 = tl.full([1], 1, tl.int32) tmp14 = tmp13 / tmp12 tl.store(out_ptr0 + (x0), tmp14, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4 = args args.clear() assert_size_stride(primals_1, (), ()) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_3, (), ()) assert_size_stride(primals_4, (), ()) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [sub, truediv, dist, pow_2, add, reciprocal], Original ATen: [aten.sub, aten.div, aten.pow, aten.add, aten.reciprocal] stream0 = get_raw_stream(0) triton_poi_fused_add_div_pow_reciprocal_sub_0.run(primals_2, primals_1, primals_3, primals_4, buf0, 256, grid=grid(256), stream=stream0) return (buf0, primals_1, primals_2, primals_3, primals_4, buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((), (), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((), (), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((), (), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch def _mk_param(val): """Make a torch parameter from a scalar value""" if isinstance(val, torch.Tensor): val = val.item() return torch.nn.Parameter(torch.tensor(val, dtype=torch.float)) class BellMembFunc(torch.nn.Module): """ Generalised Bell membership function; defined by three parameters: a, the half-width (at the crossover point) b, controls the slope at the crossover point (which is -b/2a) c, the center point """ def __init__(self, a, b, c): super(BellMembFunc, self).__init__() self.register_parameter('a', _mk_param(a)) self.register_parameter('b', _mk_param(b)) self.register_parameter('c', _mk_param(c)) self.b.register_hook(BellMembFunc.b_log_hook) @staticmethod def b_log_hook(grad): """ Possibility of a log(0) in the grad for b, giving a nan. Fix this by replacing any nan in the grad with ~0. """ grad[torch.isnan(grad)] = 1e-09 return grad def forward(self, x): dist = torch.pow((x - self.c) / self.a, 2) return torch.reciprocal(1 + torch.pow(dist, self.b)) def pretty(self): return 'BellMembFunc {} {} {}'.format(self.a, self.b, self.c) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'a': 4, 'b': 4, 'c': 4}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import libdevice assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_add_div_pow_reciprocal_sub_0(in_ptr0, in_ptr1, in_ptr2, in_ptr3, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = tl.load(in_ptr1 + 0) tmp2 = tl.broadcast_to(tmp1, [XBLOCK]) tmp4 = tl.load(in_ptr2 + 0) tmp5 = tl.broadcast_to(tmp4, [XBLOCK]) tmp8 = tl.load(in_ptr3 + 0) tmp9 = tl.broadcast_to(tmp8, [XBLOCK]) tmp3 = tmp0 - tmp2 tmp6 = tmp3 / tmp5 tmp7 = tmp6 * tmp6 tmp10 = libdevice.pow(tmp7, tmp9) tmp11 = 1.0 tmp12 = tmp10 + tmp11 tmp13 = tl.full([1], 1, tl.int32) tmp14 = tmp13 / tmp12 tl.store(out_ptr0 + x0, tmp14, xmask) def call(args): primals_1, primals_2, primals_3, primals_4 = args args.clear() assert_size_stride(primals_1, (), ()) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_3, (), ()) assert_size_stride(primals_4, (), ()) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_add_div_pow_reciprocal_sub_0[grid(256)](primals_2, primals_1, primals_3, primals_4, buf0, 256, XBLOCK=128, num_warps=4, num_stages=1) return buf0, primals_1, primals_2, primals_3, primals_4, buf0 def _mk_param(val): """Make a torch parameter from a scalar value""" if isinstance(val, torch.Tensor): val = val.item() return torch.nn.Parameter(torch.tensor(val, dtype=torch.float)) class BellMembFuncNew(torch.nn.Module): """ Generalised Bell membership function; defined by three parameters: a, the half-width (at the crossover point) b, controls the slope at the crossover point (which is -b/2a) c, the center point """ def __init__(self, a, b, c): super(BellMembFuncNew, self).__init__() self.register_parameter('a', _mk_param(a)) self.register_parameter('b', _mk_param(b)) self.register_parameter('c', _mk_param(c)) self.b.register_hook(BellMembFuncNew.b_log_hook) @staticmethod def b_log_hook(grad): """ Possibility of a log(0) in the grad for b, giving a nan. Fix this by replacing any nan in the grad with ~0. """ grad[torch.isnan(grad)] = 1e-09 return grad def pretty(self): return 'BellMembFunc {} {} {}'.format(self.a, self.b, self.c) def forward(self, input_0): primals_1 = self.a primals_3 = self.b primals_4 = self.c primals_2 = input_0 output = call([primals_1, primals_2, primals_3, primals_4]) return output[0]	GradyKurpasi/anfis-pytorch	BellMembFunc	false	9,084	[ "MIT" ]	4cce596193a8bc65e632405ca66d116c771033d7	https://github.com/GradyKurpasi/anfis-pytorch/tree/4cce596193a8bc65e632405ca66d116c771033d7
TwoLayerNet	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/ai/caitnpldotnv4k4oj67wyecd2ig4qcjrnmr35rmx6o2vxx245xs3.py # Topologically Sorted Source Nodes: [h_relu], Original ATen: [aten.clamp, aten.ge] # Source node to ATen node mapping: # h_relu => clamp_min # Graph fragment: # %clamp_min : [num_users=1] = call_function[target=torch.ops.aten.clamp_min.default](args = (%view_1, 0), kwargs = {}) # %ge : [num_users=1] = call_function[target=torch.ops.aten.ge.Scalar](args = (%view_1, 0), kwargs = {}) triton_poi_fused_clamp_ge_0 = async_compile.triton('triton_poi_fused_clamp_ge_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i1', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_clamp_ge_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_clamp_ge_0(in_ptr0, in_ptr1, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr1 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = triton_helpers.maximum(tmp2, tmp3) tmp5 = tmp2 >= tmp3 tl.store(out_ptr0 + (x2), tmp4, xmask) tl.store(out_ptr1 + (x2), tmp5, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf0) del primals_1 buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf3 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) # Topologically Sorted Source Nodes: [h_relu], Original ATen: [aten.clamp, aten.ge] stream0 = get_raw_stream(0) triton_poi_fused_clamp_ge_0.run(buf0, primals_2, buf1, buf3, 256, grid=grid(256), stream=stream0) del primals_2 buf2 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [y_pred], Original ATen: [aten.addmm] extern_kernels.addmm(primals_5, reinterpret_tensor(buf1, (64, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf2) del primals_5 return (reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0), reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(buf1, (64, 4), (4, 1), 0), primals_4, buf3, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch class TwoLayerNet(torch.nn.Module): """ From the pytorch examples, a simjple 2-layer neural net. https://pytorch.org/tutorials/beginner/pytorch_with_examples.html """ def __init__(self, d_in, hidden_size, d_out): super(TwoLayerNet, self).__init__() self.linear1 = torch.nn.Linear(d_in, hidden_size) self.linear2 = torch.nn.Linear(hidden_size, d_out) def forward(self, x): h_relu = self.linear1(x).clamp(min=0) y_pred = self.linear2(h_relu) return y_pred def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'d_in': 4, 'hidden_size': 4, 'd_out': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_clamp_ge_0(in_ptr0, in_ptr1, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr1 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = triton_helpers.maximum(tmp2, tmp3) tmp5 = tmp2 >= tmp3 tl.store(out_ptr0 + x2, tmp4, xmask) tl.store(out_ptr1 + x2, tmp5, xmask) def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf0) del primals_1 buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf3 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) get_raw_stream(0) triton_poi_fused_clamp_ge_0[grid(256)](buf0, primals_2, buf1, buf3, 256, XBLOCK=256, num_warps=4, num_stages=1) del primals_2 buf2 = buf0 del buf0 extern_kernels.addmm(primals_5, reinterpret_tensor(buf1, (64, 4), ( 4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf2) del primals_5 return reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0 ), reinterpret_tensor(primals_3, (64, 4), (4, 1), 0 ), reinterpret_tensor(buf1, (64, 4), (4, 1), 0), primals_4, buf3 class TwoLayerNetNew(torch.nn.Module): """ From the pytorch examples, a simjple 2-layer neural net. https://pytorch.org/tutorials/beginner/pytorch_with_examples.html """ def __init__(self, d_in, hidden_size, d_out): super(TwoLayerNetNew, self).__init__() self.linear1 = torch.nn.Linear(d_in, hidden_size) self.linear2 = torch.nn.Linear(hidden_size, d_out) def forward(self, input_0): primals_1 = self.linear1.weight primals_2 = self.linear1.bias primals_4 = self.linear2.weight primals_5 = self.linear2.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5]) return output[0]	GradyKurpasi/anfis-pytorch	TwoLayerNet	false	9,085	[ "MIT" ]	4cce596193a8bc65e632405ca66d116c771033d7	https://github.com/GradyKurpasi/anfis-pytorch/tree/4cce596193a8bc65e632405ca66d116c771033d7
ModelBasic	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/5t/c5tyhlk67qhsvexxq6ew4swntclr2csyb4zbg5gfvur7jufhvk4n.py # Topologically Sorted Source Nodes: [hidden], Original ATen: [aten.tanh] # Source node to ATen node mapping: # hidden => tanh # Graph fragment: # %add_tensor : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mm_default, %primals_3), kwargs = {}) # %tanh : [num_users=13] = call_function[target=torch.ops.aten.tanh.default](args = (%add_tensor,), kwargs = {}) triton_poi_fused_tanh_0 = async_compile.triton('triton_poi_fused_tanh_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[4096], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_tanh_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_tanh_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 3200 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 100 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = libdevice.tanh(tmp2) tl.store(in_out_ptr0 + (x2), tmp3, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/uo/cuoadam5vr6fhzma2fnfxnaxckee4rmerx4ndkky5y77nwwewaef.py # Topologically Sorted Source Nodes: [tanh_1, add, hidden_1], Original ATen: [aten.tanh, aten.add] # Source node to ATen node mapping: # add => add # hidden_1 => add_1 # tanh_1 => tanh_1 # Graph fragment: # %tanh_1 : [num_users=1] = call_function[target=torch.ops.aten.tanh.default](args = (%addmm_1,), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%tanh, %tanh_1), kwargs = {}) # %add_1 : [num_users=3] = call_function[target=torch.ops.aten.add.Tensor](args = (%add, %tanh), kwargs = {}) triton_poi_fused_add_tanh_1 = async_compile.triton('triton_poi_fused_add_tanh_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[4096], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_tanh_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_tanh_1(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 3200 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = tl.load(in_ptr1 + (x0), xmask) tmp2 = libdevice.tanh(tmp1) tmp3 = tmp0 + tmp2 tmp4 = tmp3 + tmp0 tl.store(out_ptr0 + (x0), tmp4, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/nc/cncgfkkpyrri4em47zh5vdzphsb5uohcwrlz3t6sfnrwbnvihm46.py # Topologically Sorted Source Nodes: [tanh_3, add_2, hidden_2], Original ATen: [aten.tanh, aten.add] # Source node to ATen node mapping: # add_2 => add_2 # hidden_2 => add_3 # tanh_3 => tanh_3 # Graph fragment: # %tanh_3 : [num_users=1] = call_function[target=torch.ops.aten.tanh.default](args = (%addmm_3,), kwargs = {}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%add_1, %tanh_3), kwargs = {}) # %add_3 : [num_users=3] = call_function[target=torch.ops.aten.add.Tensor](args = (%add_2, %tanh), kwargs = {}) triton_poi_fused_add_tanh_2 = async_compile.triton('triton_poi_fused_add_tanh_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[4096], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_tanh_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 3, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_tanh_2(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 3200 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = tl.load(in_ptr1 + (x0), xmask) tmp4 = tl.load(in_ptr2 + (x0), xmask) tmp2 = libdevice.tanh(tmp1) tmp3 = tmp0 + tmp2 tmp5 = tmp3 + tmp4 tl.store(out_ptr0 + (x0), tmp5, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (100, 8), (8, 1)) assert_size_stride(primals_3, (100, ), (1, )) assert_size_stride(primals_4, (100, 100), (100, 1)) assert_size_stride(primals_5, (100, ), (1, )) assert_size_stride(primals_6, (10, 100), (100, 1)) assert_size_stride(primals_7, (10, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((32, 100), (100, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_1, (32, 8), (8, 1), 0), reinterpret_tensor(primals_2, (8, 100), (1, 8), 0), out=buf0) del primals_2 buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [hidden], Original ATen: [aten.tanh] stream0 = get_raw_stream(0) triton_poi_fused_tanh_0.run(buf1, primals_3, 3200, grid=grid(3200), stream=stream0) del primals_3 buf2 = empty_strided_cuda((32, 100), (100, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_1], Original ATen: [aten.addmm] extern_kernels.addmm(primals_5, buf1, reinterpret_tensor(primals_4, (100, 100), (1, 100), 0), alpha=1, beta=1, out=buf2) buf3 = empty_strided_cuda((32, 100), (100, 1), torch.float32) # Topologically Sorted Source Nodes: [tanh_1, add, hidden_1], Original ATen: [aten.tanh, aten.add] triton_poi_fused_add_tanh_1.run(buf1, buf2, buf3, 3200, grid=grid(3200), stream=stream0) buf4 = empty_strided_cuda((32, 100), (100, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_3], Original ATen: [aten.addmm] extern_kernels.addmm(primals_5, buf3, reinterpret_tensor(primals_4, (100, 100), (1, 100), 0), alpha=1, beta=1, out=buf4) buf5 = empty_strided_cuda((32, 100), (100, 1), torch.float32) # Topologically Sorted Source Nodes: [tanh_3, add_2, hidden_2], Original ATen: [aten.tanh, aten.add] triton_poi_fused_add_tanh_2.run(buf3, buf4, buf1, buf5, 3200, grid=grid(3200), stream=stream0) buf6 = empty_strided_cuda((32, 100), (100, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_5], Original ATen: [aten.addmm] extern_kernels.addmm(primals_5, buf5, reinterpret_tensor(primals_4, (100, 100), (1, 100), 0), alpha=1, beta=1, out=buf6) buf7 = empty_strided_cuda((32, 100), (100, 1), torch.float32) # Topologically Sorted Source Nodes: [tanh_5, add_4, hidden_3], Original ATen: [aten.tanh, aten.add] triton_poi_fused_add_tanh_2.run(buf5, buf6, buf1, buf7, 3200, grid=grid(3200), stream=stream0) buf8 = empty_strided_cuda((32, 100), (100, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_7], Original ATen: [aten.addmm] extern_kernels.addmm(primals_5, buf7, reinterpret_tensor(primals_4, (100, 100), (1, 100), 0), alpha=1, beta=1, out=buf8) buf9 = empty_strided_cuda((32, 100), (100, 1), torch.float32) # Topologically Sorted Source Nodes: [tanh_7, add_6, hidden_4], Original ATen: [aten.tanh, aten.add] triton_poi_fused_add_tanh_2.run(buf7, buf8, buf1, buf9, 3200, grid=grid(3200), stream=stream0) buf10 = empty_strided_cuda((32, 100), (100, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_9], Original ATen: [aten.addmm] extern_kernels.addmm(primals_5, buf9, reinterpret_tensor(primals_4, (100, 100), (1, 100), 0), alpha=1, beta=1, out=buf10) buf11 = empty_strided_cuda((32, 100), (100, 1), torch.float32) # Topologically Sorted Source Nodes: [tanh_9, add_8, hidden_5], Original ATen: [aten.tanh, aten.add] triton_poi_fused_add_tanh_2.run(buf9, buf10, buf1, buf11, 3200, grid=grid(3200), stream=stream0) buf12 = empty_strided_cuda((32, 100), (100, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_11], Original ATen: [aten.addmm] extern_kernels.addmm(primals_5, buf11, reinterpret_tensor(primals_4, (100, 100), (1, 100), 0), alpha=1, beta=1, out=buf12) buf13 = empty_strided_cuda((32, 100), (100, 1), torch.float32) # Topologically Sorted Source Nodes: [tanh_11, add_10, hidden_6], Original ATen: [aten.tanh, aten.add] triton_poi_fused_add_tanh_2.run(buf11, buf12, buf1, buf13, 3200, grid=grid(3200), stream=stream0) buf14 = empty_strided_cuda((32, 100), (100, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_13], Original ATen: [aten.addmm] extern_kernels.addmm(primals_5, buf13, reinterpret_tensor(primals_4, (100, 100), (1, 100), 0), alpha=1, beta=1, out=buf14) buf15 = empty_strided_cuda((32, 100), (100, 1), torch.float32) # Topologically Sorted Source Nodes: [tanh_13, add_12, hidden_7], Original ATen: [aten.tanh, aten.add] triton_poi_fused_add_tanh_2.run(buf13, buf14, buf1, buf15, 3200, grid=grid(3200), stream=stream0) buf16 = empty_strided_cuda((32, 100), (100, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_15], Original ATen: [aten.addmm] extern_kernels.addmm(primals_5, buf15, reinterpret_tensor(primals_4, (100, 100), (1, 100), 0), alpha=1, beta=1, out=buf16) buf17 = empty_strided_cuda((32, 100), (100, 1), torch.float32) # Topologically Sorted Source Nodes: [tanh_15, add_14, hidden_8], Original ATen: [aten.tanh, aten.add] triton_poi_fused_add_tanh_2.run(buf15, buf16, buf1, buf17, 3200, grid=grid(3200), stream=stream0) buf18 = empty_strided_cuda((32, 100), (100, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_17], Original ATen: [aten.addmm] extern_kernels.addmm(primals_5, buf17, reinterpret_tensor(primals_4, (100, 100), (1, 100), 0), alpha=1, beta=1, out=buf18) buf19 = empty_strided_cuda((32, 100), (100, 1), torch.float32) # Topologically Sorted Source Nodes: [tanh_17, add_16, hidden_9], Original ATen: [aten.tanh, aten.add] triton_poi_fused_add_tanh_2.run(buf17, buf18, buf1, buf19, 3200, grid=grid(3200), stream=stream0) buf20 = empty_strided_cuda((32, 100), (100, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_19], Original ATen: [aten.addmm] extern_kernels.addmm(primals_5, buf19, reinterpret_tensor(primals_4, (100, 100), (1, 100), 0), alpha=1, beta=1, out=buf20) del primals_5 buf21 = empty_strided_cuda((32, 100), (100, 1), torch.float32) # Topologically Sorted Source Nodes: [tanh_19, add_18, hidden_10], Original ATen: [aten.tanh, aten.add] triton_poi_fused_add_tanh_2.run(buf19, buf20, buf1, buf21, 3200, grid=grid(3200), stream=stream0) buf22 = empty_strided_cuda((32, 10), (10, 1), torch.float32) # Topologically Sorted Source Nodes: [out], Original ATen: [aten.addmm] extern_kernels.addmm(primals_7, buf21, reinterpret_tensor(primals_6, (100, 10), (1, 100), 0), alpha=1, beta=1, out=buf22) del primals_7 return (buf22, reinterpret_tensor(primals_1, (32, 8), (8, 1), 0), buf1, buf2, buf3, buf4, buf5, buf6, buf7, buf8, buf9, buf10, buf11, buf12, buf13, buf14, buf15, buf16, buf17, buf18, buf19, buf20, buf21, primals_6, primals_4, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((100, 8), (8, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((100, ), (1, ), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((100, 100), (100, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((100, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((10, 100), (100, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((10, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class ModelBasic(nn.Module): """parallel passing of data, categorical output with one unit per number of clusters""" def __init__(self, n_obs, n_units=100, n_timesteps=10, max_K=10): super(ModelBasic, self).__init__() self.fc_input = nn.Linear(2 * n_obs, n_units) self.fc_output = nn.Linear(n_units, max_K) self.fc_recurrent = nn.Linear(n_units, n_units) self.n_obs = n_obs self.n_units = n_units self.n_timesteps = n_timesteps self.max_K = max_K def forward(self, x): inp = x.view(-1, 2 * self.n_obs) hidden = torch.tanh(self.fc_input(inp)) for i_time in range(self.n_timesteps): hidden = hidden + torch.tanh(self.fc_recurrent(hidden) ) + torch.tanh(self.fc_input(inp)) out = self.fc_output(hidden) return out def init_weights(self): nn.init.xavier_uniform_(self.fc_input.weight) nn.init.xavier_uniform_(self.fc_output.weight) nn.init.xavier_uniform_(self.fc_recurrent.weight) self.fc_input.bias.data.fill_(0) self.fc_output.bias.data.fill_(0) self.fc_recurrent.bias.data.fill_(0) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'n_obs': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import libdevice import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_tanh_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 3200 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 100 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = libdevice.tanh(tmp2) tl.store(in_out_ptr0 + x2, tmp3, xmask) @triton.jit def triton_poi_fused_add_tanh_1(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 3200 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = tl.load(in_ptr1 + x0, xmask) tmp2 = libdevice.tanh(tmp1) tmp3 = tmp0 + tmp2 tmp4 = tmp3 + tmp0 tl.store(out_ptr0 + x0, tmp4, xmask) @triton.jit def triton_poi_fused_add_tanh_2(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 3200 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = tl.load(in_ptr1 + x0, xmask) tmp4 = tl.load(in_ptr2 + x0, xmask) tmp2 = libdevice.tanh(tmp1) tmp3 = tmp0 + tmp2 tmp5 = tmp3 + tmp4 tl.store(out_ptr0 + x0, tmp5, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7) = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (100, 8), (8, 1)) assert_size_stride(primals_3, (100,), (1,)) assert_size_stride(primals_4, (100, 100), (100, 1)) assert_size_stride(primals_5, (100,), (1,)) assert_size_stride(primals_6, (10, 100), (100, 1)) assert_size_stride(primals_7, (10,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((32, 100), (100, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_1, (32, 8), (8, 1), 0), reinterpret_tensor(primals_2, (8, 100), (1, 8), 0), out=buf0) del primals_2 buf1 = buf0 del buf0 get_raw_stream(0) triton_poi_fused_tanh_0[grid(3200)](buf1, primals_3, 3200, XBLOCK= 128, num_warps=4, num_stages=1) del primals_3 buf2 = empty_strided_cuda((32, 100), (100, 1), torch.float32) extern_kernels.addmm(primals_5, buf1, reinterpret_tensor(primals_4, (100, 100), (1, 100), 0), alpha=1, beta=1, out=buf2) buf3 = empty_strided_cuda((32, 100), (100, 1), torch.float32) triton_poi_fused_add_tanh_1[grid(3200)](buf1, buf2, buf3, 3200, XBLOCK=128, num_warps=4, num_stages=1) buf4 = empty_strided_cuda((32, 100), (100, 1), torch.float32) extern_kernels.addmm(primals_5, buf3, reinterpret_tensor(primals_4, (100, 100), (1, 100), 0), alpha=1, beta=1, out=buf4) buf5 = empty_strided_cuda((32, 100), (100, 1), torch.float32) triton_poi_fused_add_tanh_2[grid(3200)](buf3, buf4, buf1, buf5, 3200, XBLOCK=256, num_warps=4, num_stages=1) buf6 = empty_strided_cuda((32, 100), (100, 1), torch.float32) extern_kernels.addmm(primals_5, buf5, reinterpret_tensor(primals_4, (100, 100), (1, 100), 0), alpha=1, beta=1, out=buf6) buf7 = empty_strided_cuda((32, 100), (100, 1), torch.float32) triton_poi_fused_add_tanh_2[grid(3200)](buf5, buf6, buf1, buf7, 3200, XBLOCK=256, num_warps=4, num_stages=1) buf8 = empty_strided_cuda((32, 100), (100, 1), torch.float32) extern_kernels.addmm(primals_5, buf7, reinterpret_tensor(primals_4, (100, 100), (1, 100), 0), alpha=1, beta=1, out=buf8) buf9 = empty_strided_cuda((32, 100), (100, 1), torch.float32) triton_poi_fused_add_tanh_2[grid(3200)](buf7, buf8, buf1, buf9, 3200, XBLOCK=256, num_warps=4, num_stages=1) buf10 = empty_strided_cuda((32, 100), (100, 1), torch.float32) extern_kernels.addmm(primals_5, buf9, reinterpret_tensor(primals_4, (100, 100), (1, 100), 0), alpha=1, beta=1, out=buf10) buf11 = empty_strided_cuda((32, 100), (100, 1), torch.float32) triton_poi_fused_add_tanh_2[grid(3200)](buf9, buf10, buf1, buf11, 3200, XBLOCK=256, num_warps=4, num_stages=1) buf12 = empty_strided_cuda((32, 100), (100, 1), torch.float32) extern_kernels.addmm(primals_5, buf11, reinterpret_tensor(primals_4, (100, 100), (1, 100), 0), alpha=1, beta=1, out=buf12) buf13 = empty_strided_cuda((32, 100), (100, 1), torch.float32) triton_poi_fused_add_tanh_2[grid(3200)](buf11, buf12, buf1, buf13, 3200, XBLOCK=256, num_warps=4, num_stages=1) buf14 = empty_strided_cuda((32, 100), (100, 1), torch.float32) extern_kernels.addmm(primals_5, buf13, reinterpret_tensor(primals_4, (100, 100), (1, 100), 0), alpha=1, beta=1, out=buf14) buf15 = empty_strided_cuda((32, 100), (100, 1), torch.float32) triton_poi_fused_add_tanh_2[grid(3200)](buf13, buf14, buf1, buf15, 3200, XBLOCK=256, num_warps=4, num_stages=1) buf16 = empty_strided_cuda((32, 100), (100, 1), torch.float32) extern_kernels.addmm(primals_5, buf15, reinterpret_tensor(primals_4, (100, 100), (1, 100), 0), alpha=1, beta=1, out=buf16) buf17 = empty_strided_cuda((32, 100), (100, 1), torch.float32) triton_poi_fused_add_tanh_2[grid(3200)](buf15, buf16, buf1, buf17, 3200, XBLOCK=256, num_warps=4, num_stages=1) buf18 = empty_strided_cuda((32, 100), (100, 1), torch.float32) extern_kernels.addmm(primals_5, buf17, reinterpret_tensor(primals_4, (100, 100), (1, 100), 0), alpha=1, beta=1, out=buf18) buf19 = empty_strided_cuda((32, 100), (100, 1), torch.float32) triton_poi_fused_add_tanh_2[grid(3200)](buf17, buf18, buf1, buf19, 3200, XBLOCK=256, num_warps=4, num_stages=1) buf20 = empty_strided_cuda((32, 100), (100, 1), torch.float32) extern_kernels.addmm(primals_5, buf19, reinterpret_tensor(primals_4, (100, 100), (1, 100), 0), alpha=1, beta=1, out=buf20) del primals_5 buf21 = empty_strided_cuda((32, 100), (100, 1), torch.float32) triton_poi_fused_add_tanh_2[grid(3200)](buf19, buf20, buf1, buf21, 3200, XBLOCK=256, num_warps=4, num_stages=1) buf22 = empty_strided_cuda((32, 10), (10, 1), torch.float32) extern_kernels.addmm(primals_7, buf21, reinterpret_tensor(primals_6, (100, 10), (1, 100), 0), alpha=1, beta=1, out=buf22) del primals_7 return (buf22, reinterpret_tensor(primals_1, (32, 8), (8, 1), 0), buf1, buf2, buf3, buf4, buf5, buf6, buf7, buf8, buf9, buf10, buf11, buf12, buf13, buf14, buf15, buf16, buf17, buf18, buf19, buf20, buf21, primals_6, primals_4) class ModelBasicNew(nn.Module): """parallel passing of data, categorical output with one unit per number of clusters""" def __init__(self, n_obs, n_units=100, n_timesteps=10, max_K=10): super(ModelBasicNew, self).__init__() self.fc_input = nn.Linear(2 * n_obs, n_units) self.fc_output = nn.Linear(n_units, max_K) self.fc_recurrent = nn.Linear(n_units, n_units) self.n_obs = n_obs self.n_units = n_units self.n_timesteps = n_timesteps self.max_K = max_K def init_weights(self): nn.init.xavier_uniform_(self.fc_input.weight) nn.init.xavier_uniform_(self.fc_output.weight) nn.init.xavier_uniform_(self.fc_recurrent.weight) self.fc_input.bias.data.fill_(0) self.fc_output.bias.data.fill_(0) self.fc_recurrent.bias.data.fill_(0) def forward(self, input_0): primals_2 = self.fc_input.weight primals_3 = self.fc_input.bias primals_6 = self.fc_output.weight primals_7 = self.fc_output.bias primals_4 = self.fc_recurrent.weight primals_5 = self.fc_recurrent.bias primals_1 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7]) return output[0]	HeikoSchuett/hard-inference	ModelBasic	false	9,086	[ "MIT" ]	eb850d97458dbbf8a5c434df71c802065c8e348f	https://github.com/HeikoSchuett/hard-inference/tree/eb850d97458dbbf8a5c434df71c802065c8e348f
MNIST_CNN	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/xd/cxdqslrdqajmcxikxhvxi7lkzd2yepfzcwkkltrpstapeq35h632.py # Unsorted Source Nodes: [], Original ATen: [] # Source node to ATen node mapping: triton_poi_fused_0 = async_compile.triton('triton_poi_fused_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256, 16], tile_hint=TileHint.SQUARE, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_0(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 256 xnumel = 9 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 4 y1 = (yindex // 4) tmp0 = tl.load(in_ptr0 + (x2 + (9y3)), xmask & ymask, eviction_policy='evict_last') tl.store(out_ptr0 + (y0 + (4x2) + (36y1)), tmp0, xmask & ymask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/j5/cj5nf2owtsdm2zwcezqxpyn63iwddjyadpotkhm2ua52inoqxdcl.py # Unsorted Source Nodes: [], Original ATen: [] # Source node to ATen node mapping: triton_poi_fused_1 = async_compile.triton('triton_poi_fused_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16, 16], tile_hint=TileHint.SQUARE, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_1(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 16 xnumel = 16 yoffset = tl.program_id(1) YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 4 y1 = (yindex // 4) tmp0 = tl.load(in_ptr0 + (x2 + (16y3)), xmask & ymask) tl.store(out_ptr0 + (y0 + (4x2) + (64y1)), tmp0, xmask & ymask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/ra/crarmf7s2qf36jg27hprl42qtwcxcnnoyrgzgevtstzj4qgsdzwl.py # Unsorted Source Nodes: [], Original ATen: [] # Source node to ATen node mapping: triton_poi_fused_2 = async_compile.triton('triton_poi_fused_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[8192, 16], tile_hint=TileHint.SQUARE, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_2(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 8192 xnumel = 9 yoffset = tl.program_id(1) YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = tl.full([XBLOCK, YBLOCK], True, tl.int1) xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 64 y1 = (yindex // 64) tmp0 = tl.load(in_ptr0 + (x2 + (9y3)), xmask, eviction_policy='evict_last') tl.store(out_ptr0 + (y0 + (64x2) + (576y1)), tmp0, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/dd/cddy2xs2uderg6rhu3vap3su355lmjpkrmadmh5gnbcfg2frfd5z.py # Unsorted Source Nodes: [], Original ATen: [] # Source node to ATen node mapping: triton_poi_fused_3 = async_compile.triton('triton_poi_fused_3', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16384, 16], tile_hint=TileHint.SQUARE, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_3', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_3(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 16384 xnumel = 9 yoffset = tl.program_id(1) YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = tl.full([XBLOCK, YBLOCK], True, tl.int1) xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 128 y1 = (yindex // 128) tmp0 = tl.load(in_ptr0 + (x2 + (9y3)), xmask, eviction_policy='evict_last') tl.store(out_ptr0 + (y0 + (128x2) + (1152y1)), tmp0, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/e4/ce4nidkyu2gtcdpalogjljsg5wvmcfnzpr4d7mxmzgqhcik7e3zy.py # Topologically Sorted Source Nodes: [x], Original ATen: [aten.convolution] # Source node to ATen node mapping: # x => convolution # Graph fragment: # %convolution : [num_users=2] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_3, %primals_1, %primals_2, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) triton_poi_fused_convolution_4 = async_compile.triton('triton_poi_fused_convolution_4', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[4096], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_4', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_4(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 4096 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x2 = xindex x0 = xindex % 64 tmp0 = tl.load(in_out_ptr0 + (x2), None) tmp1 = tl.load(in_ptr0 + (x0), None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + (x2), tmp2, None) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/uo/cuoq67x7pplkn56jmv4egzgakdmdolviuhclk6uuvy2isp3yvvam.py # Topologically Sorted Source Nodes: [x_2], Original ATen: [aten.native_group_norm] # Source node to ATen node mapping: # x_2 => add, rsqrt, var_mean # Graph fragment: # %var_mean : [num_users=2] = call_function[target=torch.ops.aten.var_mean.correction](args = (%view, [2, 3]), kwargs = {correction: 0, keepdim: True}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%getitem, 1e-05), kwargs = {}) # %rsqrt : [num_users=2] = call_function[target=torch.ops.aten.rsqrt.default](args = (%add,), kwargs = {}) triton_per_fused_native_group_norm_5 = async_compile.triton('triton_per_fused_native_group_norm_5', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[32, 128], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32', 5: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_native_group_norm_5', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 4, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_native_group_norm_5(in_ptr0, out_ptr0, out_ptr1, out_ptr2, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 32 rnumel = 128 RBLOCK: tl.constexpr = 128 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) r2 = rindex % 8 r3 = (rindex // 8) x0 = xindex % 8 x1 = (xindex // 8) x4 = xindex tmp0 = tl.load(in_ptr0 + (r2 + (8x0) + (64r3) + (1024x1)), xmask, other=0.0) tmp1 = tl.full([1, 1], 0, tl.int32) tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp3 = tl.broadcast_to(tmp2, [XBLOCK, RBLOCK]) tmp5 = tl.where(xmask, tmp3, 0) tmp6 = tl.broadcast_to(tmp3, [XBLOCK, RBLOCK]) tmp8 = tl.where(xmask, tmp6, 0) tmp9 = tl.sum(tmp8, 1)[:, None] tmp10 = tl.full([XBLOCK, 1], 128, tl.int32) tmp11 = tmp10.to(tl.float32) tmp12 = tmp9 / tmp11 tmp13 = tmp3 - tmp12 tmp14 = tmp13 tmp13 tmp15 = tl.broadcast_to(tmp14, [XBLOCK, RBLOCK]) tmp17 = tl.where(xmask, tmp15, 0) tmp18 = tl.sum(tmp17, 1)[:, None] tmp19 = 128.0 tmp20 = tmp18 / tmp19 tmp21 = 1e-05 tmp22 = tmp20 + tmp21 tmp23 = libdevice.rsqrt(tmp22) tl.store(out_ptr2 + (x4), tmp23, xmask) tl.store(out_ptr0 + (x4), tmp12, xmask) tl.store(out_ptr1 + (x4), tmp18, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/t3/ct3qwupet5zpwc3rrfmucbarfddm4ezt2y7zf5ute5oce57arckm.py # Topologically Sorted Source Nodes: [x_2], Original ATen: [aten.native_group_norm] # Source node to ATen node mapping: # x_2 => add_1, mul_1 # Graph fragment: # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_1, %unsqueeze_5), kwargs = {}) # %add_1 : [num_users=2] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_1, %unsqueeze_2), kwargs = {}) triton_poi_fused_native_group_norm_6 = async_compile.triton('triton_poi_fused_native_group_norm_6', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[4096], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'fp32', 6: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_native_group_norm_6', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_native_group_norm_6(in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 4096 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x3 = xindex x0 = xindex % 64 x2 = (xindex // 1024) tmp0 = tl.load(in_ptr0 + (x3), None) tmp3 = tl.load(in_ptr1 + ((8x2) + (x0 // 8)), None, eviction_policy='evict_last') tmp5 = tl.load(in_ptr2 + ((8x2) + (x0 // 8)), None, eviction_policy='evict_last') tmp12 = tl.load(in_ptr3 + (x0), None, eviction_policy='evict_last') tmp14 = tl.load(in_ptr4 + (x0), None, eviction_policy='evict_last') tmp1 = tl.full([1], 0, tl.int32) tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = tmp2 - tmp3 tmp6 = 128.0 tmp7 = tmp5 / tmp6 tmp8 = 1e-05 tmp9 = tmp7 + tmp8 tmp10 = libdevice.rsqrt(tmp9) tmp11 = tmp4 * tmp10 tmp13 = tmp11 * tmp12 tmp15 = tmp13 + tmp14 tl.store(out_ptr0 + (x3), tmp15, None) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/bo/cboj3lo2ix24qbhixyncx6gvd7fcgojynowxk4mu7hyobzavs4tx.py # Topologically Sorted Source Nodes: [x_3], Original ATen: [aten.convolution] # Source node to ATen node mapping: # x_3 => convolution_1 # Graph fragment: # %convolution_1 : [num_users=2] = call_function[target=torch.ops.aten.convolution.default](args = (%add_1, %primals_6, %primals_7, [2, 2], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) triton_poi_fused_convolution_7 = async_compile.triton('triton_poi_fused_convolution_7', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[2048], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_7', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_7(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 2048 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x2 = xindex x0 = xindex % 128 tmp0 = tl.load(in_out_ptr0 + (x2), None) tmp1 = tl.load(in_ptr0 + (x0), None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + (x2), tmp2, None) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/7q/c7q6tque53rs7lodp6ydfpgpqa75zh7pikmsrf2pnpy6czejrkpz.py # Topologically Sorted Source Nodes: [x_5], Original ATen: [aten.native_group_norm] # Source node to ATen node mapping: # x_5 => add_2, rsqrt_1, var_mean_1 # Graph fragment: # %var_mean_1 : [num_users=2] = call_function[target=torch.ops.aten.var_mean.correction](args = (%view_2, [2, 3]), kwargs = {correction: 0, keepdim: True}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%getitem_2, 1e-05), kwargs = {}) # %rsqrt_1 : [num_users=2] = call_function[target=torch.ops.aten.rsqrt.default](args = (%add_2,), kwargs = {}) triton_per_fused_native_group_norm_8 = async_compile.triton('triton_per_fused_native_group_norm_8', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[32, 64], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32', 5: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_native_group_norm_8', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 4, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_native_group_norm_8(in_ptr0, out_ptr0, out_ptr1, out_ptr2, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 32 rnumel = 64 RBLOCK: tl.constexpr = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) r2 = rindex % 16 r3 = (rindex // 16) x0 = xindex % 8 x1 = (xindex // 8) x4 = xindex tmp0 = tl.load(in_ptr0 + (r2 + (16x0) + (128r3) + (512x1)), xmask, other=0.0) tmp1 = tl.full([1, 1], 0, tl.int32) tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp3 = tl.broadcast_to(tmp2, [XBLOCK, RBLOCK]) tmp5 = tl.where(xmask, tmp3, 0) tmp6 = tl.broadcast_to(tmp3, [XBLOCK, RBLOCK]) tmp8 = tl.where(xmask, tmp6, 0) tmp9 = tl.sum(tmp8, 1)[:, None] tmp10 = tl.full([XBLOCK, 1], 64, tl.int32) tmp11 = tmp10.to(tl.float32) tmp12 = tmp9 / tmp11 tmp13 = tmp3 - tmp12 tmp14 = tmp13 tmp13 tmp15 = tl.broadcast_to(tmp14, [XBLOCK, RBLOCK]) tmp17 = tl.where(xmask, tmp15, 0) tmp18 = tl.sum(tmp17, 1)[:, None] tmp19 = 64.0 tmp20 = tmp18 / tmp19 tmp21 = 1e-05 tmp22 = tmp20 + tmp21 tmp23 = libdevice.rsqrt(tmp22) tl.store(out_ptr2 + (x4), tmp23, xmask) tl.store(out_ptr0 + (x4), tmp12, xmask) tl.store(out_ptr1 + (x4), tmp18, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/uu/cuu4nxa6fxukpo23zd5i5bbo3jmi4tcdz5jxk75g5k63t4k6dxob.py # Topologically Sorted Source Nodes: [x_5], Original ATen: [aten.native_group_norm] # Source node to ATen node mapping: # x_5 => add_3, mul_3 # Graph fragment: # %mul_3 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_3, %unsqueeze_11), kwargs = {}) # %add_3 : [num_users=2] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_3, %unsqueeze_8), kwargs = {}) triton_poi_fused_native_group_norm_9 = async_compile.triton('triton_poi_fused_native_group_norm_9', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[2048], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'fp32', 6: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_native_group_norm_9', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_native_group_norm_9(in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 2048 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x3 = xindex x0 = xindex % 128 x2 = (xindex // 512) tmp0 = tl.load(in_ptr0 + (x3), None) tmp3 = tl.load(in_ptr1 + ((8x2) + (x0 // 16)), None, eviction_policy='evict_last') tmp5 = tl.load(in_ptr2 + ((8x2) + (x0 // 16)), None, eviction_policy='evict_last') tmp12 = tl.load(in_ptr3 + (x0), None, eviction_policy='evict_last') tmp14 = tl.load(in_ptr4 + (x0), None, eviction_policy='evict_last') tmp1 = tl.full([1], 0, tl.int32) tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = tmp2 - tmp3 tmp6 = 64.0 tmp7 = tmp5 / tmp6 tmp8 = 1e-05 tmp9 = tmp7 + tmp8 tmp10 = libdevice.rsqrt(tmp9) tmp11 = tmp4 * tmp10 tmp13 = tmp11 * tmp12 tmp15 = tmp13 + tmp14 tl.store(out_ptr0 + (x3), tmp15, None) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/xr/cxrvhmzov25motoxdbptp5xb5kgxlq4dxjyz2c5uqkf2isadwdos.py # Topologically Sorted Source Nodes: [x_11, x_12], Original ATen: [aten.native_group_norm, aten.mean] # Source node to ATen node mapping: # x_11 => add_7, mul_7 # x_12 => mean # Graph fragment: # %mul_7 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_7, %unsqueeze_23), kwargs = {}) # %add_7 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_7, %unsqueeze_20), kwargs = {}) # %mean : [num_users=1] = call_function[target=torch.ops.aten.mean.dim](args = (%add_7, [-1, -2], True), kwargs = {}) triton_poi_fused_mean_native_group_norm_10 = async_compile.triton('triton_poi_fused_mean_native_group_norm_10', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[512], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'fp32', 6: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_mean_native_group_norm_10', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 8, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_mean_native_group_norm_10(in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 512 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 128 x1 = (xindex // 128) x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + (512x1)), xmask) tmp3 = tl.load(in_ptr1 + ((x2 // 16)), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr2 + ((x2 // 16)), xmask, eviction_policy='evict_last') tmp12 = tl.load(in_ptr3 + (x0), xmask, eviction_policy='evict_last') tmp14 = tl.load(in_ptr4 + (x0), xmask, eviction_policy='evict_last') tmp16 = tl.load(in_ptr0 + (128 + x0 + (512x1)), xmask) tmp23 = tl.load(in_ptr0 + (256 + x0 + (512x1)), xmask) tmp30 = tl.load(in_ptr0 + (384 + x0 + (512x1)), xmask) tmp1 = tl.full([1], 0, tl.int32) tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = tmp2 - tmp3 tmp6 = 64.0 tmp7 = tmp5 / tmp6 tmp8 = 1e-05 tmp9 = tmp7 + tmp8 tmp10 = libdevice.rsqrt(tmp9) tmp11 = tmp4 * tmp10 tmp13 = tmp11 * tmp12 tmp15 = tmp13 + tmp14 tmp17 = triton_helpers.maximum(tmp1, tmp16) tmp18 = tmp17 - tmp3 tmp19 = tmp18 * tmp10 tmp20 = tmp19 * tmp12 tmp21 = tmp20 + tmp14 tmp22 = tmp15 + tmp21 tmp24 = triton_helpers.maximum(tmp1, tmp23) tmp25 = tmp24 - tmp3 tmp26 = tmp25 * tmp10 tmp27 = tmp26 * tmp12 tmp28 = tmp27 + tmp14 tmp29 = tmp22 + tmp28 tmp31 = triton_helpers.maximum(tmp1, tmp30) tmp32 = tmp31 - tmp3 tmp33 = tmp32 * tmp10 tmp34 = tmp33 * tmp12 tmp35 = tmp34 + tmp14 tmp36 = tmp29 + tmp35 tmp37 = 4.0 tmp38 = tmp36 / tmp37 tl.store(out_ptr0 + (x2), tmp38, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13, primals_14, primals_15, primals_16, primals_17 = args args.clear() assert_size_stride(primals_1, (64, 4, 3, 3), (36, 9, 3, 1)) assert_size_stride(primals_2, (64, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (64, ), (1, )) assert_size_stride(primals_5, (64, ), (1, )) assert_size_stride(primals_6, (128, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_7, (128, ), (1, )) assert_size_stride(primals_8, (128, ), (1, )) assert_size_stride(primals_9, (128, ), (1, )) assert_size_stride(primals_10, (128, 128, 3, 3), (1152, 9, 3, 1)) assert_size_stride(primals_11, (128, ), (1, )) assert_size_stride(primals_12, (128, ), (1, )) assert_size_stride(primals_13, (128, ), (1, )) assert_size_stride(primals_14, (128, 128, 3, 3), (1152, 9, 3, 1)) assert_size_stride(primals_15, (128, ), (1, )) assert_size_stride(primals_16, (128, ), (1, )) assert_size_stride(primals_17, (128, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4, 3, 3), (36, 1, 12, 4), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] stream0 = get_raw_stream(0) triton_poi_fused_0.run(primals_1, buf0, 256, 9, grid=grid(256, 9), stream=stream0) del primals_1 buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 1, 16, 4), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] triton_poi_fused_1.run(primals_3, buf1, 16, 16, grid=grid(16, 16), stream=stream0) del primals_3 buf2 = empty_strided_cuda((128, 64, 3, 3), (576, 1, 192, 64), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] triton_poi_fused_2.run(primals_6, buf2, 8192, 9, grid=grid(8192, 9), stream=stream0) del primals_6 buf3 = empty_strided_cuda((128, 128, 3, 3), (1152, 1, 384, 128), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] triton_poi_fused_3.run(primals_10, buf3, 16384, 9, grid=grid(16384, 9), stream=stream0) del primals_10 buf4 = empty_strided_cuda((128, 128, 3, 3), (1152, 1, 384, 128), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] triton_poi_fused_3.run(primals_14, buf4, 16384, 9, grid=grid(16384, 9), stream=stream0) del primals_14 # Topologically Sorted Source Nodes: [x], Original ATen: [aten.convolution] buf5 = extern_kernels.convolution(buf1, buf0, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf5, (4, 64, 4, 4), (1024, 1, 256, 64)) buf6 = buf5; del buf5 # reuse # Topologically Sorted Source Nodes: [x], Original ATen: [aten.convolution] triton_poi_fused_convolution_4.run(buf6, primals_2, 4096, grid=grid(4096), stream=stream0) del primals_2 buf7 = empty_strided_cuda((4, 8, 1, 1), (8, 1, 32, 32), torch.float32) buf8 = empty_strided_cuda((4, 8, 1, 1), (8, 1, 32, 32), torch.float32) buf11 = empty_strided_cuda((4, 8, 1, 1), (8, 1, 32, 32), torch.float32) # Topologically Sorted Source Nodes: [x_2], Original ATen: [aten.native_group_norm] triton_per_fused_native_group_norm_5.run(buf6, buf7, buf8, buf11, 32, 128, grid=grid(32), stream=stream0) buf10 = empty_strided_cuda((4, 64, 4, 4), (1024, 1, 256, 64), torch.float32) # Topologically Sorted Source Nodes: [x_2], Original ATen: [aten.native_group_norm] triton_poi_fused_native_group_norm_6.run(buf6, buf7, buf8, primals_4, primals_5, buf10, 4096, grid=grid(4096), stream=stream0) del primals_5 # Topologically Sorted Source Nodes: [x_3], Original ATen: [aten.convolution] buf12 = extern_kernels.convolution(buf10, buf2, stride=(2, 2), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf12, (4, 128, 2, 2), (512, 1, 256, 128)) buf13 = buf12; del buf12 # reuse # Topologically Sorted Source Nodes: [x_3], Original ATen: [aten.convolution] triton_poi_fused_convolution_7.run(buf13, primals_7, 2048, grid=grid(2048), stream=stream0) del primals_7 buf14 = buf8; del buf8 # reuse buf15 = empty_strided_cuda((4, 8, 1, 1), (8, 1, 32, 32), torch.float32) buf18 = empty_strided_cuda((4, 8, 1, 1), (8, 1, 32, 32), torch.float32) # Topologically Sorted Source Nodes: [x_5], Original ATen: [aten.native_group_norm] triton_per_fused_native_group_norm_8.run(buf13, buf14, buf15, buf18, 32, 64, grid=grid(32), stream=stream0) buf17 = empty_strided_cuda((4, 128, 2, 2), (512, 1, 256, 128), torch.float32) # Topologically Sorted Source Nodes: [x_5], Original ATen: [aten.native_group_norm] triton_poi_fused_native_group_norm_9.run(buf13, buf14, buf15, primals_8, primals_9, buf17, 2048, grid=grid(2048), stream=stream0) del primals_9 # Topologically Sorted Source Nodes: [x_6], Original ATen: [aten.convolution] buf19 = extern_kernels.convolution(buf17, buf3, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf19, (4, 128, 2, 2), (512, 1, 256, 128)) buf20 = buf19; del buf19 # reuse # Topologically Sorted Source Nodes: [x_6], Original ATen: [aten.convolution] triton_poi_fused_convolution_7.run(buf20, primals_11, 2048, grid=grid(2048), stream=stream0) del primals_11 buf21 = buf15; del buf15 # reuse buf22 = empty_strided_cuda((4, 8, 1, 1), (8, 1, 32, 32), torch.float32) buf25 = empty_strided_cuda((4, 8, 1, 1), (8, 1, 32, 32), torch.float32) # Topologically Sorted Source Nodes: [x_8], Original ATen: [aten.native_group_norm] triton_per_fused_native_group_norm_8.run(buf20, buf21, buf22, buf25, 32, 64, grid=grid(32), stream=stream0) buf24 = empty_strided_cuda((4, 128, 2, 2), (512, 1, 256, 128), torch.float32) # Topologically Sorted Source Nodes: [x_8], Original ATen: [aten.native_group_norm] triton_poi_fused_native_group_norm_9.run(buf20, buf21, buf22, primals_12, primals_13, buf24, 2048, grid=grid(2048), stream=stream0) del primals_13 # Topologically Sorted Source Nodes: [x_9], Original ATen: [aten.convolution] buf26 = extern_kernels.convolution(buf24, buf4, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf26, (4, 128, 2, 2), (512, 1, 256, 128)) buf27 = buf26; del buf26 # reuse # Topologically Sorted Source Nodes: [x_9], Original ATen: [aten.convolution] triton_poi_fused_convolution_7.run(buf27, primals_15, 2048, grid=grid(2048), stream=stream0) del primals_15 buf28 = buf22; del buf22 # reuse buf29 = empty_strided_cuda((4, 8, 1, 1), (8, 1, 32, 32), torch.float32) buf31 = empty_strided_cuda((4, 8, 1, 1), (8, 1, 32, 32), torch.float32) # Topologically Sorted Source Nodes: [x_11], Original ATen: [aten.native_group_norm] triton_per_fused_native_group_norm_8.run(buf27, buf28, buf29, buf31, 32, 64, grid=grid(32), stream=stream0) buf32 = empty_strided_cuda((4, 128, 1, 1), (128, 1, 1, 1), torch.float32) # Topologically Sorted Source Nodes: [x_11, x_12], Original ATen: [aten.native_group_norm, aten.mean] triton_poi_fused_mean_native_group_norm_10.run(buf27, buf28, buf29, primals_16, primals_17, buf32, 512, grid=grid(512), stream=stream0) del buf29 del primals_17 return (reinterpret_tensor(buf32, (4, 128), (128, 1), 0), buf0, buf1, primals_4, buf2, primals_8, buf3, primals_12, buf4, primals_16, buf6, buf10, reinterpret_tensor(buf7, (4, 8), (8, 1), 0), reinterpret_tensor(buf11, (4, 8), (8, 1), 0), buf13, buf17, reinterpret_tensor(buf14, (4, 8), (8, 1), 0), reinterpret_tensor(buf18, (4, 8), (8, 1), 0), buf20, buf24, reinterpret_tensor(buf21, (4, 8), (8, 1), 0), reinterpret_tensor(buf25, (4, 8), (8, 1), 0), buf27, reinterpret_tensor(buf28, (4, 8), (8, 1), 0), reinterpret_tensor(buf31, (4, 8), (8, 1), 0), ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((64, 4, 3, 3), (36, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((64, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((64, ), (1, ), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((64, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((128, 64, 3, 3), (576, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((128, ), (1, ), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((128, ), (1, ), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((128, ), (1, ), device='cuda:0', dtype=torch.float32) primals_10 = rand_strided((128, 128, 3, 3), (1152, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_11 = rand_strided((128, ), (1, ), device='cuda:0', dtype=torch.float32) primals_12 = rand_strided((128, ), (1, ), device='cuda:0', dtype=torch.float32) primals_13 = rand_strided((128, ), (1, ), device='cuda:0', dtype=torch.float32) primals_14 = rand_strided((128, 128, 3, 3), (1152, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_15 = rand_strided((128, ), (1, ), device='cuda:0', dtype=torch.float32) primals_16 = rand_strided((128, ), (1, ), device='cuda:0', dtype=torch.float32) primals_17 = rand_strided((128, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13, primals_14, primals_15, primals_16, primals_17]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.nn.functional as F import torch.utils.data class SqueezeLastTwo(nn.Module): """ A module which squeezes the last two dimensions, ordinary squeeze can be a problem for batch size 1 """ def __init__(self): super(SqueezeLastTwo, self).__init__() def forward(self, x): return x.view(x.shape[0], x.shape[1]) class MNIST_CNN(nn.Module): """ Hand-tuned architecture for MNIST. Weirdness I've noticed so far with this architecture: - adding a linear layer after the mean-pool in features hurts RotatedMNIST-100 generalization severely. """ n_outputs = 128 def __init__(self, input_shape): super(MNIST_CNN, self).__init__() self.conv1 = nn.Conv2d(input_shape[0], 64, 3, 1, padding=1) self.conv2 = nn.Conv2d(64, 128, 3, stride=2, padding=1) self.conv3 = nn.Conv2d(128, 128, 3, 1, padding=1) self.conv4 = nn.Conv2d(128, 128, 3, 1, padding=1) self.bn0 = nn.GroupNorm(8, 64) self.bn1 = nn.GroupNorm(8, 128) self.bn2 = nn.GroupNorm(8, 128) self.bn3 = nn.GroupNorm(8, 128) self.avgpool = nn.AdaptiveAvgPool2d((1, 1)) self.squeezeLastTwo = SqueezeLastTwo() def forward(self, x): x = self.conv1(x) x = F.relu(x) x = self.bn0(x) x = self.conv2(x) x = F.relu(x) x = self.bn1(x) x = self.conv3(x) x = F.relu(x) x = self.bn2(x) x = self.conv4(x) x = F.relu(x) x = self.bn3(x) x = self.avgpool(x) x = self.squeezeLastTwo(x) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'input_shape': [4, 4]}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import libdevice import torch.nn as nn import torch.utils.data assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_0(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK: tl. constexpr, XBLOCK: tl.constexpr): ynumel = 256 xnumel = 9 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 4 y1 = yindex // 4 tmp0 = tl.load(in_ptr0 + (x2 + 9 * y3), xmask & ymask, eviction_policy= 'evict_last') tl.store(out_ptr0 + (y0 + 4 * x2 + 36 * y1), tmp0, xmask & ymask) @triton.jit def triton_poi_fused_1(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK: tl. constexpr, XBLOCK: tl.constexpr): ynumel = 16 xnumel = 16 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 4 y1 = yindex // 4 tmp0 = tl.load(in_ptr0 + (x2 + 16 * y3), xmask & ymask) tl.store(out_ptr0 + (y0 + 4 * x2 + 64 * y1), tmp0, xmask & ymask) @triton.jit def triton_poi_fused_2(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK: tl. constexpr, XBLOCK: tl.constexpr): xnumel = 9 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] tl.full([XBLOCK, YBLOCK], True, tl.int1) xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 64 y1 = yindex // 64 tmp0 = tl.load(in_ptr0 + (x2 + 9 * y3), xmask, eviction_policy='evict_last' ) tl.store(out_ptr0 + (y0 + 64 * x2 + 576 * y1), tmp0, xmask) @triton.jit def triton_poi_fused_3(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK: tl. constexpr, XBLOCK: tl.constexpr): xnumel = 9 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] tl.full([XBLOCK, YBLOCK], True, tl.int1) xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 128 y1 = yindex // 128 tmp0 = tl.load(in_ptr0 + (x2 + 9 * y3), xmask, eviction_policy='evict_last' ) tl.store(out_ptr0 + (y0 + 128 * x2 + 1152 * y1), tmp0, xmask) @triton.jit def triton_poi_fused_convolution_4(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl .constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x2 = xindex x0 = xindex % 64 tmp0 = tl.load(in_out_ptr0 + x2, None) tmp1 = tl.load(in_ptr0 + x0, None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + x2, tmp2, None) @triton.jit def triton_per_fused_native_group_norm_5(in_ptr0, out_ptr0, out_ptr1, out_ptr2, xnumel, rnumel, XBLOCK: tl.constexpr): xnumel = 32 RBLOCK: tl.constexpr = 128 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] tl.full([XBLOCK, RBLOCK], True, tl.int1) r2 = rindex % 8 r3 = rindex // 8 x0 = xindex % 8 x1 = xindex // 8 x4 = xindex tmp0 = tl.load(in_ptr0 + (r2 + 8 * x0 + 64 * r3 + 1024 * x1), xmask, other=0.0) tmp1 = tl.full([1, 1], 0, tl.int32) tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp3 = tl.broadcast_to(tmp2, [XBLOCK, RBLOCK]) tl.where(xmask, tmp3, 0) tmp6 = tl.broadcast_to(tmp3, [XBLOCK, RBLOCK]) tmp8 = tl.where(xmask, tmp6, 0) tmp9 = tl.sum(tmp8, 1)[:, None] tmp10 = tl.full([XBLOCK, 1], 128, tl.int32) tmp11 = tmp10.to(tl.float32) tmp12 = tmp9 / tmp11 tmp13 = tmp3 - tmp12 tmp14 = tmp13 * tmp13 tmp15 = tl.broadcast_to(tmp14, [XBLOCK, RBLOCK]) tmp17 = tl.where(xmask, tmp15, 0) tmp18 = tl.sum(tmp17, 1)[:, None] tmp19 = 128.0 tmp20 = tmp18 / tmp19 tmp21 = 1e-05 tmp22 = tmp20 + tmp21 tmp23 = libdevice.rsqrt(tmp22) tl.store(out_ptr2 + x4, tmp23, xmask) tl.store(out_ptr0 + x4, tmp12, xmask) tl.store(out_ptr1 + x4, tmp18, xmask) @triton.jit def triton_poi_fused_native_group_norm_6(in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, out_ptr0, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x3 = xindex x0 = xindex % 64 x2 = xindex // 1024 tmp0 = tl.load(in_ptr0 + x3, None) tmp3 = tl.load(in_ptr1 + (8 * x2 + x0 // 8), None, eviction_policy= 'evict_last') tmp5 = tl.load(in_ptr2 + (8 * x2 + x0 // 8), None, eviction_policy= 'evict_last') tmp12 = tl.load(in_ptr3 + x0, None, eviction_policy='evict_last') tmp14 = tl.load(in_ptr4 + x0, None, eviction_policy='evict_last') tmp1 = tl.full([1], 0, tl.int32) tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = tmp2 - tmp3 tmp6 = 128.0 tmp7 = tmp5 / tmp6 tmp8 = 1e-05 tmp9 = tmp7 + tmp8 tmp10 = libdevice.rsqrt(tmp9) tmp11 = tmp4 * tmp10 tmp13 = tmp11 * tmp12 tmp15 = tmp13 + tmp14 tl.store(out_ptr0 + x3, tmp15, None) @triton.jit def triton_poi_fused_convolution_7(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl .constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x2 = xindex x0 = xindex % 128 tmp0 = tl.load(in_out_ptr0 + x2, None) tmp1 = tl.load(in_ptr0 + x0, None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + x2, tmp2, None) @triton.jit def triton_per_fused_native_group_norm_8(in_ptr0, out_ptr0, out_ptr1, out_ptr2, xnumel, rnumel, XBLOCK: tl.constexpr): xnumel = 32 RBLOCK: tl.constexpr = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] tl.full([XBLOCK, RBLOCK], True, tl.int1) r2 = rindex % 16 r3 = rindex // 16 x0 = xindex % 8 x1 = xindex // 8 x4 = xindex tmp0 = tl.load(in_ptr0 + (r2 + 16 * x0 + 128 * r3 + 512 * x1), xmask, other=0.0) tmp1 = tl.full([1, 1], 0, tl.int32) tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp3 = tl.broadcast_to(tmp2, [XBLOCK, RBLOCK]) tl.where(xmask, tmp3, 0) tmp6 = tl.broadcast_to(tmp3, [XBLOCK, RBLOCK]) tmp8 = tl.where(xmask, tmp6, 0) tmp9 = tl.sum(tmp8, 1)[:, None] tmp10 = tl.full([XBLOCK, 1], 64, tl.int32) tmp11 = tmp10.to(tl.float32) tmp12 = tmp9 / tmp11 tmp13 = tmp3 - tmp12 tmp14 = tmp13 * tmp13 tmp15 = tl.broadcast_to(tmp14, [XBLOCK, RBLOCK]) tmp17 = tl.where(xmask, tmp15, 0) tmp18 = tl.sum(tmp17, 1)[:, None] tmp19 = 64.0 tmp20 = tmp18 / tmp19 tmp21 = 1e-05 tmp22 = tmp20 + tmp21 tmp23 = libdevice.rsqrt(tmp22) tl.store(out_ptr2 + x4, tmp23, xmask) tl.store(out_ptr0 + x4, tmp12, xmask) tl.store(out_ptr1 + x4, tmp18, xmask) @triton.jit def triton_poi_fused_native_group_norm_9(in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, out_ptr0, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x3 = xindex x0 = xindex % 128 x2 = xindex // 512 tmp0 = tl.load(in_ptr0 + x3, None) tmp3 = tl.load(in_ptr1 + (8 * x2 + x0 // 16), None, eviction_policy= 'evict_last') tmp5 = tl.load(in_ptr2 + (8 * x2 + x0 // 16), None, eviction_policy= 'evict_last') tmp12 = tl.load(in_ptr3 + x0, None, eviction_policy='evict_last') tmp14 = tl.load(in_ptr4 + x0, None, eviction_policy='evict_last') tmp1 = tl.full([1], 0, tl.int32) tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = tmp2 - tmp3 tmp6 = 64.0 tmp7 = tmp5 / tmp6 tmp8 = 1e-05 tmp9 = tmp7 + tmp8 tmp10 = libdevice.rsqrt(tmp9) tmp11 = tmp4 * tmp10 tmp13 = tmp11 * tmp12 tmp15 = tmp13 + tmp14 tl.store(out_ptr0 + x3, tmp15, None) @triton.jit def triton_poi_fused_mean_native_group_norm_10(in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 512 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 128 x1 = xindex // 128 x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + 512 * x1), xmask) tmp3 = tl.load(in_ptr1 + x2 // 16, xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr2 + x2 // 16, xmask, eviction_policy='evict_last') tmp12 = tl.load(in_ptr3 + x0, xmask, eviction_policy='evict_last') tmp14 = tl.load(in_ptr4 + x0, xmask, eviction_policy='evict_last') tmp16 = tl.load(in_ptr0 + (128 + x0 + 512 * x1), xmask) tmp23 = tl.load(in_ptr0 + (256 + x0 + 512 * x1), xmask) tmp30 = tl.load(in_ptr0 + (384 + x0 + 512 * x1), xmask) tmp1 = tl.full([1], 0, tl.int32) tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = tmp2 - tmp3 tmp6 = 64.0 tmp7 = tmp5 / tmp6 tmp8 = 1e-05 tmp9 = tmp7 + tmp8 tmp10 = libdevice.rsqrt(tmp9) tmp11 = tmp4 * tmp10 tmp13 = tmp11 * tmp12 tmp15 = tmp13 + tmp14 tmp17 = triton_helpers.maximum(tmp1, tmp16) tmp18 = tmp17 - tmp3 tmp19 = tmp18 * tmp10 tmp20 = tmp19 * tmp12 tmp21 = tmp20 + tmp14 tmp22 = tmp15 + tmp21 tmp24 = triton_helpers.maximum(tmp1, tmp23) tmp25 = tmp24 - tmp3 tmp26 = tmp25 * tmp10 tmp27 = tmp26 * tmp12 tmp28 = tmp27 + tmp14 tmp29 = tmp22 + tmp28 tmp31 = triton_helpers.maximum(tmp1, tmp30) tmp32 = tmp31 - tmp3 tmp33 = tmp32 * tmp10 tmp34 = tmp33 * tmp12 tmp35 = tmp34 + tmp14 tmp36 = tmp29 + tmp35 tmp37 = 4.0 tmp38 = tmp36 / tmp37 tl.store(out_ptr0 + x2, tmp38, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13, primals_14, primals_15, primals_16, primals_17) = args args.clear() assert_size_stride(primals_1, (64, 4, 3, 3), (36, 9, 3, 1)) assert_size_stride(primals_2, (64,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (64,), (1,)) assert_size_stride(primals_5, (64,), (1,)) assert_size_stride(primals_6, (128, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_7, (128,), (1,)) assert_size_stride(primals_8, (128,), (1,)) assert_size_stride(primals_9, (128,), (1,)) assert_size_stride(primals_10, (128, 128, 3, 3), (1152, 9, 3, 1)) assert_size_stride(primals_11, (128,), (1,)) assert_size_stride(primals_12, (128,), (1,)) assert_size_stride(primals_13, (128,), (1,)) assert_size_stride(primals_14, (128, 128, 3, 3), (1152, 9, 3, 1)) assert_size_stride(primals_15, (128,), (1,)) assert_size_stride(primals_16, (128,), (1,)) assert_size_stride(primals_17, (128,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4, 3, 3), (36, 1, 12, 4), torch.float32) get_raw_stream(0) triton_poi_fused_0[grid(256, 9)](primals_1, buf0, 256, 9, XBLOCK=16, YBLOCK=64, num_warps=4, num_stages=1) del primals_1 buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 1, 16, 4), torch.float32) triton_poi_fused_1[grid(16, 16)](primals_3, buf1, 16, 16, XBLOCK=16, YBLOCK=16, num_warps=4, num_stages=1) del primals_3 buf2 = empty_strided_cuda((128, 64, 3, 3), (576, 1, 192, 64), torch .float32) triton_poi_fused_2[grid(8192, 9)](primals_6, buf2, 8192, 9, XBLOCK= 16, YBLOCK=64, num_warps=4, num_stages=1) del primals_6 buf3 = empty_strided_cuda((128, 128, 3, 3), (1152, 1, 384, 128), torch.float32) triton_poi_fused_3[grid(16384, 9)](primals_10, buf3, 16384, 9, XBLOCK=16, YBLOCK=64, num_warps=4, num_stages=1) del primals_10 buf4 = empty_strided_cuda((128, 128, 3, 3), (1152, 1, 384, 128), torch.float32) triton_poi_fused_3[grid(16384, 9)](primals_14, buf4, 16384, 9, XBLOCK=16, YBLOCK=64, num_warps=4, num_stages=1) del primals_14 buf5 = extern_kernels.convolution(buf1, buf0, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf5, (4, 64, 4, 4), (1024, 1, 256, 64)) buf6 = buf5 del buf5 triton_poi_fused_convolution_4[grid(4096)](buf6, primals_2, 4096, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 buf7 = empty_strided_cuda((4, 8, 1, 1), (8, 1, 32, 32), torch.float32) buf8 = empty_strided_cuda((4, 8, 1, 1), (8, 1, 32, 32), torch.float32) buf11 = empty_strided_cuda((4, 8, 1, 1), (8, 1, 32, 32), torch.float32) triton_per_fused_native_group_norm_5[grid(32)](buf6, buf7, buf8, buf11, 32, 128, XBLOCK=1, num_warps=2, num_stages=1) buf10 = empty_strided_cuda((4, 64, 4, 4), (1024, 1, 256, 64), torch .float32) triton_poi_fused_native_group_norm_6[grid(4096)](buf6, buf7, buf8, primals_4, primals_5, buf10, 4096, XBLOCK=128, num_warps=4, num_stages=1) del primals_5 buf12 = extern_kernels.convolution(buf10, buf2, stride=(2, 2), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf12, (4, 128, 2, 2), (512, 1, 256, 128)) buf13 = buf12 del buf12 triton_poi_fused_convolution_7[grid(2048)](buf13, primals_7, 2048, XBLOCK=256, num_warps=4, num_stages=1) del primals_7 buf14 = buf8 del buf8 buf15 = empty_strided_cuda((4, 8, 1, 1), (8, 1, 32, 32), torch.float32) buf18 = empty_strided_cuda((4, 8, 1, 1), (8, 1, 32, 32), torch.float32) triton_per_fused_native_group_norm_8[grid(32)](buf13, buf14, buf15, buf18, 32, 64, XBLOCK=8, num_warps=4, num_stages=1) buf17 = empty_strided_cuda((4, 128, 2, 2), (512, 1, 256, 128), torch.float32) triton_poi_fused_native_group_norm_9[grid(2048)](buf13, buf14, buf15, primals_8, primals_9, buf17, 2048, XBLOCK=128, num_warps =4, num_stages=1) del primals_9 buf19 = extern_kernels.convolution(buf17, buf3, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf19, (4, 128, 2, 2), (512, 1, 256, 128)) buf20 = buf19 del buf19 triton_poi_fused_convolution_7[grid(2048)](buf20, primals_11, 2048, XBLOCK=256, num_warps=4, num_stages=1) del primals_11 buf21 = buf15 del buf15 buf22 = empty_strided_cuda((4, 8, 1, 1), (8, 1, 32, 32), torch.float32) buf25 = empty_strided_cuda((4, 8, 1, 1), (8, 1, 32, 32), torch.float32) triton_per_fused_native_group_norm_8[grid(32)](buf20, buf21, buf22, buf25, 32, 64, XBLOCK=8, num_warps=4, num_stages=1) buf24 = empty_strided_cuda((4, 128, 2, 2), (512, 1, 256, 128), torch.float32) triton_poi_fused_native_group_norm_9[grid(2048)](buf20, buf21, buf22, primals_12, primals_13, buf24, 2048, XBLOCK=128, num_warps=4, num_stages=1) del primals_13 buf26 = extern_kernels.convolution(buf24, buf4, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf26, (4, 128, 2, 2), (512, 1, 256, 128)) buf27 = buf26 del buf26 triton_poi_fused_convolution_7[grid(2048)](buf27, primals_15, 2048, XBLOCK=256, num_warps=4, num_stages=1) del primals_15 buf28 = buf22 del buf22 buf29 = empty_strided_cuda((4, 8, 1, 1), (8, 1, 32, 32), torch.float32) buf31 = empty_strided_cuda((4, 8, 1, 1), (8, 1, 32, 32), torch.float32) triton_per_fused_native_group_norm_8[grid(32)](buf27, buf28, buf29, buf31, 32, 64, XBLOCK=8, num_warps=4, num_stages=1) buf32 = empty_strided_cuda((4, 128, 1, 1), (128, 1, 1, 1), torch. float32) triton_poi_fused_mean_native_group_norm_10[grid(512)](buf27, buf28, buf29, primals_16, primals_17, buf32, 512, XBLOCK=256, num_warps=4, num_stages=1) del buf29 del primals_17 return (reinterpret_tensor(buf32, (4, 128), (128, 1), 0), buf0, buf1, primals_4, buf2, primals_8, buf3, primals_12, buf4, primals_16, buf6, buf10, reinterpret_tensor(buf7, (4, 8), (8, 1), 0), reinterpret_tensor(buf11, (4, 8), (8, 1), 0), buf13, buf17, reinterpret_tensor(buf14, (4, 8), (8, 1), 0), reinterpret_tensor( buf18, (4, 8), (8, 1), 0), buf20, buf24, reinterpret_tensor(buf21, (4, 8), (8, 1), 0), reinterpret_tensor(buf25, (4, 8), (8, 1), 0), buf27, reinterpret_tensor(buf28, (4, 8), (8, 1), 0), reinterpret_tensor(buf31, (4, 8), (8, 1), 0)) class SqueezeLastTwo(nn.Module): """ A module which squeezes the last two dimensions, ordinary squeeze can be a problem for batch size 1 """ def __init__(self): super(SqueezeLastTwo, self).__init__() def forward(self, x): return x.view(x.shape[0], x.shape[1]) class MNIST_CNNNew(nn.Module): """ Hand-tuned architecture for MNIST. Weirdness I've noticed so far with this architecture: - adding a linear layer after the mean-pool in features hurts RotatedMNIST-100 generalization severely. """ n_outputs = 128 def __init__(self, input_shape): super(MNIST_CNNNew, self).__init__() self.conv1 = nn.Conv2d(input_shape[0], 64, 3, 1, padding=1) self.conv2 = nn.Conv2d(64, 128, 3, stride=2, padding=1) self.conv3 = nn.Conv2d(128, 128, 3, 1, padding=1) self.conv4 = nn.Conv2d(128, 128, 3, 1, padding=1) self.bn0 = nn.GroupNorm(8, 64) self.bn1 = nn.GroupNorm(8, 128) self.bn2 = nn.GroupNorm(8, 128) self.bn3 = nn.GroupNorm(8, 128) self.avgpool = nn.AdaptiveAvgPool2d((1, 1)) self.squeezeLastTwo = SqueezeLastTwo() def forward(self, input_0): primals_1 = self.conv1.weight primals_2 = self.conv1.bias primals_6 = self.conv2.weight primals_7 = self.conv2.bias primals_10 = self.conv3.weight primals_8 = self.conv3.bias primals_14 = self.conv4.weight primals_9 = self.conv4.bias primals_4 = self.bn0.weight primals_5 = self.bn0.bias primals_11 = self.bn1.weight primals_12 = self.bn1.bias primals_13 = self.bn2.weight primals_15 = self.bn2.bias primals_16 = self.bn3.weight primals_17 = self.bn3.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13, primals_14, primals_15, primals_16, primals_17]) return output[0]	FrancescoCappio/swad	MNIST_CNN	false	9,087	[ "MIT" ]	b1da3eacb7dc3711360e6621ca16f2d75c4f411c	https://github.com/FrancescoCappio/swad/tree/b1da3eacb7dc3711360e6621ca16f2d75c4f411c
CharbonnierLoss	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/4o/c4oqy72fdaliouj3mb6dz74zmds2djttl7pvwrhlac4244bp4hf7.py # Topologically Sorted Source Nodes: [diff, mul, add, sqrt, loss], Original ATen: [aten.sub, aten.mul, aten.add, aten.sqrt, aten.sum] # Source node to ATen node mapping: # add => add # diff => sub # loss => sum_1 # mul => mul # sqrt => sqrt # Graph fragment: # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%arg0_1, %arg1_1), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub, %sub), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul, 1e-06), kwargs = {}) # %sqrt : [num_users=1] = call_function[target=torch.ops.aten.sqrt.default](args = (%add,), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%sqrt,), kwargs = {}) triton_per_fused_add_mul_sqrt_sub_sum_0 = async_compile.triton('triton_per_fused_add_mul_sqrt_sub_sum_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[1, 256], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {3: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 4), equal_to_1=(3,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_add_mul_sqrt_sub_sum_0', 'mutated_arg_names': [], 'no_x_dim': True, 'num_load': 2, 'num_reduction': 1, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_add_mul_sqrt_sub_sum_0(in_ptr0, in_ptr1, out_ptr0, xnumel, rnumel): xnumel = 1 XBLOCK: tl.constexpr = 1 rnumel = 256 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) XBLOCK xindex = tl.full([1], xoffset, tl.int32) xmask = tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] roffset = 0 rmask = tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + (r0), None) tmp1 = tl.load(in_ptr1 + (r0), None) tmp2 = tmp0 - tmp1 tmp3 = tmp2 * tmp2 tmp4 = 1e-06 tmp5 = tmp3 + tmp4 tmp6 = libdevice.sqrt(tmp5) tmp7 = tl.broadcast_to(tmp6, [RBLOCK]) tmp9 = triton_helpers.promote_to_tensor(tl.sum(tmp7, 0)) tl.store(out_ptr0 + (tl.full([1], 0, tl.int32)), tmp9, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) # Topologically Sorted Source Nodes: [diff, mul, add, sqrt, loss], Original ATen: [aten.sub, aten.mul, aten.add, aten.sqrt, aten.sum] stream0 = get_raw_stream(0) triton_per_fused_add_mul_sqrt_sub_sum_0.run(arg0_1, arg1_1, buf0, 1, 256, grid=grid(1), stream=stream0) del arg0_1 del arg1_1 return (buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.utils.data import torch.nn as nn class CharbonnierLoss(nn.Module): """Charbonnier Loss (L1)""" def __init__(self, eps=1e-06): super(CharbonnierLoss, self).__init__() self.eps = eps def forward(self, x, y): diff = x - y loss = torch.sum(torch.sqrt(diff * diff + self.eps)) return loss def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import libdevice import torch.utils.data import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_per_fused_add_mul_sqrt_sub_sum_0(in_ptr0, in_ptr1, out_ptr0, xnumel, rnumel): XBLOCK: tl.constexpr = 1 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) * XBLOCK tl.full([1], xoffset, tl.int32) tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + r0, None) tmp1 = tl.load(in_ptr1 + r0, None) tmp2 = tmp0 - tmp1 tmp3 = tmp2 * tmp2 tmp4 = 1e-06 tmp5 = tmp3 + tmp4 tmp6 = libdevice.sqrt(tmp5) tmp7 = tl.broadcast_to(tmp6, [RBLOCK]) tmp9 = triton_helpers.promote_to_tensor(tl.sum(tmp7, 0)) tl.store(out_ptr0 + tl.full([1], 0, tl.int32), tmp9, None) def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) get_raw_stream(0) triton_per_fused_add_mul_sqrt_sub_sum_0[grid(1)](arg0_1, arg1_1, buf0, 1, 256, num_warps=2, num_stages=1) del arg0_1 del arg1_1 return buf0, class CharbonnierLossNew(nn.Module): """Charbonnier Loss (L1)""" def __init__(self, eps=1e-06): super(CharbonnierLossNew, self).__init__() self.eps = eps def forward(self, input_0, input_1): arg0_1 = input_0 arg1_1 = input_1 output = call([arg0_1, arg1_1]) return output[0]	AbnerVictor/HCFlow	CharbonnierLoss	false	9,088	[ "Apache-2.0" ]	e55938ac9f58c117898e3d161ddc73b14d15289b	https://github.com/AbnerVictor/HCFlow/tree/e55938ac9f58c117898e3d161ddc73b14d15289b
GaussMembFunc	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/4z/c4z5f5sypbvdzckwli2vgwoo37wqsejweryvcktm6nccmzns6jtu.py # Topologically Sorted Source Nodes: [sub, pow_1, neg, pow_2, mul, truediv, val], Original ATen: [aten.sub, aten.pow, aten.neg, aten.mul, aten.div, aten.exp] # Source node to ATen node mapping: # mul => mul # neg => neg # pow_1 => pow_1 # pow_2 => pow_2 # sub => sub # truediv => div # val => exp # Graph fragment: # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%primals_2, %primals_1), kwargs = {}) # %pow_1 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sub, 2), kwargs = {}) # %neg : [num_users=1] = call_function[target=torch.ops.aten.neg.default](args = (%pow_1,), kwargs = {}) # %pow_2 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%primals_3, 2), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%pow_2, 2), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%neg, %mul), kwargs = {}) # %exp : [num_users=1] = call_function[target=torch.ops.aten.exp.default](args = (%div,), kwargs = {}) triton_poi_fused_div_exp_mul_neg_pow_sub_0 = async_compile.triton('triton_poi_fused_div_exp_mul_neg_pow_sub_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_div_exp_mul_neg_pow_sub_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 3, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_div_exp_mul_neg_pow_sub_0(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = tl.load(in_ptr1 + (0)) tmp2 = tl.broadcast_to(tmp1, [XBLOCK]) tmp6 = tl.load(in_ptr2 + (0)) tmp7 = tl.broadcast_to(tmp6, [XBLOCK]) tmp3 = tmp0 - tmp2 tmp4 = tmp3 * tmp3 tmp5 = -tmp4 tmp8 = tmp7 * tmp7 tmp9 = 2.0 tmp10 = tmp8 * tmp9 tmp11 = tmp5 / tmp10 tmp12 = tl_math.exp(tmp11) tl.store(out_ptr0 + (x0), tmp12, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (), ()) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_3, (), ()) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [sub, pow_1, neg, pow_2, mul, truediv, val], Original ATen: [aten.sub, aten.pow, aten.neg, aten.mul, aten.div, aten.exp] stream0 = get_raw_stream(0) triton_poi_fused_div_exp_mul_neg_pow_sub_0.run(primals_2, primals_1, primals_3, buf0, 256, grid=grid(256), stream=stream0) return (buf0, primals_1, primals_2, primals_3, buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((), (), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((), (), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch def _mk_param(val): """Make a torch parameter from a scalar value""" if isinstance(val, torch.Tensor): val = val.item() return torch.nn.Parameter(torch.tensor(val, dtype=torch.float)) class GaussMembFunc(torch.nn.Module): """ Gaussian membership functions, defined by two parameters: mu, the mean (center) sigma, the standard deviation. """ def __init__(self, mu, sigma): super(GaussMembFunc, self).__init__() self.register_parameter('mu', _mk_param(mu)) self.register_parameter('sigma', _mk_param(sigma)) def forward(self, x): val = torch.exp(-torch.pow(x - self.mu, 2) / (2 * self.sigma ** 2)) return val def pretty(self): return 'GaussMembFunc {} {}'.format(self.mu, self.sigma) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'mu': 4, 'sigma': 4}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import math as tl_math assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_div_exp_mul_neg_pow_sub_0(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = tl.load(in_ptr1 + 0) tmp2 = tl.broadcast_to(tmp1, [XBLOCK]) tmp6 = tl.load(in_ptr2 + 0) tmp7 = tl.broadcast_to(tmp6, [XBLOCK]) tmp3 = tmp0 - tmp2 tmp4 = tmp3 * tmp3 tmp5 = -tmp4 tmp8 = tmp7 * tmp7 tmp9 = 2.0 tmp10 = tmp8 * tmp9 tmp11 = tmp5 / tmp10 tmp12 = tl_math.exp(tmp11) tl.store(out_ptr0 + x0, tmp12, xmask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (), ()) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_3, (), ()) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_div_exp_mul_neg_pow_sub_0[grid(256)](primals_2, primals_1, primals_3, buf0, 256, XBLOCK=256, num_warps=4, num_stages=1) return buf0, primals_1, primals_2, primals_3, buf0 def _mk_param(val): """Make a torch parameter from a scalar value""" if isinstance(val, torch.Tensor): val = val.item() return torch.nn.Parameter(torch.tensor(val, dtype=torch.float)) class GaussMembFuncNew(torch.nn.Module): """ Gaussian membership functions, defined by two parameters: mu, the mean (center) sigma, the standard deviation. """ def __init__(self, mu, sigma): super(GaussMembFuncNew, self).__init__() self.register_parameter('mu', _mk_param(mu)) self.register_parameter('sigma', _mk_param(sigma)) def pretty(self): return 'GaussMembFunc {} {}'.format(self.mu, self.sigma) def forward(self, input_0): primals_1 = self.mu primals_3 = self.sigma primals_2 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	GradyKurpasi/anfis-pytorch	GaussMembFunc	false	9,089	[ "MIT" ]	4cce596193a8bc65e632405ca66d116c771033d7	https://github.com/GradyKurpasi/anfis-pytorch/tree/4cce596193a8bc65e632405ca66d116c771033d7
rSoftMax	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/gj/cgjvqsy5zcwbtj3z3zkbr27icqciys5sxtne5znjgezeqbnfzpp6.py # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten._softmax] # Source node to ATen node mapping: # x_1 => amax, clone, exp, sub # Graph fragment: # %clone : [num_users=2] = call_function[target=torch.ops.aten.clone.default](args = (%permute,), kwargs = {memory_format: torch.contiguous_format}) # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%clone, [1], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%clone, %amax), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub,), kwargs = {}) triton_poi_fused__softmax_0 = async_compile.triton('triton_poi_fused__softmax_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 4 x2 = (xindex // 16) tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x0 + (16x2)), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (4 + x0 + (16x2)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (8 + x0 + (16x2)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (12 + x0 + (16x2)), xmask, eviction_policy='evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + (x3), tmp9, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/6o/c6oft7einjbxgjggpxqa26wmlsa2xngiy67esduzi4i7y3s6gczj.py # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten._softmax] # Source node to ATen node mapping: # x_1 => div, sum_1 # Graph fragment: # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp, [1], True), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp, %sum_1), kwargs = {}) triton_poi_fused__softmax_1 = async_compile.triton('triton_poi_fused__softmax_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_1(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = (xindex // 4) % 4 x2 = (xindex // 16) % 4 x3 = (xindex // 64) x4 = xindex tmp0 = tl.load(in_ptr0 + (x0 + (4x2) + (16x1) + (64x3)), xmask) tmp1 = tl.load(in_ptr0 + (x0 + (16x1) + (64x3)), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (4 + x0 + (16x1) + (64x3)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (8 + x0 + (16x1) + (64x3)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (12 + x0 + (16x1) + (64*x3)), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + (x4), tmp8, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 4, 16, 1), torch.float32) # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten._softmax] stream0 = get_raw_stream(0) triton_poi_fused__softmax_0.run(arg0_1, buf0, 256, grid=grid(256), stream=stream0) del arg0_1 buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten._softmax] triton_poi_fused__softmax_1.run(buf0, buf1, 256, grid=grid(256), stream=stream0) del buf0 return (reinterpret_tensor(buf1, (4, 64), (64, 1), 0), ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn.functional as F from torch import nn class rSoftMax(nn.Module): def __init__(self, radix, cardinality): super().__init__() self.radix = radix self.cardinality = cardinality def forward(self, x): batch = x.size(0) if self.radix > 1: x = x.view(batch, self.cardinality, self.radix, -1).transpose(1, 2) x = F.softmax(x, dim=1) x = x.reshape(batch, -1) else: x = torch.sigmoid(x) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'radix': 4, 'cardinality': 4}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math from torch import nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused__softmax_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 4 x2 = xindex // 16 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + (x0 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp2 = tl.load(in_ptr0 + (4 + x0 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp4 = tl.load(in_ptr0 + (8 + x0 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp6 = tl.load(in_ptr0 + (12 + x0 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + x3, tmp9, xmask) @triton.jit def triton_poi_fused__softmax_1(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = xindex // 4 % 4 x2 = xindex // 16 % 4 x3 = xindex // 64 x4 = xindex tmp0 = tl.load(in_ptr0 + (x0 + 4 * x2 + 16 * x1 + 64 * x3), xmask) tmp1 = tl.load(in_ptr0 + (x0 + 16 * x1 + 64 * x3), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (4 + x0 + 16 * x1 + 64 * x3), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (8 + x0 + 16 * x1 + 64 * x3), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (12 + x0 + 16 * x1 + 64 * x3), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + x4, tmp8, xmask) def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 4, 16, 1), torch.float32) get_raw_stream(0) triton_poi_fused__softmax_0[grid(256)](arg0_1, buf0, 256, XBLOCK= 256, num_warps=4, num_stages=1) del arg0_1 buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) triton_poi_fused__softmax_1[grid(256)](buf0, buf1, 256, XBLOCK=256, num_warps=4, num_stages=1) del buf0 return reinterpret_tensor(buf1, (4, 64), (64, 1), 0), class rSoftMaxNew(nn.Module): def __init__(self, radix, cardinality): super().__init__() self.radix = radix self.cardinality = cardinality def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	DengpanFu/fast-reid-v0	rSoftMax	false	9,090	[ "Apache-2.0" ]	e444c0187ccb6ef3b8348f8c5f0c5a0814b3683e	https://github.com/DengpanFu/fast-reid-v0/tree/e444c0187ccb6ef3b8348f8c5f0c5a0814b3683e
ConvModule	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/wd/cwdz7kqs3uwyg53zsyekt77eye7yjl6v7vulow2q6ni534mkf6zw.py # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.native_layer_norm] # Source node to ATen node mapping: # x_1 => add, rsqrt, var_mean # Graph fragment: # %var_mean : [num_users=2] = call_function[target=torch.ops.aten.var_mean.correction](args = (%unsqueeze, [3]), kwargs = {correction: 0, keepdim: True}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%getitem, 1e-05), kwargs = {}) # %rsqrt : [num_users=1] = call_function[target=torch.ops.aten.rsqrt.default](args = (%add,), kwargs = {}) triton_poi_fused_native_layer_norm_0 = async_compile.triton('triton_poi_fused_native_layer_norm_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_native_layer_norm_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_native_layer_norm_0(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (4x0), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + (4x0)), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (2 + (4x0)), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (3 + (4x0)), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp6 = tmp4 + tmp5 tmp7 = 4.0 tmp8 = tmp6 / tmp7 tmp9 = tmp0 - tmp8 tmp10 = tmp9 * tmp9 tmp11 = tmp1 - tmp8 tmp12 = tmp11 * tmp11 tmp13 = tmp10 + tmp12 tmp14 = tmp3 - tmp8 tmp15 = tmp14 * tmp14 tmp16 = tmp13 + tmp15 tmp17 = tmp5 - tmp8 tmp18 = tmp17 * tmp17 tmp19 = tmp16 + tmp18 tmp20 = tmp19 / tmp7 tmp21 = 1e-05 tmp22 = tmp20 + tmp21 tmp23 = libdevice.rsqrt(tmp22) tl.store(out_ptr0 + (x0), tmp8, xmask) tl.store(out_ptr1 + (x0), tmp23, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/vs/cvsfvbs4wlaqvwxm3svg65dnhcq336ptudvn6xetnbnrtzj7xssn.py # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.native_layer_norm] # Source node to ATen node mapping: # x_1 => add, add_1, mul, mul_1, rsqrt, sub, var_mean # Graph fragment: # %var_mean : [num_users=2] = call_function[target=torch.ops.aten.var_mean.correction](args = (%unsqueeze, [3]), kwargs = {correction: 0, keepdim: True}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%getitem, 1e-05), kwargs = {}) # %rsqrt : [num_users=1] = call_function[target=torch.ops.aten.rsqrt.default](args = (%add,), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%unsqueeze, %getitem_1), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub, %rsqrt), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul, %primals_2), kwargs = {}) # %add_1 : [num_users=2] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_1, %primals_3), kwargs = {}) triton_poi_fused_native_layer_norm_1 = async_compile.triton('triton_poi_fused_native_layer_norm_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'fp32', 6: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_native_layer_norm_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_native_layer_norm_1(in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) x0 = xindex % 4 tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr1 + (x1), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + (x1), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr3 + (x0), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr4 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 - tmp1 tmp4 = tmp2 * tmp3 tmp6 = tmp4 * tmp5 tmp8 = tmp6 + tmp7 tl.store(out_ptr0 + (x2), tmp8, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/v3/cv3nwifnm5xyko5dhru7hyyl4qz76vxi2ukhz62426ijzr5uzalc.py # Topologically Sorted Source Nodes: [x_2], Original ATen: [aten.convolution] # Source node to ATen node mapping: # x_2 => convolution # Graph fragment: # %convolution : [num_users=3] = call_function[target=torch.ops.aten.convolution.default](args = (%add_1, %primals_4, %primals_5, [1, 1], [0, 0], [1, 1], False, [0, 0], 1), kwargs = {}) triton_poi_fused_convolution_2 = async_compile.triton('triton_poi_fused_convolution_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[128], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_2', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_2(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 128 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 16) % 2 tmp0 = tl.load(in_out_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + (x3), tmp2, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/rm/crmcytikct6cx56uyltt5xpmwo622djfzgb4r7ohif2smx5zbohy.py # Topologically Sorted Source Nodes: [sigmoid, x_3], Original ATen: [aten.sigmoid, aten.mul] # Source node to ATen node mapping: # sigmoid => sigmoid # x_3 => mul_2 # Graph fragment: # %sigmoid : [num_users=1] = call_function[target=torch.ops.aten.sigmoid.default](args = (%select_1,), kwargs = {}) # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%select, %sigmoid), kwargs = {}) triton_poi_fused_mul_sigmoid_3 = async_compile.triton('triton_poi_fused_mul_sigmoid_3', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_mul_sigmoid_3', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_mul_sigmoid_3(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 16 x1 = (xindex // 16) x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + (32x1)), xmask) tmp1 = tl.load(in_ptr0 + (16 + x0 + (32x1)), xmask) tmp2 = tl.sigmoid(tmp1) tmp3 = tmp0 * tmp2 tl.store(out_ptr0 + (x2), tmp3, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/qa/cqazdzrhe5ee2q6pezxnoi47dwp2eyzlwcwx3szbziobebnebw54.py # Topologically Sorted Source Nodes: [x_5], Original ATen: [aten.convolution] # Source node to ATen node mapping: # x_5 => convolution_1 # Graph fragment: # %convolution_1 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%permute, %primals_6, %primals_7, [1], [1], [1], False, [0], 4), kwargs = {}) triton_poi_fused_convolution_4 = async_compile.triton('triton_poi_fused_convolution_4', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16, 4], tile_hint=TileHint.SQUARE, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_4', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_4(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 16 xnumel = 4 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y0 = yindex % 4 y1 = (yindex // 4) y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + (4x2) + (16y1)), xmask & ymask, eviction_policy='evict_last') tl.store(out_ptr0 + (x2 + (4y3)), tmp0, xmask & ymask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/z2/cz2cvgylp63yhpsamryybri764gpwelpkzsha2to4udgmh4nczua.py # Topologically Sorted Source Nodes: [x_5, x_6], Original ATen: [aten.convolution, aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # x_5 => convolution_1 # x_6 => relu # Graph fragment: # %convolution_1 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%permute, %primals_6, %primals_7, [1], [1], [1], False, [0], 4), kwargs = {}) # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution_1,), kwargs = {}) # %le : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu, 0), kwargs = {}) triton_poi_fused_convolution_relu_threshold_backward_5 = async_compile.triton('triton_poi_fused_convolution_relu_threshold_backward_5', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i1', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_relu_threshold_backward_5', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_relu_threshold_backward_5(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 48 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 3) % 4 tmp0 = tl.load(in_out_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + (x3), tmp4, xmask) tl.store(out_ptr0 + (x3), tmp6, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/7a/c7aaeqdyg5qg2wgobdxvnbe5kbtbqsywic4yenbftqznbhb77jl4.py # Topologically Sorted Source Nodes: [x_8], Original ATen: [aten.convolution] # Source node to ATen node mapping: # x_8 => convolution_2 # Graph fragment: # %convolution_2 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%permute_1, %primals_8, %primals_9, [1, 1], [0, 0], [1, 1], False, [0, 0], 1), kwargs = {}) triton_poi_fused_convolution_6 = async_compile.triton('triton_poi_fused_convolution_6', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16, 4], tile_hint=TileHint.SQUARE, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_6', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_6(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 12 xnumel = 4 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y0 = yindex % 3 y1 = (yindex // 3) y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + (3x2) + (12y1)), xmask & ymask, eviction_policy='evict_last') tl.store(out_ptr0 + (x2 + (4y3)), tmp0, xmask & ymask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/wj/cwjajkt6hz73mup7zbnkatvvhglle54b6ng52kkw56g6olobjxqb.py # Topologically Sorted Source Nodes: [x_8], Original ATen: [aten.convolution] # Source node to ATen node mapping: # x_8 => convolution_2 # Graph fragment: # %convolution_2 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%permute_1, %primals_8, %primals_9, [1, 1], [0, 0], [1, 1], False, [0, 0], 1), kwargs = {}) triton_poi_fused_convolution_7 = async_compile.triton('triton_poi_fused_convolution_7', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_7', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_7(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 48 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_out_ptr0 + (x0), xmask) tmp1 = tl.load(in_ptr0 + (0)) tmp2 = tl.broadcast_to(tmp1, [XBLOCK]) tmp3 = tmp0 + tmp2 tl.store(in_out_ptr0 + (x0), tmp3, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9 = args args.clear() assert_size_stride(primals_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, ), (1, )) assert_size_stride(primals_4, (2, 1, 1, 1), (1, 1, 1, 1)) assert_size_stride(primals_5, (2, ), (1, )) assert_size_stride(primals_6, (4, 1, 4), (4, 4, 1)) assert_size_stride(primals_7, (4, ), (1, )) assert_size_stride(primals_8, (1, 1, 1, 1), (1, 1, 1, 1)) assert_size_stride(primals_9, (1, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 1, 4, 1), (4, 16, 1, 16), torch.float32) buf1 = empty_strided_cuda((4, 1, 4, 1), (4, 16, 1, 16), torch.float32) # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.native_layer_norm] stream0 = get_raw_stream(0) triton_poi_fused_native_layer_norm_0.run(primals_1, buf0, buf1, 16, grid=grid(16), stream=stream0) buf2 = empty_strided_cuda((4, 1, 4, 4), (16, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.native_layer_norm] triton_poi_fused_native_layer_norm_1.run(primals_1, buf0, buf1, primals_2, primals_3, buf2, 64, grid=grid(64), stream=stream0) del buf0 del buf1 del primals_2 del primals_3 # Topologically Sorted Source Nodes: [x_2], Original ATen: [aten.convolution] buf3 = extern_kernels.convolution(buf2, primals_4, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf3, (4, 2, 4, 4), (32, 16, 4, 1)) buf4 = buf3; del buf3 # reuse # Topologically Sorted Source Nodes: [x_2], Original ATen: [aten.convolution] triton_poi_fused_convolution_2.run(buf4, primals_5, 128, grid=grid(128), stream=stream0) del primals_5 buf5 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [sigmoid, x_3], Original ATen: [aten.sigmoid, aten.mul] triton_poi_fused_mul_sigmoid_3.run(buf4, buf5, 64, grid=grid(64), stream=stream0) buf6 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [x_5], Original ATen: [aten.convolution] triton_poi_fused_convolution_4.run(buf5, buf6, 16, 4, grid=grid(16, 4), stream=stream0) # Topologically Sorted Source Nodes: [x_5], Original ATen: [aten.convolution] buf7 = extern_kernels.convolution(buf6, primals_6, stride=(1,), padding=(1,), dilation=(1,), transposed=False, output_padding=(0,), groups=4, bias=None) assert_size_stride(buf7, (4, 4, 3), (12, 3, 1)) del buf6 buf8 = buf7; del buf7 # reuse buf12 = empty_strided_cuda((4, 4, 3), (12, 3, 1), torch.bool) # Topologically Sorted Source Nodes: [x_5, x_6], Original ATen: [aten.convolution, aten.relu, aten.threshold_backward] triton_poi_fused_convolution_relu_threshold_backward_5.run(buf8, primals_7, buf12, 48, grid=grid(48), stream=stream0) del primals_7 buf9 = empty_strided_cuda((4, 1, 3, 4), (12, 12, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [x_8], Original ATen: [aten.convolution] triton_poi_fused_convolution_6.run(buf8, buf9, 12, 4, grid=grid(12, 4), stream=stream0) # Topologically Sorted Source Nodes: [x_8], Original ATen: [aten.convolution] buf10 = extern_kernels.convolution(buf9, primals_8, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf10, (4, 1, 3, 4), (12, 12, 4, 1)) del buf9 buf11 = reinterpret_tensor(buf10, (4, 1, 3, 4), (12, 1, 4, 1), 0); del buf10 # reuse # Topologically Sorted Source Nodes: [x_8], Original ATen: [aten.convolution] triton_poi_fused_convolution_7.run(buf11, primals_9, 48, grid=grid(48), stream=stream0) del primals_9 return (reinterpret_tensor(buf11, (4, 3, 4), (12, 4, 1), 0), primals_1, primals_4, primals_6, primals_8, buf2, buf4, reinterpret_tensor(buf5, (4, 4, 4), (16, 1, 4), 0), reinterpret_tensor(buf8, (4, 1, 3, 4), (12, 12, 1, 3), 0), buf12, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((2, 1, 1, 1), (1, 1, 1, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((2, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((4, 1, 4), (4, 4, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((1, 1, 1, 1), (1, 1, 1, 1), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((1, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.utils.data.distributed from torch import nn import torch.utils.data class ConvModule(nn.Module): def __init__(self, input_dim, kernel_size, dropout_rate, causal=False): super(ConvModule, self).__init__() self.layer_norm = nn.LayerNorm(input_dim) self.pw_conv_1 = nn.Conv2d(1, 2, 1, 1, 0) self.glu_act = torch.nn.Sigmoid() self.causal = causal self.kernel_size = kernel_size if causal: self.dw_conv_1d = nn.Conv1d(input_dim, input_dim, kernel_size, 1, padding=kernel_size - 1, groups=input_dim) else: self.dw_conv_1d = nn.Conv1d(input_dim, input_dim, kernel_size, 1, padding=(kernel_size - 1) // 2, groups=input_dim) self.act = nn.ReLU() self.pw_conv_2 = nn.Conv2d(1, 1, 1, 1, 0) self.dropout = nn.Dropout(dropout_rate) def forward(self, x): x = x.unsqueeze(1) x = self.layer_norm(x) x = self.pw_conv_1(x) x = x[:, 0] * self.glu_act(x[:, 1]) x = x.permute([0, 2, 1]) x = self.dw_conv_1d(x) if self.causal: x = x[:, :, :-(self.kernel_size - 1)] x = self.act(x) x = x.unsqueeze(1).permute([0, 1, 3, 2]) x = self.pw_conv_2(x) x = self.dropout(x).squeeze(1) return x def get_inputs(): return [torch.rand([4, 4, 4])] def get_init_inputs(): return [[], {'input_dim': 4, 'kernel_size': 4, 'dropout_rate': 0.5}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import libdevice import torch.utils.data.distributed from torch import nn import torch.utils.data assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_native_layer_norm_0(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + 4 * x0, xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + 4 * x0), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (2 + 4 * x0), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (3 + 4 * x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp6 = tmp4 + tmp5 tmp7 = 4.0 tmp8 = tmp6 / tmp7 tmp9 = tmp0 - tmp8 tmp10 = tmp9 * tmp9 tmp11 = tmp1 - tmp8 tmp12 = tmp11 * tmp11 tmp13 = tmp10 + tmp12 tmp14 = tmp3 - tmp8 tmp15 = tmp14 * tmp14 tmp16 = tmp13 + tmp15 tmp17 = tmp5 - tmp8 tmp18 = tmp17 * tmp17 tmp19 = tmp16 + tmp18 tmp20 = tmp19 / tmp7 tmp21 = 1e-05 tmp22 = tmp20 + tmp21 tmp23 = libdevice.rsqrt(tmp22) tl.store(out_ptr0 + x0, tmp8, xmask) tl.store(out_ptr1 + x0, tmp23, xmask) @triton.jit def triton_poi_fused_native_layer_norm_1(in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 x0 = xindex % 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr1 + x1, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + x1, xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr3 + x0, xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr4 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 - tmp1 tmp4 = tmp2 * tmp3 tmp6 = tmp4 * tmp5 tmp8 = tmp6 + tmp7 tl.store(out_ptr0 + x2, tmp8, xmask) @triton.jit def triton_poi_fused_convolution_2(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl .constexpr): xnumel = 128 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = xindex // 16 % 2 tmp0 = tl.load(in_out_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + x1, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + x3, tmp2, xmask) @triton.jit def triton_poi_fused_mul_sigmoid_3(in_ptr0, out_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 16 x1 = xindex // 16 x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + 32 * x1), xmask) tmp1 = tl.load(in_ptr0 + (16 + x0 + 32 * x1), xmask) tmp2 = tl.sigmoid(tmp1) tmp3 = tmp0 * tmp2 tl.store(out_ptr0 + x2, tmp3, xmask) @triton.jit def triton_poi_fused_convolution_4(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK: tl.constexpr, XBLOCK: tl.constexpr): ynumel = 16 xnumel = 4 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y0 = yindex % 4 y1 = yindex // 4 y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + 4 * x2 + 16 * y1), xmask & ymask, eviction_policy='evict_last') tl.store(out_ptr0 + (x2 + 4 * y3), tmp0, xmask & ymask) @triton.jit def triton_poi_fused_convolution_relu_threshold_backward_5(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 48 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = xindex // 3 % 4 tmp0 = tl.load(in_out_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + x1, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + x3, tmp4, xmask) tl.store(out_ptr0 + x3, tmp6, xmask) @triton.jit def triton_poi_fused_convolution_6(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK: tl.constexpr, XBLOCK: tl.constexpr): ynumel = 12 xnumel = 4 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y0 = yindex % 3 y1 = yindex // 3 y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + 3 * x2 + 12 * y1), xmask & ymask, eviction_policy='evict_last') tl.store(out_ptr0 + (x2 + 4 * y3), tmp0, xmask & ymask) @triton.jit def triton_poi_fused_convolution_7(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl .constexpr): xnumel = 48 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_out_ptr0 + x0, xmask) tmp1 = tl.load(in_ptr0 + 0) tmp2 = tl.broadcast_to(tmp1, [XBLOCK]) tmp3 = tmp0 + tmp2 tl.store(in_out_ptr0 + x0, tmp3, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9) = args args.clear() assert_size_stride(primals_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4,), (1,)) assert_size_stride(primals_4, (2, 1, 1, 1), (1, 1, 1, 1)) assert_size_stride(primals_5, (2,), (1,)) assert_size_stride(primals_6, (4, 1, 4), (4, 4, 1)) assert_size_stride(primals_7, (4,), (1,)) assert_size_stride(primals_8, (1, 1, 1, 1), (1, 1, 1, 1)) assert_size_stride(primals_9, (1,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 1, 4, 1), (4, 16, 1, 16), torch.float32) buf1 = empty_strided_cuda((4, 1, 4, 1), (4, 16, 1, 16), torch.float32) get_raw_stream(0) triton_poi_fused_native_layer_norm_0[grid(16)](primals_1, buf0, buf1, 16, XBLOCK=16, num_warps=1, num_stages=1) buf2 = empty_strided_cuda((4, 1, 4, 4), (16, 16, 4, 1), torch.float32) triton_poi_fused_native_layer_norm_1[grid(64)](primals_1, buf0, buf1, primals_2, primals_3, buf2, 64, XBLOCK=64, num_warps=1, num_stages=1) del buf0 del buf1 del primals_2 del primals_3 buf3 = extern_kernels.convolution(buf2, primals_4, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf3, (4, 2, 4, 4), (32, 16, 4, 1)) buf4 = buf3 del buf3 triton_poi_fused_convolution_2[grid(128)](buf4, primals_5, 128, XBLOCK=128, num_warps=4, num_stages=1) del primals_5 buf5 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) triton_poi_fused_mul_sigmoid_3[grid(64)](buf4, buf5, 64, XBLOCK=64, num_warps=1, num_stages=1) buf6 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) triton_poi_fused_convolution_4[grid(16, 4)](buf5, buf6, 16, 4, XBLOCK=4, YBLOCK=16, num_warps=1, num_stages=1) buf7 = extern_kernels.convolution(buf6, primals_6, stride=(1,), padding=(1,), dilation=(1,), transposed=False, output_padding=( 0,), groups=4, bias=None) assert_size_stride(buf7, (4, 4, 3), (12, 3, 1)) del buf6 buf8 = buf7 del buf7 buf12 = empty_strided_cuda((4, 4, 3), (12, 3, 1), torch.bool) triton_poi_fused_convolution_relu_threshold_backward_5[grid(48)](buf8, primals_7, buf12, 48, XBLOCK=64, num_warps=1, num_stages=1) del primals_7 buf9 = empty_strided_cuda((4, 1, 3, 4), (12, 12, 4, 1), torch.float32) triton_poi_fused_convolution_6[grid(12, 4)](buf8, buf9, 12, 4, XBLOCK=4, YBLOCK=16, num_warps=1, num_stages=1) buf10 = extern_kernels.convolution(buf9, primals_8, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf10, (4, 1, 3, 4), (12, 12, 4, 1)) del buf9 buf11 = reinterpret_tensor(buf10, (4, 1, 3, 4), (12, 1, 4, 1), 0) del buf10 triton_poi_fused_convolution_7[grid(48)](buf11, primals_9, 48, XBLOCK=64, num_warps=1, num_stages=1) del primals_9 return (reinterpret_tensor(buf11, (4, 3, 4), (12, 4, 1), 0), primals_1, primals_4, primals_6, primals_8, buf2, buf4, reinterpret_tensor( buf5, (4, 4, 4), (16, 1, 4), 0), reinterpret_tensor(buf8, (4, 1, 3, 4), (12, 12, 1, 3), 0), buf12) class ConvModuleNew(nn.Module): def __init__(self, input_dim, kernel_size, dropout_rate, causal=False): super(ConvModuleNew, self).__init__() self.layer_norm = nn.LayerNorm(input_dim) self.pw_conv_1 = nn.Conv2d(1, 2, 1, 1, 0) self.glu_act = torch.nn.Sigmoid() self.causal = causal self.kernel_size = kernel_size if causal: self.dw_conv_1d = nn.Conv1d(input_dim, input_dim, kernel_size, 1, padding=kernel_size - 1, groups=input_dim) else: self.dw_conv_1d = nn.Conv1d(input_dim, input_dim, kernel_size, 1, padding=(kernel_size - 1) // 2, groups=input_dim) self.act = nn.ReLU() self.pw_conv_2 = nn.Conv2d(1, 1, 1, 1, 0) self.dropout = nn.Dropout(dropout_rate) def forward(self, input_0): primals_2 = self.layer_norm.weight primals_3 = self.layer_norm.bias primals_4 = self.pw_conv_1.weight primals_5 = self.pw_conv_1.bias primals_6 = self.dw_conv_1d.weight primals_7 = self.dw_conv_1d.bias primals_8 = self.pw_conv_2.weight primals_9 = self.pw_conv_2.bias primals_1 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9]) return output[0]	Five-Hundred-Years-Ago/StreamingTransformer	ConvModule	false	9,091	[ "Apache-2.0" ]	fdaace64ed786bbdaeea2b9f44e96f9403ef98fe	https://github.com/Five-Hundred-Years-Ago/StreamingTransformer/tree/fdaace64ed786bbdaeea2b9f44e96f9403ef98fe
Actor	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/hp/chpdwpegv6lvistek2wqgimtufecqvfp6grp5rpblk5yjicjzqd2.py # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.native_layer_norm] # Source node to ATen node mapping: # x_1 => add, rsqrt, var_mean # Graph fragment: # %var_mean : [num_users=2] = call_function[target=torch.ops.aten.var_mean.correction](args = (%view_1, [3]), kwargs = {correction: 0, keepdim: True}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%getitem, 1e-05), kwargs = {}) # %rsqrt : [num_users=1] = call_function[target=torch.ops.aten.rsqrt.default](args = (%add,), kwargs = {}) triton_poi_fused_native_layer_norm_0 = async_compile.triton('triton_poi_fused_native_layer_norm_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_native_layer_norm_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_native_layer_norm_0(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (4x0), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + (4x0)), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (2 + (4x0)), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (3 + (4x0)), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp6 = tmp4 + tmp5 tmp7 = 4.0 tmp8 = tmp6 / tmp7 tmp9 = tmp0 - tmp8 tmp10 = tmp9 * tmp9 tmp11 = tmp1 - tmp8 tmp12 = tmp11 * tmp11 tmp13 = tmp10 + tmp12 tmp14 = tmp3 - tmp8 tmp15 = tmp14 * tmp14 tmp16 = tmp13 + tmp15 tmp17 = tmp5 - tmp8 tmp18 = tmp17 * tmp17 tmp19 = tmp16 + tmp18 tmp20 = tmp19 / tmp7 tmp21 = 1e-05 tmp22 = tmp20 + tmp21 tmp23 = libdevice.rsqrt(tmp22) tl.store(out_ptr0 + (x0), tmp8, xmask) tl.store(out_ptr1 + (x0), tmp23, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/2d/c2dynhgwbpq3hsivqefe5qtweyvcco4jicls5vdf3b2mvt6eveg3.py # Topologically Sorted Source Nodes: [x_1, x_2], Original ATen: [aten.native_layer_norm, aten.leaky_relu] # Source node to ATen node mapping: # x_1 => add, add_1, mul, mul_1, rsqrt, sub, var_mean # x_2 => gt, mul_2, where # Graph fragment: # %var_mean : [num_users=2] = call_function[target=torch.ops.aten.var_mean.correction](args = (%view_1, [3]), kwargs = {correction: 0, keepdim: True}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%getitem, 1e-05), kwargs = {}) # %rsqrt : [num_users=1] = call_function[target=torch.ops.aten.rsqrt.default](args = (%add,), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%view_1, %getitem_1), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub, %rsqrt), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul, %primals_4), kwargs = {}) # %add_1 : [num_users=3] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_1, %primals_5), kwargs = {}) # %gt : [num_users=1] = call_function[target=torch.ops.aten.gt.Scalar](args = (%add_1, 0), kwargs = {}) # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%add_1, 0.17), kwargs = {}) # %where : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%gt, %add_1, %mul_2), kwargs = {}) triton_poi_fused_leaky_relu_native_layer_norm_1 = async_compile.triton('triton_poi_fused_leaky_relu_native_layer_norm_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'fp32', 6: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_leaky_relu_native_layer_norm_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_leaky_relu_native_layer_norm_1(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) x0 = xindex % 4 tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr1 + (x1), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + (x1), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr3 + (x0), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr4 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 - tmp1 tmp4 = tmp2 * tmp3 tmp6 = tmp4 * tmp5 tmp8 = tmp6 + tmp7 tmp9 = 0.0 tmp10 = tmp8 > tmp9 tmp11 = 0.17 tmp12 = tmp8 * tmp11 tmp13 = tl.where(tmp10, tmp8, tmp12) tl.store(in_out_ptr0 + (x2), tmp13, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/js/cjslwio7vckngzdbguz7dqhonldbsnmdukogri625fckz2fn2vml.py # Topologically Sorted Source Nodes: [x_4, x_5], Original ATen: [aten.native_layer_norm, aten.leaky_relu] # Source node to ATen node mapping: # x_4 => add_2, add_3, mul_3, mul_4, rsqrt_1, sub_1, var_mean_1 # x_5 => gt_1, mul_5, where_1 # Graph fragment: # %var_mean_1 : [num_users=2] = call_function[target=torch.ops.aten.var_mean.correction](args = (%view_3, [3]), kwargs = {correction: 0, keepdim: True}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%getitem_2, 1e-05), kwargs = {}) # %rsqrt_1 : [num_users=1] = call_function[target=torch.ops.aten.rsqrt.default](args = (%add_2,), kwargs = {}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%view_3, %getitem_3), kwargs = {}) # %mul_3 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub_1, %rsqrt_1), kwargs = {}) # %mul_4 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul_3, %primals_8), kwargs = {}) # %add_3 : [num_users=3] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_4, %primals_9), kwargs = {}) # %gt_1 : [num_users=1] = call_function[target=torch.ops.aten.gt.Scalar](args = (%add_3, 0), kwargs = {}) # %mul_5 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%add_3, 0.495), kwargs = {}) # %where_1 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%gt_1, %add_3, %mul_5), kwargs = {}) triton_poi_fused_leaky_relu_native_layer_norm_2 = async_compile.triton('triton_poi_fused_leaky_relu_native_layer_norm_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'fp32', 6: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_leaky_relu_native_layer_norm_2', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_leaky_relu_native_layer_norm_2(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) x0 = xindex % 4 tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr1 + (x1), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + (x1), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr3 + (x0), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr4 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 - tmp1 tmp4 = tmp2 * tmp3 tmp6 = tmp4 * tmp5 tmp8 = tmp6 + tmp7 tmp9 = 0.0 tmp10 = tmp8 > tmp9 tmp11 = 0.495 tmp12 = tmp8 * tmp11 tmp13 = tl.where(tmp10, tmp8, tmp12) tl.store(in_out_ptr0 + (x2), tmp13, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/gu/cgu2qlmzd67bb457mksqbnflqph5teyn65nbaq5e32yovcmytydd.py # Topologically Sorted Source Nodes: [x_7, x_8], Original ATen: [aten.native_layer_norm, aten.leaky_relu] # Source node to ATen node mapping: # x_7 => add_4, add_5, mul_6, mul_7, rsqrt_2, sub_2, var_mean_2 # x_8 => gt_2, mul_8, where_2 # Graph fragment: # %var_mean_2 : [num_users=2] = call_function[target=torch.ops.aten.var_mean.correction](args = (%view_5, [3]), kwargs = {correction: 0, keepdim: True}) # %add_4 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%getitem_4, 1e-05), kwargs = {}) # %rsqrt_2 : [num_users=1] = call_function[target=torch.ops.aten.rsqrt.default](args = (%add_4,), kwargs = {}) # %sub_2 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%view_5, %getitem_5), kwargs = {}) # %mul_6 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub_2, %rsqrt_2), kwargs = {}) # %mul_7 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul_6, %primals_12), kwargs = {}) # %add_5 : [num_users=3] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_7, %primals_13), kwargs = {}) # %gt_2 : [num_users=1] = call_function[target=torch.ops.aten.gt.Scalar](args = (%add_5, 0), kwargs = {}) # %mul_8 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%add_5, 0.825), kwargs = {}) # %where_2 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%gt_2, %add_5, %mul_8), kwargs = {}) triton_poi_fused_leaky_relu_native_layer_norm_3 = async_compile.triton('triton_poi_fused_leaky_relu_native_layer_norm_3', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'fp32', 6: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_leaky_relu_native_layer_norm_3', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_leaky_relu_native_layer_norm_3(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) x0 = xindex % 4 tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr1 + (x1), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + (x1), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr3 + (x0), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr4 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 - tmp1 tmp4 = tmp2 * tmp3 tmp6 = tmp4 * tmp5 tmp8 = tmp6 + tmp7 tmp9 = 0.0 tmp10 = tmp8 > tmp9 tmp11 = 0.825 tmp12 = tmp8 * tmp11 tmp13 = tl.where(tmp10, tmp8, tmp12) tl.store(in_out_ptr0 + (x2), tmp13, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/wi/cwiephwgmsaatpo26a4ry5wrszmknapkg2n25g364rwwusyaoj3v.py # Topologically Sorted Source Nodes: [x_10], Original ATen: [aten.native_layer_norm] # Source node to ATen node mapping: # x_10 => var_mean_3 # Graph fragment: # %var_mean_3 : [num_users=2] = call_function[target=torch.ops.aten.var_mean.correction](args = (%view_7, [3]), kwargs = {correction: 0, keepdim: True}) triton_poi_fused_native_layer_norm_4 = async_compile.triton('triton_poi_fused_native_layer_norm_4', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_native_layer_norm_4', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_native_layer_norm_4(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (2x0), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + (2x0)), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 2.0 tmp4 = tmp2 / tmp3 tl.store(out_ptr0 + (x0), tmp4, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/hz/chzspnnsthbrwazsvbfv62oocvr25nfckvo74xiif3d2w4g3iz4b.py # Topologically Sorted Source Nodes: [x_10], Original ATen: [aten.native_layer_norm] # Source node to ATen node mapping: # x_10 => add_6, add_7, mul_10, mul_9, rsqrt_3, sub_3, var_mean_3 # Graph fragment: # %var_mean_3 : [num_users=2] = call_function[target=torch.ops.aten.var_mean.correction](args = (%view_7, [3]), kwargs = {correction: 0, keepdim: True}) # %add_6 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%getitem_6, 1e-05), kwargs = {}) # %rsqrt_3 : [num_users=1] = call_function[target=torch.ops.aten.rsqrt.default](args = (%add_6,), kwargs = {}) # %sub_3 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%view_7, %getitem_7), kwargs = {}) # %mul_9 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub_3, %rsqrt_3), kwargs = {}) # %mul_10 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul_9, %primals_16), kwargs = {}) # %add_7 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_10, %primals_17), kwargs = {}) triton_poi_fused_native_layer_norm_5 = async_compile.triton('triton_poi_fused_native_layer_norm_5', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[128], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_native_layer_norm_5', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 6, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_native_layer_norm_5(in_ptr0, in_ptr1, in_ptr2, in_ptr3, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 128 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 2) x0 = xindex % 2 tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr1 + (x1), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (2x1), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (1 + (2x1)), xmask, eviction_policy='evict_last') tmp16 = tl.load(in_ptr2 + (x0), xmask, eviction_policy='evict_last') tmp18 = tl.load(in_ptr3 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 - tmp1 tmp4 = tmp3 - tmp1 tmp5 = tmp4 * tmp4 tmp7 = tmp6 - tmp1 tmp8 = tmp7 * tmp7 tmp9 = tmp5 + tmp8 tmp10 = 2.0 tmp11 = tmp9 / tmp10 tmp12 = 1e-05 tmp13 = tmp11 + tmp12 tmp14 = libdevice.rsqrt(tmp13) tmp15 = tmp2 * tmp14 tmp17 = tmp15 * tmp16 tmp19 = tmp17 + tmp18 tl.store(out_ptr0 + (x2), tmp19, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/id/cidsvr3jgrchrkktpqttx3kpaaicvgbwbm74cpsjrfjchfzk3gc7.py # Topologically Sorted Source Nodes: [mu], Original ATen: [aten.sigmoid] # Source node to ATen node mapping: # mu => sigmoid # Graph fragment: # %sigmoid : [num_users=1] = call_function[target=torch.ops.aten.sigmoid.default](args = (%view_9,), kwargs = {}) triton_poi_fused_sigmoid_6 = async_compile.triton('triton_poi_fused_sigmoid_6', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_sigmoid_6', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_sigmoid_6(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.sigmoid(tmp2) tl.store(in_out_ptr0 + (x2), tmp3, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13, primals_14, primals_15, primals_16, primals_17, primals_18, primals_19 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4, 4), (4, 1)) assert_size_stride(primals_3, (4, ), (1, )) assert_size_stride(primals_4, (4, ), (1, )) assert_size_stride(primals_5, (4, ), (1, )) assert_size_stride(primals_6, (4, 4), (4, 1)) assert_size_stride(primals_7, (4, ), (1, )) assert_size_stride(primals_8, (4, ), (1, )) assert_size_stride(primals_9, (4, ), (1, )) assert_size_stride(primals_10, (4, 4), (4, 1)) assert_size_stride(primals_11, (4, ), (1, )) assert_size_stride(primals_12, (4, ), (1, )) assert_size_stride(primals_13, (4, ), (1, )) assert_size_stride(primals_14, (2, 4), (4, 1)) assert_size_stride(primals_15, (2, ), (1, )) assert_size_stride(primals_16, (2, ), (1, )) assert_size_stride(primals_17, (2, ), (1, )) assert_size_stride(primals_18, (4, 2), (2, 1)) assert_size_stride(primals_19, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [x], Original ATen: [aten.addmm] extern_kernels.addmm(primals_3, reinterpret_tensor(primals_1, (64, 4), (4, 1), 0), reinterpret_tensor(primals_2, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf0) del primals_2 del primals_3 buf1 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 64), torch.float32) buf2 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 64), torch.float32) # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.native_layer_norm] stream0 = get_raw_stream(0) triton_poi_fused_native_layer_norm_0.run(buf0, buf1, buf2, 64, grid=grid(64), stream=stream0) buf3 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf4 = buf3; del buf3 # reuse # Topologically Sorted Source Nodes: [x_1, x_2], Original ATen: [aten.native_layer_norm, aten.leaky_relu] triton_poi_fused_leaky_relu_native_layer_norm_1.run(buf4, buf0, buf1, buf2, primals_4, primals_5, 256, grid=grid(256), stream=stream0) buf5 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [x_3], Original ATen: [aten.addmm] extern_kernels.addmm(primals_7, reinterpret_tensor(buf4, (64, 4), (4, 1), 0), reinterpret_tensor(primals_6, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf5) del primals_7 buf6 = buf2; del buf2 # reuse buf7 = buf1; del buf1 # reuse # Topologically Sorted Source Nodes: [x_4], Original ATen: [aten.native_layer_norm] triton_poi_fused_native_layer_norm_0.run(buf5, buf6, buf7, 64, grid=grid(64), stream=stream0) buf8 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf9 = buf8; del buf8 # reuse # Topologically Sorted Source Nodes: [x_4, x_5], Original ATen: [aten.native_layer_norm, aten.leaky_relu] triton_poi_fused_leaky_relu_native_layer_norm_2.run(buf9, buf5, buf6, buf7, primals_8, primals_9, 256, grid=grid(256), stream=stream0) buf10 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [x_6], Original ATen: [aten.addmm] extern_kernels.addmm(primals_11, reinterpret_tensor(buf9, (64, 4), (4, 1), 0), reinterpret_tensor(primals_10, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf10) del primals_11 buf11 = buf7; del buf7 # reuse buf12 = buf6; del buf6 # reuse # Topologically Sorted Source Nodes: [x_7], Original ATen: [aten.native_layer_norm] triton_poi_fused_native_layer_norm_0.run(buf10, buf11, buf12, 64, grid=grid(64), stream=stream0) buf13 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf14 = buf13; del buf13 # reuse # Topologically Sorted Source Nodes: [x_7, x_8], Original ATen: [aten.native_layer_norm, aten.leaky_relu] triton_poi_fused_leaky_relu_native_layer_norm_3.run(buf14, buf10, buf11, buf12, primals_12, primals_13, 256, grid=grid(256), stream=stream0) del buf11 buf15 = empty_strided_cuda((64, 2), (2, 1), torch.float32) # Topologically Sorted Source Nodes: [x_9], Original ATen: [aten.addmm] extern_kernels.addmm(primals_15, reinterpret_tensor(buf14, (64, 4), (4, 1), 0), reinterpret_tensor(primals_14, (4, 2), (1, 4), 0), alpha=1, beta=1, out=buf15) del primals_15 buf16 = buf12; del buf12 # reuse # Topologically Sorted Source Nodes: [x_10], Original ATen: [aten.native_layer_norm] triton_poi_fused_native_layer_norm_4.run(buf15, buf16, 64, grid=grid(64), stream=stream0) buf17 = empty_strided_cuda((4, 4, 4, 2), (32, 8, 2, 1), torch.float32) # Topologically Sorted Source Nodes: [x_10], Original ATen: [aten.native_layer_norm] triton_poi_fused_native_layer_norm_5.run(buf15, buf16, primals_16, primals_17, buf17, 128, grid=grid(128), stream=stream0) del buf16 del primals_17 buf18 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf17, (64, 2), (2, 1), 0), reinterpret_tensor(primals_18, (2, 4), (1, 2), 0), out=buf18) buf19 = reinterpret_tensor(buf18, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf18 # reuse # Topologically Sorted Source Nodes: [mu], Original ATen: [aten.sigmoid] triton_poi_fused_sigmoid_6.run(buf19, primals_19, 256, grid=grid(256), stream=stream0) del primals_19 return (buf19, primals_4, primals_5, primals_8, primals_9, primals_12, primals_13, primals_16, reinterpret_tensor(primals_1, (64, 4), (4, 1), 0), buf0, reinterpret_tensor(buf4, (64, 4), (4, 1), 0), buf5, reinterpret_tensor(buf9, (64, 4), (4, 1), 0), buf10, reinterpret_tensor(buf14, (64, 4), (4, 1), 0), buf15, reinterpret_tensor(buf17, (64, 2), (2, 1), 0), buf19, primals_18, primals_14, primals_10, primals_6, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_10 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_11 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_12 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_13 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_14 = rand_strided((2, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_15 = rand_strided((2, ), (1, ), device='cuda:0', dtype=torch.float32) primals_16 = rand_strided((2, ), (1, ), device='cuda:0', dtype=torch.float32) primals_17 = rand_strided((2, ), (1, ), device='cuda:0', dtype=torch.float32) primals_18 = rand_strided((4, 2), (2, 1), device='cuda:0', dtype=torch.float32) primals_19 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13, primals_14, primals_15, primals_16, primals_17, primals_18, primals_19]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class Actor(nn.Module): def __init__(self, hidden_size, action, num_inputs, num_output, spp_num_outputs=[1, 2, 4], data_width=8): super(Actor, self).__init__() self.action = action self.num_inputs = num_inputs self.num_outputs = num_output self.spp_data_width = data_width self.spp_num_outputs = spp_num_outputs self.fc_num_inputs = sum([(i * i) for i in self.spp_num_outputs]) """ #设计残差模块用于Cb-x的向量输入 self.Cbx_res_block1 = nn.Sequential( nn.Conv2d(1, 128, kernel_size=1, padding=0), nn.BatchNorm2d(128), nn.RReLU(0.66, 0.99), nn.Conv2d(128, 128, kernel_size=3, padding=1), nn.BatchNorm2d(128), nn.RReLU(0.33, 0.66), nn.Conv2d(128, 1, kernel_size=3, padding=1), nn.BatchNorm2d(1) ) self.Cbx_res_block2 = nn.Sequential( nn.Conv2d(1, 128, kernel_size=1, padding=0), nn.BatchNorm2d(128), nn.RReLU(0.66, 0.99), nn.Conv2d(128, 128, kernel_size=3, padding=1), nn.BatchNorm2d(128), nn.RReLU(0.33, 0.66), nn.Conv2d(128, 1, kernel_size=3, padding=1), nn.BatchNorm2d(1) ) """ self.afc1 = nn.Linear(self.num_inputs, hidden_size) self.ln1 = nn.LayerNorm(hidden_size) self.relu1 = nn.RReLU(0.01, 0.33) self.afc2 = nn.Linear(hidden_size, hidden_size) self.ln2 = nn.LayerNorm(hidden_size) self.relu2 = nn.RReLU(0.33, 0.66) self.afc3 = nn.Linear(hidden_size, hidden_size) self.ln3 = nn.LayerNorm(hidden_size) self.relu3 = nn.RReLU(0.66, 0.99) self.afc4 = nn.Linear(hidden_size, hidden_size // 2) self.ln4 = nn.LayerNorm(hidden_size // 2) self.drop = nn.Dropout() self.mu = nn.Linear(hidden_size // 2, self.num_outputs) self.mu.weight.data.mul_(0.1) self.mu.bias.data.mul_(0.1) def forward(self, states): res_Cbx = states """ res_Cbx = res_Cbx.unsqueeze(2) res_Cbx = res_Cbx.unsqueeze(3) res_Cbx = res_Cbx.view(res_Cbx.size(0), 1, self.spp_data_width, res_Cbx.size(1) // self.spp_data_width) x_Cbx = self.Cbx_res_block1(res_Cbx) x_Cbx += res_Cbx res_Cbx = x_Cbx x_Cbx = self.Cbx_res_block2(res_Cbx) x_Cbx += res_Cbx x_Cbx = spatial_pyramid_pool(x_Cbx, x_Cbx.size(0), [x_Cbx.size(2), x_Cbx.size(3)], self.spp_num_outputs) x = x_Cbx.squeeze(1) """ res_Cbx = res_Cbx.squeeze() x = self.afc1(res_Cbx) x = self.ln1(x) x = self.relu1(x) x = self.afc2(x) x = self.ln2(x) x = self.relu2(x) x = self.afc3(x) x = self.ln3(x) x = self.relu3(x) x = self.afc4(x) x = self.ln4(x) x = self.drop(x) mu = torch.sigmoid(self.mu(x)) return mu def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'hidden_size': 4, 'action': 4, 'num_inputs': 4, 'num_output': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import libdevice import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_native_layer_norm_0(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + 4 * x0, xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + 4 * x0), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (2 + 4 * x0), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (3 + 4 * x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp6 = tmp4 + tmp5 tmp7 = 4.0 tmp8 = tmp6 / tmp7 tmp9 = tmp0 - tmp8 tmp10 = tmp9 * tmp9 tmp11 = tmp1 - tmp8 tmp12 = tmp11 * tmp11 tmp13 = tmp10 + tmp12 tmp14 = tmp3 - tmp8 tmp15 = tmp14 * tmp14 tmp16 = tmp13 + tmp15 tmp17 = tmp5 - tmp8 tmp18 = tmp17 * tmp17 tmp19 = tmp16 + tmp18 tmp20 = tmp19 / tmp7 tmp21 = 1e-05 tmp22 = tmp20 + tmp21 tmp23 = libdevice.rsqrt(tmp22) tl.store(out_ptr0 + x0, tmp8, xmask) tl.store(out_ptr1 + x0, tmp23, xmask) @triton.jit def triton_poi_fused_leaky_relu_native_layer_norm_1(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 x0 = xindex % 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr1 + x1, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + x1, xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr3 + x0, xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr4 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 - tmp1 tmp4 = tmp2 * tmp3 tmp6 = tmp4 * tmp5 tmp8 = tmp6 + tmp7 tmp9 = 0.0 tmp10 = tmp8 > tmp9 tmp11 = 0.17 tmp12 = tmp8 * tmp11 tmp13 = tl.where(tmp10, tmp8, tmp12) tl.store(in_out_ptr0 + x2, tmp13, xmask) @triton.jit def triton_poi_fused_leaky_relu_native_layer_norm_2(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 x0 = xindex % 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr1 + x1, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + x1, xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr3 + x0, xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr4 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 - tmp1 tmp4 = tmp2 * tmp3 tmp6 = tmp4 * tmp5 tmp8 = tmp6 + tmp7 tmp9 = 0.0 tmp10 = tmp8 > tmp9 tmp11 = 0.495 tmp12 = tmp8 * tmp11 tmp13 = tl.where(tmp10, tmp8, tmp12) tl.store(in_out_ptr0 + x2, tmp13, xmask) @triton.jit def triton_poi_fused_leaky_relu_native_layer_norm_3(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 x0 = xindex % 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr1 + x1, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + x1, xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr3 + x0, xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr4 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 - tmp1 tmp4 = tmp2 * tmp3 tmp6 = tmp4 * tmp5 tmp8 = tmp6 + tmp7 tmp9 = 0.0 tmp10 = tmp8 > tmp9 tmp11 = 0.825 tmp12 = tmp8 * tmp11 tmp13 = tl.where(tmp10, tmp8, tmp12) tl.store(in_out_ptr0 + x2, tmp13, xmask) @triton.jit def triton_poi_fused_native_layer_norm_4(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + 2 * x0, xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + 2 * x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 2.0 tmp4 = tmp2 / tmp3 tl.store(out_ptr0 + x0, tmp4, xmask) @triton.jit def triton_poi_fused_native_layer_norm_5(in_ptr0, in_ptr1, in_ptr2, in_ptr3, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 128 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 2 x0 = xindex % 2 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr1 + x1, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + 2 * x1, xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (1 + 2 * x1), xmask, eviction_policy='evict_last') tmp16 = tl.load(in_ptr2 + x0, xmask, eviction_policy='evict_last') tmp18 = tl.load(in_ptr3 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 - tmp1 tmp4 = tmp3 - tmp1 tmp5 = tmp4 * tmp4 tmp7 = tmp6 - tmp1 tmp8 = tmp7 * tmp7 tmp9 = tmp5 + tmp8 tmp10 = 2.0 tmp11 = tmp9 / tmp10 tmp12 = 1e-05 tmp13 = tmp11 + tmp12 tmp14 = libdevice.rsqrt(tmp13) tmp15 = tmp2 * tmp14 tmp17 = tmp15 * tmp16 tmp19 = tmp17 + tmp18 tl.store(out_ptr0 + x2, tmp19, xmask) @triton.jit def triton_poi_fused_sigmoid_6(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.sigmoid(tmp2) tl.store(in_out_ptr0 + x2, tmp3, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13, primals_14, primals_15, primals_16, primals_17, primals_18, primals_19) = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4, 4), (4, 1)) assert_size_stride(primals_3, (4,), (1,)) assert_size_stride(primals_4, (4,), (1,)) assert_size_stride(primals_5, (4,), (1,)) assert_size_stride(primals_6, (4, 4), (4, 1)) assert_size_stride(primals_7, (4,), (1,)) assert_size_stride(primals_8, (4,), (1,)) assert_size_stride(primals_9, (4,), (1,)) assert_size_stride(primals_10, (4, 4), (4, 1)) assert_size_stride(primals_11, (4,), (1,)) assert_size_stride(primals_12, (4,), (1,)) assert_size_stride(primals_13, (4,), (1,)) assert_size_stride(primals_14, (2, 4), (4, 1)) assert_size_stride(primals_15, (2,), (1,)) assert_size_stride(primals_16, (2,), (1,)) assert_size_stride(primals_17, (2,), (1,)) assert_size_stride(primals_18, (4, 2), (2, 1)) assert_size_stride(primals_19, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_3, reinterpret_tensor(primals_1, (64, 4), (4, 1), 0), reinterpret_tensor(primals_2, (4, 4), (1, 4), 0 ), alpha=1, beta=1, out=buf0) del primals_2 del primals_3 buf1 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 64), torch.float32) buf2 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 64), torch.float32) get_raw_stream(0) triton_poi_fused_native_layer_norm_0[grid(64)](buf0, buf1, buf2, 64, XBLOCK=64, num_warps=1, num_stages=1) buf3 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf4 = buf3 del buf3 triton_poi_fused_leaky_relu_native_layer_norm_1[grid(256)](buf4, buf0, buf1, buf2, primals_4, primals_5, 256, XBLOCK=256, num_warps=4, num_stages=1) buf5 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_7, reinterpret_tensor(buf4, (64, 4), ( 4, 1), 0), reinterpret_tensor(primals_6, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf5) del primals_7 buf6 = buf2 del buf2 buf7 = buf1 del buf1 triton_poi_fused_native_layer_norm_0[grid(64)](buf5, buf6, buf7, 64, XBLOCK=64, num_warps=1, num_stages=1) buf8 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf9 = buf8 del buf8 triton_poi_fused_leaky_relu_native_layer_norm_2[grid(256)](buf9, buf5, buf6, buf7, primals_8, primals_9, 256, XBLOCK=128, num_warps=4, num_stages=1) buf10 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_11, reinterpret_tensor(buf9, (64, 4), (4, 1), 0), reinterpret_tensor(primals_10, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf10) del primals_11 buf11 = buf7 del buf7 buf12 = buf6 del buf6 triton_poi_fused_native_layer_norm_0[grid(64)](buf10, buf11, buf12, 64, XBLOCK=64, num_warps=1, num_stages=1) buf13 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf14 = buf13 del buf13 triton_poi_fused_leaky_relu_native_layer_norm_3[grid(256)](buf14, buf10, buf11, buf12, primals_12, primals_13, 256, XBLOCK=128, num_warps=4, num_stages=1) del buf11 buf15 = empty_strided_cuda((64, 2), (2, 1), torch.float32) extern_kernels.addmm(primals_15, reinterpret_tensor(buf14, (64, 4), (4, 1), 0), reinterpret_tensor(primals_14, (4, 2), (1, 4), 0), alpha=1, beta=1, out=buf15) del primals_15 buf16 = buf12 del buf12 triton_poi_fused_native_layer_norm_4[grid(64)](buf15, buf16, 64, XBLOCK=64, num_warps=1, num_stages=1) buf17 = empty_strided_cuda((4, 4, 4, 2), (32, 8, 2, 1), torch.float32) triton_poi_fused_native_layer_norm_5[grid(128)](buf15, buf16, primals_16, primals_17, buf17, 128, XBLOCK=128, num_warps=4, num_stages=1) del buf16 del primals_17 buf18 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf17, (64, 2), (2, 1), 0), reinterpret_tensor(primals_18, (2, 4), (1, 2), 0), out=buf18) buf19 = reinterpret_tensor(buf18, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf18 triton_poi_fused_sigmoid_6[grid(256)](buf19, primals_19, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_19 return (buf19, primals_4, primals_5, primals_8, primals_9, primals_12, primals_13, primals_16, reinterpret_tensor(primals_1, (64, 4), (4, 1), 0), buf0, reinterpret_tensor(buf4, (64, 4), (4, 1), 0), buf5, reinterpret_tensor(buf9, (64, 4), (4, 1), 0), buf10, reinterpret_tensor(buf14, (64, 4), (4, 1), 0), buf15, reinterpret_tensor(buf17, (64, 2), (2, 1), 0), buf19, primals_18, primals_14, primals_10, primals_6) class ActorNew(nn.Module): def __init__(self, hidden_size, action, num_inputs, num_output, spp_num_outputs=[1, 2, 4], data_width=8): super(ActorNew, self).__init__() self.action = action self.num_inputs = num_inputs self.num_outputs = num_output self.spp_data_width = data_width self.spp_num_outputs = spp_num_outputs self.fc_num_inputs = sum([(i * i) for i in self.spp_num_outputs]) """ #设计残差模块用于Cb-x的向量输入 self.Cbx_res_block1 = nn.Sequential( nn.Conv2d(1, 128, kernel_size=1, padding=0), nn.BatchNorm2d(128), nn.RReLU(0.66, 0.99), nn.Conv2d(128, 128, kernel_size=3, padding=1), nn.BatchNorm2d(128), nn.RReLU(0.33, 0.66), nn.Conv2d(128, 1, kernel_size=3, padding=1), nn.BatchNorm2d(1) ) self.Cbx_res_block2 = nn.Sequential( nn.Conv2d(1, 128, kernel_size=1, padding=0), nn.BatchNorm2d(128), nn.RReLU(0.66, 0.99), nn.Conv2d(128, 128, kernel_size=3, padding=1), nn.BatchNorm2d(128), nn.RReLU(0.33, 0.66), nn.Conv2d(128, 1, kernel_size=3, padding=1), nn.BatchNorm2d(1) ) """ self.afc1 = nn.Linear(self.num_inputs, hidden_size) self.ln1 = nn.LayerNorm(hidden_size) self.relu1 = nn.RReLU(0.01, 0.33) self.afc2 = nn.Linear(hidden_size, hidden_size) self.ln2 = nn.LayerNorm(hidden_size) self.relu2 = nn.RReLU(0.33, 0.66) self.afc3 = nn.Linear(hidden_size, hidden_size) self.ln3 = nn.LayerNorm(hidden_size) self.relu3 = nn.RReLU(0.66, 0.99) self.afc4 = nn.Linear(hidden_size, hidden_size // 2) self.ln4 = nn.LayerNorm(hidden_size // 2) self.drop = nn.Dropout() self.mu = nn.Linear(hidden_size // 2, self.num_outputs) self.mu.weight.data.mul_(0.1) self.mu.bias.data.mul_(0.1) def forward(self, input_0): primals_2 = self.afc1.weight primals_3 = self.afc1.bias primals_4 = self.ln1.weight primals_5 = self.ln1.bias primals_6 = self.afc2.weight primals_7 = self.afc2.bias primals_8 = self.ln2.weight primals_9 = self.ln2.bias primals_10 = self.afc3.weight primals_11 = self.afc3.bias primals_12 = self.ln3.weight primals_13 = self.ln3.bias primals_14 = self.afc4.weight primals_15 = self.afc4.bias primals_16 = self.ln4.weight primals_17 = self.ln4.bias primals_18 = self.mu.weight primals_19 = self.mu.bias primals_1 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13, primals_14, primals_15, primals_16, primals_17, primals_18, primals_19]) return output[0]	GraceYYJ/cbx-k	Actor	false	9,092	[ "MIT" ]	1a955bc8d1675b8024763218482372dca982cc6c	https://github.com/GraceYYJ/cbx-k/tree/1a955bc8d1675b8024763218482372dca982cc6c
Quantization	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/od/codpy52rvc5askcobcgimowe6roz5jcvkndhmvmghsacnld6obn2.py # Topologically Sorted Source Nodes: [input_1, mul, round_1, output], Original ATen: [aten.clamp, aten.mul, aten.round, aten.div] # Source node to ATen node mapping: # input_1 => clamp_max, clamp_min # mul => mul # output => div # round_1 => round_1 # Graph fragment: # %clamp_min : [num_users=1] = call_function[target=torch.ops.aten.clamp_min.default](args = (%arg0_1, 0), kwargs = {}) # %clamp_max : [num_users=1] = call_function[target=torch.ops.aten.clamp_max.default](args = (%clamp_min, 1), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%clamp_max, 255.0), kwargs = {}) # %round_1 : [num_users=1] = call_function[target=torch.ops.aten.round.default](args = (%mul,), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%round_1, 255.0), kwargs = {}) triton_poi_fused_clamp_div_mul_round_0 = async_compile.triton('triton_poi_fused_clamp_div_mul_round_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_clamp_div_mul_round_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_clamp_div_mul_round_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = 0.0 tmp2 = triton_helpers.maximum(tmp0, tmp1) tmp3 = 1.0 tmp4 = triton_helpers.minimum(tmp2, tmp3) tmp5 = 255.0 tmp6 = tmp4 * tmp5 tmp7 = libdevice.nearbyint(tmp6) tmp8 = 0.00392156862745098 tmp9 = tmp7 * tmp8 tl.store(out_ptr0 + (x0), tmp9, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [input_1, mul, round_1, output], Original ATen: [aten.clamp, aten.mul, aten.round, aten.div] stream0 = get_raw_stream(0) triton_poi_fused_clamp_div_mul_round_0.run(arg0_1, buf0, 256, grid=grid(256), stream=stream0) del arg0_1 return (buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.utils.data import torch.nn as nn class Quant(torch.autograd.Function): @staticmethod def forward(ctx, input): input = torch.clamp(input, 0, 1) output = (input * 255.0).round() / 255.0 return output @staticmethod def backward(ctx, grad_output): return grad_output class Quantization(nn.Module): def __init__(self): super(Quantization, self).__init__() def forward(self, input): return Quant.apply(input) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import libdevice import torch.utils.data import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_clamp_div_mul_round_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = 0.0 tmp2 = triton_helpers.maximum(tmp0, tmp1) tmp3 = 1.0 tmp4 = triton_helpers.minimum(tmp2, tmp3) tmp5 = 255.0 tmp6 = tmp4 * tmp5 tmp7 = libdevice.nearbyint(tmp6) tmp8 = 0.00392156862745098 tmp9 = tmp7 * tmp8 tl.store(out_ptr0 + x0, tmp9, xmask) def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_clamp_div_mul_round_0[grid(256)](arg0_1, buf0, 256, XBLOCK=256, num_warps=4, num_stages=1) del arg0_1 return buf0, class Quant(torch.autograd.Function): @staticmethod def forward(ctx, input): input = torch.clamp(input, 0, 1) output = (input * 255.0).round() / 255.0 return output @staticmethod def backward(ctx, grad_output): return grad_output class QuantizationNew(nn.Module): def __init__(self): super(QuantizationNew, self).__init__() def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	AbnerVictor/HCFlow	Quantization	false	9,093	[ "Apache-2.0" ]	e55938ac9f58c117898e3d161ddc73b14d15289b	https://github.com/AbnerVictor/HCFlow/tree/e55938ac9f58c117898e3d161ddc73b14d15289b
MultiLayeredConv1d	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/zt/cztfdbfdeuswkfmqcigzocsq5mos7eqthkdqr2u3uktw4kuq7d5w.py # Topologically Sorted Source Nodes: [relu], Original ATen: [aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # relu => relu # Graph fragment: # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%squeeze,), kwargs = {}) # %le : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu, 0), kwargs = {}) triton_poi_fused_relu_threshold_backward_0 = async_compile.triton('triton_poi_fused_relu_threshold_backward_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i1', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_relu_threshold_backward_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_relu_threshold_backward_0(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 12 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 3) tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + (x2), tmp4, xmask) tl.store(out_ptr0 + (x2), tmp6, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/mh/cmhvpi42ibq2v7tidubg2uoo7emx6l6p4w5dmszccsffhaiuewi7.py # Topologically Sorted Source Nodes: [conv1d_1], Original ATen: [aten.convolution] # Source node to ATen node mapping: # conv1d_1 => convolution_1 # Graph fragment: # %convolution_1 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%unsqueeze_1, %primals_4, %primals_5, [1], [1], [1], False, [0], 1), kwargs = {}) triton_poi_fused_convolution_1 = async_compile.triton('triton_poi_fused_convolution_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[8], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 8 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 2) tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + (x2), tmp2, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_3, (4, ), (1, )) assert_size_stride(primals_4, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_5, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [conv1d], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(reinterpret_tensor(primals_1, (1, 4, 4), (16, 4, 1), 0), primals_2, stride=(1,), padding=(1,), dilation=(1,), transposed=False, output_padding=(0,), groups=1, bias=None) assert_size_stride(buf0, (1, 4, 3), (12, 3, 1)) buf1 = reinterpret_tensor(buf0, (4, 3), (3, 1), 0); del buf0 # reuse buf4 = empty_strided_cuda((4, 3), (3, 1), torch.bool) # Topologically Sorted Source Nodes: [relu], Original ATen: [aten.relu, aten.threshold_backward] stream0 = get_raw_stream(0) triton_poi_fused_relu_threshold_backward_0.run(buf1, primals_3, buf4, 12, grid=grid(12), stream=stream0) del primals_3 # Topologically Sorted Source Nodes: [conv1d_1], Original ATen: [aten.convolution] buf2 = extern_kernels.convolution(reinterpret_tensor(buf1, (1, 4, 3), (0, 3, 1), 0), primals_4, stride=(1,), padding=(1,), dilation=(1,), transposed=False, output_padding=(0,), groups=1, bias=None) assert_size_stride(buf2, (1, 4, 2), (8, 2, 1)) buf3 = buf2; del buf2 # reuse # Topologically Sorted Source Nodes: [conv1d_1], Original ATen: [aten.convolution] triton_poi_fused_convolution_1.run(buf3, primals_5, 8, grid=grid(8), stream=stream0) del primals_5 return (reinterpret_tensor(buf3, (4, 2), (2, 1), 0), primals_2, primals_4, reinterpret_tensor(primals_1, (1, 4, 4), (16, 4, 1), 0), reinterpret_tensor(buf1, (1, 4, 3), (12, 3, 1), 0), buf4, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.utils.data.distributed import torch.utils.data class MultiLayeredConv1d(torch.nn.Module): """Multi-layered conv1d for Transformer block. This is a module of multi-leyered conv1d designed to replace positionwise feed-forward network in Transforner block, which is introduced in `FastSpeech: Fast, Robust and Controllable Text to Speech`_. .. _`FastSpeech: Fast, Robust and Controllable Text to Speech`: https://arxiv.org/pdf/1905.09263.pdf """ def __init__(self, in_chans, hidden_chans, kernel_size, dropout_rate): """Initialize MultiLayeredConv1d module. Args: in_chans (int): Number of input channels. hidden_chans (int): Number of hidden channels. kernel_size (int): Kernel size of conv1d. dropout_rate (float): Dropout rate. """ super(MultiLayeredConv1d, self).__init__() self.w_1 = torch.nn.Conv1d(in_chans, hidden_chans, kernel_size, stride=1, padding=(kernel_size - 1) // 2) self.w_2 = torch.nn.Conv1d(hidden_chans, in_chans, kernel_size, stride=1, padding=(kernel_size - 1) // 2) self.dropout = torch.nn.Dropout(dropout_rate) def forward(self, x): """Calculate forward propagation. Args: x (Tensor): Batch of input tensors (B, ..., in_chans). Returns: Tensor: Batch of output tensors (B, ..., hidden_chans). """ x = torch.relu(self.w_1(x.transpose(-1, 1))).transpose(-1, 1) return self.w_2(self.dropout(x).transpose(-1, 1)).transpose(-1, 1) def get_inputs(): return [torch.rand([4, 4])] def get_init_inputs(): return [[], {'in_chans': 4, 'hidden_chans': 4, 'kernel_size': 4, 'dropout_rate': 0.5}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers import torch.utils.data.distributed import torch.utils.data assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_relu_threshold_backward_0(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 12 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 3 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x1, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + x2, tmp4, xmask) tl.store(out_ptr0 + x2, tmp6, xmask) @triton.jit def triton_poi_fused_convolution_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl .constexpr): xnumel = 8 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 2 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x1, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + x2, tmp2, xmask) def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_3, (4,), (1,)) assert_size_stride(primals_4, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_5, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(reinterpret_tensor(primals_1, (1, 4, 4), (16, 4, 1), 0), primals_2, stride=(1,), padding=(1,), dilation=(1,), transposed=False, output_padding=(0,), groups=1, bias=None) assert_size_stride(buf0, (1, 4, 3), (12, 3, 1)) buf1 = reinterpret_tensor(buf0, (4, 3), (3, 1), 0) del buf0 buf4 = empty_strided_cuda((4, 3), (3, 1), torch.bool) get_raw_stream(0) triton_poi_fused_relu_threshold_backward_0[grid(12)](buf1, primals_3, buf4, 12, XBLOCK=16, num_warps=1, num_stages=1) del primals_3 buf2 = extern_kernels.convolution(reinterpret_tensor(buf1, (1, 4, 3 ), (0, 3, 1), 0), primals_4, stride=(1,), padding=(1,), dilation=(1,), transposed=False, output_padding=(0,), groups=1, bias=None) assert_size_stride(buf2, (1, 4, 2), (8, 2, 1)) buf3 = buf2 del buf2 triton_poi_fused_convolution_1[grid(8)](buf3, primals_5, 8, XBLOCK= 8, num_warps=1, num_stages=1) del primals_5 return reinterpret_tensor(buf3, (4, 2), (2, 1), 0 ), primals_2, primals_4, reinterpret_tensor(primals_1, (1, 4, 4), ( 16, 4, 1), 0), reinterpret_tensor(buf1, (1, 4, 3), (12, 3, 1), 0), buf4 class MultiLayeredConv1dNew(torch.nn.Module): """Multi-layered conv1d for Transformer block. This is a module of multi-leyered conv1d designed to replace positionwise feed-forward network in Transforner block, which is introduced in `FastSpeech: Fast, Robust and Controllable Text to Speech`_. .. _`FastSpeech: Fast, Robust and Controllable Text to Speech`: https://arxiv.org/pdf/1905.09263.pdf """ def __init__(self, in_chans, hidden_chans, kernel_size, dropout_rate): """Initialize MultiLayeredConv1d module. Args: in_chans (int): Number of input channels. hidden_chans (int): Number of hidden channels. kernel_size (int): Kernel size of conv1d. dropout_rate (float): Dropout rate. """ super(MultiLayeredConv1dNew, self).__init__() self.w_1 = torch.nn.Conv1d(in_chans, hidden_chans, kernel_size, stride=1, padding=(kernel_size - 1) // 2) self.w_2 = torch.nn.Conv1d(hidden_chans, in_chans, kernel_size, stride=1, padding=(kernel_size - 1) // 2) self.dropout = torch.nn.Dropout(dropout_rate) def forward(self, input_0): primals_2 = self.w_1.weight primals_3 = self.w_1.bias primals_4 = self.w_2.weight primals_5 = self.w_2.bias primals_1 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5]) return output[0]	Five-Hundred-Years-Ago/StreamingTransformer	MultiLayeredConv1d	false	9,094	[ "Apache-2.0" ]	fdaace64ed786bbdaeea2b9f44e96f9403ef98fe	https://github.com/Five-Hundred-Years-Ago/StreamingTransformer/tree/fdaace64ed786bbdaeea2b9f44e96f9403ef98fe
SplAtConv2d	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/cq/ccqcunoz44ytyqzy34r7cs2t74rk42s65mtajwcrygug6wcgzq24.py # Topologically Sorted Source Nodes: [x, x_1], Original ATen: [aten.convolution, aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # x => convolution # x_1 => relu # Graph fragment: # %convolution : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_3, %primals_1, %primals_2, [1, 1], [0, 0], [1, 1], False, [0, 0], 2), kwargs = {}) # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution,), kwargs = {}) # %le_1 : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu, 0), kwargs = {}) triton_poi_fused_convolution_relu_threshold_backward_0 = async_compile.triton('triton_poi_fused_convolution_relu_threshold_backward_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[32], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i1', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_relu_threshold_backward_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_relu_threshold_backward_0(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 32 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 8 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + (x2), tmp4, xmask) tl.store(out_ptr0 + (x2), tmp6, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/ve/cvelarc6diodfr33zpvmvgzuuzkvprbz6m6y4ohg2zlecikuyoyi.py # Topologically Sorted Source Nodes: [add, gap, gap_1], Original ATen: [aten.add, aten.mean] # Source node to ATen node mapping: # add => add # gap => add_1 # gap_1 => mean # Graph fragment: # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%getitem_2, 0), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%add, %getitem_5), kwargs = {}) # %mean : [num_users=2] = call_function[target=torch.ops.aten.mean.dim](args = (%add_1, [-1, -2], True), kwargs = {}) triton_poi_fused_add_mean_1 = async_compile.triton('triton_poi_fused_add_mean_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_mean_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_mean_1(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = (xindex // 4) x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + (8x1)), xmask) tmp3 = tl.load(in_ptr0 + (4 + x0 + (8x1)), xmask) tmp1 = 0.0 tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp5 = 1.0 tmp6 = tmp4 / tmp5 tl.store(out_ptr0 + (x2), tmp6, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/t4/ct4hhjqt2vge2xiycaomw3jiwzw326vnuf5jpebeysc4mpxrpciw.py # Topologically Sorted Source Nodes: [gap_2, gap_3], Original ATen: [aten.convolution, aten.relu] # Source node to ATen node mapping: # gap_2 => convolution_1 # gap_3 => relu_1 # Graph fragment: # %convolution_1 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%mean, %primals_4, %primals_5, [1, 1], [0, 0], [1, 1], False, [0, 0], 1), kwargs = {}) # %relu_1 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution_1,), kwargs = {}) triton_poi_fused_convolution_relu_2 = async_compile.triton('triton_poi_fused_convolution_relu_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[128], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_relu_2', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_relu_2(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 128 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 32 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + (x2), tmp4, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/ym/cymnwinsgdg6rzof735q2mbji4z4uuuzffbkib2mmjzjggqvt5ti.py # Topologically Sorted Source Nodes: [atten], Original ATen: [aten.convolution] # Source node to ATen node mapping: # atten => convolution_2 # Graph fragment: # %convolution_2 : [num_users=2] = call_function[target=torch.ops.aten.convolution.default](args = (%relu_1, %primals_6, %primals_7, [1, 1], [0, 0], [1, 1], False, [0, 0], 1), kwargs = {}) triton_poi_fused_convolution_3 = async_compile.triton('triton_poi_fused_convolution_3', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[32], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_3', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_3(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 32 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 8 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + (x2), tmp2, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/al/calq4luacvjpbhaq6oadffm56qzlddnaiqtfsg2rnpgdoin4doyd.py # Topologically Sorted Source Nodes: [x_3], Original ATen: [aten._softmax] # Source node to ATen node mapping: # x_3 => amax, div, exp, sub, sum_1 # Graph fragment: # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%permute, [1], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%permute, %amax), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub,), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp, [1], True), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp, %sum_1), kwargs = {}) triton_poi_fused__softmax_4 = async_compile.triton('triton_poi_fused__softmax_4', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[32], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_4', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 3, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_4(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 32 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 4 x2 = (xindex // 8) tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x0 + (8x2)), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (4 + x0 + (8x2)), xmask, eviction_policy='evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp4 = tmp0 - tmp3 tmp5 = tl_math.exp(tmp4) tmp6 = tmp1 - tmp3 tmp7 = tl_math.exp(tmp6) tmp8 = tmp2 - tmp3 tmp9 = tl_math.exp(tmp8) tmp10 = tmp7 + tmp9 tmp11 = tmp5 / tmp10 tl.store(out_ptr0 + (x3), tmp11, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/np/cnpcapaif5ggvdkeg53tnm4dojax33drj6dlnhtwxrttlaoiy23c.py # Topologically Sorted Source Nodes: [mul, mul_1, add_2, out], Original ATen: [aten.mul, aten.add] # Source node to ATen node mapping: # add_2 => add_2 # mul => mul # mul_1 => mul_1 # out => add_3 # Graph fragment: # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%getitem_6, %getitem_2), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%getitem_7, %getitem_5), kwargs = {}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul, 0), kwargs = {}) # %add_3 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%add_2, %mul_1), kwargs = {}) triton_poi_fused_add_mul_5 = async_compile.triton('triton_poi_fused_add_mul_5', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_mul_5', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_mul_5(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = (xindex // 4) x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + (8x1)), xmask) tmp1 = tl.load(in_ptr1 + (x0 + (8x1)), xmask) tmp5 = tl.load(in_ptr0 + (4 + x0 + (8x1)), xmask) tmp6 = tl.load(in_ptr1 + (4 + x0 + (8x1)), xmask) tmp2 = tmp0 * tmp1 tmp3 = 0.0 tmp4 = tmp2 + tmp3 tmp7 = tmp5 * tmp6 tmp8 = tmp4 + tmp7 tl.store(out_ptr0 + (x2), tmp8, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7 = args args.clear() assert_size_stride(primals_1, (8, 2, 4, 4), (32, 16, 4, 1)) assert_size_stride(primals_2, (8, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (32, 4, 1, 1), (4, 1, 1, 1)) assert_size_stride(primals_5, (32, ), (1, )) assert_size_stride(primals_6, (8, 32, 1, 1), (32, 1, 1, 1)) assert_size_stride(primals_7, (8, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [x], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=2, bias=None) assert_size_stride(buf0, (4, 8, 1, 1), (8, 1, 1, 1)) buf1 = reinterpret_tensor(buf0, (4, 8, 1, 1), (8, 1, 32, 32), 0); del buf0 # reuse buf9 = empty_strided_cuda((4, 8, 1, 1), (8, 1, 1, 1), torch.bool) # Topologically Sorted Source Nodes: [x, x_1], Original ATen: [aten.convolution, aten.relu, aten.threshold_backward] stream0 = get_raw_stream(0) triton_poi_fused_convolution_relu_threshold_backward_0.run(buf1, primals_2, buf9, 32, grid=grid(32), stream=stream0) del primals_2 buf2 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 1, 1), torch.float32) # Topologically Sorted Source Nodes: [add, gap, gap_1], Original ATen: [aten.add, aten.mean] triton_poi_fused_add_mean_1.run(buf1, buf2, 16, grid=grid(16), stream=stream0) # Topologically Sorted Source Nodes: [gap_2], Original ATen: [aten.convolution] buf3 = extern_kernels.convolution(buf2, primals_4, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf3, (4, 32, 1, 1), (32, 1, 1, 1)) buf4 = buf3; del buf3 # reuse # Topologically Sorted Source Nodes: [gap_2, gap_3], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_2.run(buf4, primals_5, 128, grid=grid(128), stream=stream0) del primals_5 # Topologically Sorted Source Nodes: [atten], Original ATen: [aten.convolution] buf5 = extern_kernels.convolution(buf4, primals_6, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf5, (4, 8, 1, 1), (8, 1, 1, 1)) buf6 = buf5; del buf5 # reuse # Topologically Sorted Source Nodes: [atten], Original ATen: [aten.convolution] triton_poi_fused_convolution_3.run(buf6, primals_7, 32, grid=grid(32), stream=stream0) del primals_7 buf7 = empty_strided_cuda((4, 2, 1, 4), (8, 4, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [x_3], Original ATen: [aten._softmax] triton_poi_fused__softmax_4.run(buf6, buf7, 32, grid=grid(32), stream=stream0) buf8 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 1, 1), torch.float32) # Topologically Sorted Source Nodes: [mul, mul_1, add_2, out], Original ATen: [aten.mul, aten.add] triton_poi_fused_add_mul_5.run(buf7, buf1, buf8, 16, grid=grid(16), stream=stream0) return (buf8, primals_1, primals_3, primals_4, primals_6, reinterpret_tensor(buf1, (4, 4, 1, 1), (8, 1, 1, 1), 0), reinterpret_tensor(buf1, (4, 4, 1, 1), (8, 1, 1, 1), 4), buf2, buf4, buf6, reinterpret_tensor(buf7, (4, 4, 1, 1), (8, 1, 1, 1), 0), reinterpret_tensor(buf7, (4, 4, 1, 1), (8, 1, 1, 1), 4), buf9, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((8, 2, 4, 4), (32, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((8, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((32, 4, 1, 1), (4, 1, 1, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((32, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((8, 32, 1, 1), (32, 1, 1, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((8, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import logging import torch import torch.nn.functional as F from torch import nn from torch.nn import ReLU from torch.nn import Conv2d from torch.nn.modules.utils import _pair def get_norm(norm, out_channels, num_splits=1, kwargs): """ Args: norm (str or callable): Returns: nn.Module or None: the normalization layer """ if isinstance(norm, str): if len(norm) == 0: return None norm = {'BN': BatchNorm(out_channels, kwargs), 'GhostBN': GhostBatchNorm(out_channels, num_splits, kwargs), 'FrozenBN': FrozenBatchNorm(out_channels), 'GN': nn.GroupNorm(32, out_channels), 'syncBN': SyncBatchNorm(out_channels, kwargs)}[ norm] return norm class BatchNorm(nn.BatchNorm2d): def __init__(self, num_features, eps=1e-05, momentum=0.1, weight_freeze =False, bias_freeze=False, weight_init=1.0, bias_init=0.0): super().__init__(num_features, eps=eps, momentum=momentum) if weight_init is not None: self.weight.data.fill_(weight_init) if bias_init is not None: self.bias.data.fill_(bias_init) self.weight.requires_grad_(not weight_freeze) self.bias.requires_grad_(not bias_freeze) class SyncBatchNorm(nn.SyncBatchNorm): def __init__(self, num_features, eps=1e-05, momentum=0.1, weight_freeze =False, bias_freeze=False, weight_init=1.0, bias_init=0.0): super().__init__(num_features, eps=eps, momentum=momentum) if weight_init is not None: self.weight.data.fill_(weight_init) if bias_init is not None: self.bias.data.fill_(bias_init) self.weight.requires_grad_(not weight_freeze) self.bias.requires_grad_(not bias_freeze) class FrozenBatchNorm(BatchNorm): """ BatchNorm2d where the batch statistics and the affine parameters are fixed. It contains non-trainable buffers called "weight" and "bias", "running_mean", "running_var", initialized to perform identity transformation. The pre-trained backbone models from Caffe2 only contain "weight" and "bias", which are computed from the original four parameters of BN. The affine transform `x * weight + bias` will perform the equivalent computation of `(x - running_mean) / sqrt(running_var) * weight + bias`. When loading a backbone model from Caffe2, "running_mean" and "running_var" will be left unchanged as identity transformation. Other pre-trained backbone models may contain all 4 parameters. The forward is implemented by `F.batch_norm(..., training=False)`. """ _version = 3 def __init__(self, num_features, eps=1e-05): super().__init__(num_features, weight_freeze=True, bias_freeze=True) self.num_features = num_features self.eps = eps def forward(self, x): if x.requires_grad: scale = self.weight * (self.running_var + self.eps).rsqrt() bias = self.bias - self.running_mean * scale scale = scale.reshape(1, -1, 1, 1) bias = bias.reshape(1, -1, 1, 1) return x * scale + bias else: return F.batch_norm(x, self.running_mean, self.running_var, self.weight, self.bias, training=False, eps=self.eps) def _load_from_state_dict(self, state_dict, prefix, local_metadata, strict, missing_keys, unexpected_keys, error_msgs): version = local_metadata.get('version', None) if version is None or version < 2: if prefix + 'running_mean' not in state_dict: state_dict[prefix + 'running_mean'] = torch.zeros_like(self .running_mean) if prefix + 'running_var' not in state_dict: state_dict[prefix + 'running_var'] = torch.ones_like(self. running_var) if version is not None and version < 3: logger = logging.getLogger(__name__) logger.info('FrozenBatchNorm {} is upgraded to version 3.'. format(prefix.rstrip('.'))) state_dict[prefix + 'running_var'] -= self.eps super()._load_from_state_dict(state_dict, prefix, local_metadata, strict, missing_keys, unexpected_keys, error_msgs) def __repr__(self): return 'FrozenBatchNorm2d(num_features={}, eps={})'.format(self. num_features, self.eps) @classmethod def convert_frozen_batchnorm(cls, module): """ Convert BatchNorm/SyncBatchNorm in module into FrozenBatchNorm. Args: module (torch.nn.Module): Returns: If module is BatchNorm/SyncBatchNorm, returns a new module. Otherwise, in-place convert module and return it. Similar to convert_sync_batchnorm in https://github.com/pytorch/pytorch/blob/master/torch/nn/modules/batchnorm.py """ bn_module = nn.modules.batchnorm bn_module = bn_module.BatchNorm2d, bn_module.SyncBatchNorm res = module if isinstance(module, bn_module): res = cls(module.num_features) if module.affine: res.weight.data = module.weight.data.clone().detach() res.bias.data = module.bias.data.clone().detach() res.running_mean.data = module.running_mean.data res.running_var.data = module.running_var.data res.eps = module.eps else: for name, child in module.named_children(): new_child = cls.convert_frozen_batchnorm(child) if new_child is not child: res.add_module(name, new_child) return res class GhostBatchNorm(BatchNorm): def __init__(self, num_features, num_splits=1, kwargs): super().__init__(num_features, kwargs) self.num_splits = num_splits self.register_buffer('running_mean', torch.zeros(num_features)) self.register_buffer('running_var', torch.ones(num_features)) def forward(self, input): N, C, H, W = input.shape if self.training or not self.track_running_stats: self.running_mean = self.running_mean.repeat(self.num_splits) self.running_var = self.running_var.repeat(self.num_splits) outputs = F.batch_norm(input.view(-1, C * self.num_splits, H, W ), self.running_mean, self.running_var, self.weight.repeat( self.num_splits), self.bias.repeat(self.num_splits), True, self.momentum, self.eps).view(N, C, H, W) self.running_mean = torch.mean(self.running_mean.view(self. num_splits, self.num_features), dim=0) self.running_var = torch.mean(self.running_var.view(self. num_splits, self.num_features), dim=0) return outputs else: return F.batch_norm(input, self.running_mean, self.running_var, self.weight, self.bias, False, self.momentum, self.eps) class rSoftMax(nn.Module): def __init__(self, radix, cardinality): super().__init__() self.radix = radix self.cardinality = cardinality def forward(self, x): batch = x.size(0) if self.radix > 1: x = x.view(batch, self.cardinality, self.radix, -1).transpose(1, 2) x = F.softmax(x, dim=1) x = x.reshape(batch, -1) else: x = torch.sigmoid(x) return x class SplAtConv2d(nn.Module): """Split-Attention Conv2d """ def __init__(self, in_channels, channels, kernel_size, stride=(1, 1), padding=(0, 0), dilation=(1, 1), groups=1, bias=True, radix=2, reduction_factor=4, rectify=False, rectify_avg=False, norm_layer= None, num_splits=1, dropblock_prob=0.0, *kwargs): super(SplAtConv2d, self).__init__() padding = _pair(padding) self.rectify = rectify and (padding[0] > 0 or padding[1] > 0) self.rectify_avg = rectify_avg inter_channels = max(in_channels radix // reduction_factor, 32) self.radix = radix self.cardinality = groups self.channels = channels self.dropblock_prob = dropblock_prob if self.rectify: self.conv = RFConv2d(in_channels, channels * radix, kernel_size, stride, padding, dilation, groups=groups * radix, bias=bias, average_mode=rectify_avg, *kwargs) else: self.conv = Conv2d(in_channels, channels radix, kernel_size, stride, padding, dilation, groups=groups * radix, bias=bias, *kwargs) self.use_bn = norm_layer is not None if self.use_bn: self.bn0 = get_norm(norm_layer, channels radix, num_splits) self.relu = ReLU(inplace=True) self.fc1 = Conv2d(channels, inter_channels, 1, groups=self.cardinality) if self.use_bn: self.bn1 = get_norm(norm_layer, inter_channels, num_splits) self.fc2 = Conv2d(inter_channels, channels * radix, 1, groups=self. cardinality) self.rsoftmax = rSoftMax(radix, groups) def forward(self, x): x = self.conv(x) if self.use_bn: x = self.bn0(x) if self.dropblock_prob > 0.0: x = self.dropblock(x) x = self.relu(x) batch, rchannel = x.shape[:2] if self.radix > 1: splited = torch.split(x, rchannel // self.radix, dim=1) gap = sum(splited) else: gap = x gap = F.adaptive_avg_pool2d(gap, 1) gap = self.fc1(gap) if self.use_bn: gap = self.bn1(gap) gap = self.relu(gap) atten = self.fc2(gap) atten = self.rsoftmax(atten).view(batch, -1, 1, 1) if self.radix > 1: attens = torch.split(atten, rchannel // self.radix, dim=1) out = sum([(att * split) for att, split in zip(attens, splited)]) else: out = atten * x return out.contiguous() def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'in_channels': 4, 'channels': 4, 'kernel_size': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math import logging import torch.nn.functional as F from torch import nn from torch.nn import ReLU from torch.nn import Conv2d from torch.nn.modules.utils import _pair assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_convolution_relu_threshold_backward_0(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 32 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 8 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + x2, tmp4, xmask) tl.store(out_ptr0 + x2, tmp6, xmask) @triton.jit def triton_poi_fused_add_mean_1(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = xindex // 4 x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + 8 * x1), xmask) tmp3 = tl.load(in_ptr0 + (4 + x0 + 8 * x1), xmask) tmp1 = 0.0 tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp5 = 1.0 tmp6 = tmp4 / tmp5 tl.store(out_ptr0 + x2, tmp6, xmask) @triton.jit def triton_poi_fused_convolution_relu_2(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 128 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 32 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + x2, tmp4, xmask) @triton.jit def triton_poi_fused_convolution_3(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl .constexpr): xnumel = 32 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 8 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + x2, tmp2, xmask) @triton.jit def triton_poi_fused__softmax_4(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 32 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 4 x2 = xindex // 8 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + (x0 + 8 * x2), xmask, eviction_policy='evict_last' ) tmp2 = tl.load(in_ptr0 + (4 + x0 + 8 * x2), xmask, eviction_policy= 'evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp4 = tmp0 - tmp3 tmp5 = tl_math.exp(tmp4) tmp6 = tmp1 - tmp3 tmp7 = tl_math.exp(tmp6) tmp8 = tmp2 - tmp3 tmp9 = tl_math.exp(tmp8) tmp10 = tmp7 + tmp9 tmp11 = tmp5 / tmp10 tl.store(out_ptr0 + x3, tmp11, xmask) @triton.jit def triton_poi_fused_add_mul_5(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = xindex // 4 x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + 8 * x1), xmask) tmp1 = tl.load(in_ptr1 + (x0 + 8 * x1), xmask) tmp5 = tl.load(in_ptr0 + (4 + x0 + 8 * x1), xmask) tmp6 = tl.load(in_ptr1 + (4 + x0 + 8 * x1), xmask) tmp2 = tmp0 * tmp1 tmp3 = 0.0 tmp4 = tmp2 + tmp3 tmp7 = tmp5 * tmp6 tmp8 = tmp4 + tmp7 tl.store(out_ptr0 + x2, tmp8, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7) = args args.clear() assert_size_stride(primals_1, (8, 2, 4, 4), (32, 16, 4, 1)) assert_size_stride(primals_2, (8,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (32, 4, 1, 1), (4, 1, 1, 1)) assert_size_stride(primals_5, (32,), (1,)) assert_size_stride(primals_6, (8, 32, 1, 1), (32, 1, 1, 1)) assert_size_stride(primals_7, (8,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=2, bias=None) assert_size_stride(buf0, (4, 8, 1, 1), (8, 1, 1, 1)) buf1 = reinterpret_tensor(buf0, (4, 8, 1, 1), (8, 1, 32, 32), 0) del buf0 buf9 = empty_strided_cuda((4, 8, 1, 1), (8, 1, 1, 1), torch.bool) get_raw_stream(0) triton_poi_fused_convolution_relu_threshold_backward_0[grid(32)](buf1, primals_2, buf9, 32, XBLOCK=32, num_warps=1, num_stages=1) del primals_2 buf2 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 1, 1), torch.float32) triton_poi_fused_add_mean_1[grid(16)](buf1, buf2, 16, XBLOCK=16, num_warps=1, num_stages=1) buf3 = extern_kernels.convolution(buf2, primals_4, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf3, (4, 32, 1, 1), (32, 1, 1, 1)) buf4 = buf3 del buf3 triton_poi_fused_convolution_relu_2[grid(128)](buf4, primals_5, 128, XBLOCK=128, num_warps=4, num_stages=1) del primals_5 buf5 = extern_kernels.convolution(buf4, primals_6, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf5, (4, 8, 1, 1), (8, 1, 1, 1)) buf6 = buf5 del buf5 triton_poi_fused_convolution_3[grid(32)](buf6, primals_7, 32, XBLOCK=32, num_warps=1, num_stages=1) del primals_7 buf7 = empty_strided_cuda((4, 2, 1, 4), (8, 4, 4, 1), torch.float32) triton_poi_fused__softmax_4[grid(32)](buf6, buf7, 32, XBLOCK=32, num_warps=1, num_stages=1) buf8 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 1, 1), torch.float32) triton_poi_fused_add_mul_5[grid(16)](buf7, buf1, buf8, 16, XBLOCK= 16, num_warps=1, num_stages=1) return (buf8, primals_1, primals_3, primals_4, primals_6, reinterpret_tensor(buf1, (4, 4, 1, 1), (8, 1, 1, 1), 0), reinterpret_tensor(buf1, (4, 4, 1, 1), (8, 1, 1, 1), 4), buf2, buf4, buf6, reinterpret_tensor(buf7, (4, 4, 1, 1), (8, 1, 1, 1), 0), reinterpret_tensor(buf7, (4, 4, 1, 1), (8, 1, 1, 1), 4), buf9) def get_norm(norm, out_channels, num_splits=1, kwargs): """ Args: norm (str or callable): Returns: nn.Module or None: the normalization layer """ if isinstance(norm, str): if len(norm) == 0: return None norm = {'BN': BatchNorm(out_channels, kwargs), 'GhostBN': GhostBatchNorm(out_channels, num_splits, kwargs), 'FrozenBN': FrozenBatchNorm(out_channels), 'GN': nn.GroupNorm(32, out_channels), 'syncBN': SyncBatchNorm(out_channels, kwargs)}[ norm] return norm class BatchNorm(nn.BatchNorm2d): def __init__(self, num_features, eps=1e-05, momentum=0.1, weight_freeze =False, bias_freeze=False, weight_init=1.0, bias_init=0.0): super().__init__(num_features, eps=eps, momentum=momentum) if weight_init is not None: self.weight.data.fill_(weight_init) if bias_init is not None: self.bias.data.fill_(bias_init) self.weight.requires_grad_(not weight_freeze) self.bias.requires_grad_(not bias_freeze) class SyncBatchNorm(nn.SyncBatchNorm): def __init__(self, num_features, eps=1e-05, momentum=0.1, weight_freeze =False, bias_freeze=False, weight_init=1.0, bias_init=0.0): super().__init__(num_features, eps=eps, momentum=momentum) if weight_init is not None: self.weight.data.fill_(weight_init) if bias_init is not None: self.bias.data.fill_(bias_init) self.weight.requires_grad_(not weight_freeze) self.bias.requires_grad_(not bias_freeze) class FrozenBatchNorm(BatchNorm): """ BatchNorm2d where the batch statistics and the affine parameters are fixed. It contains non-trainable buffers called "weight" and "bias", "running_mean", "running_var", initialized to perform identity transformation. The pre-trained backbone models from Caffe2 only contain "weight" and "bias", which are computed from the original four parameters of BN. The affine transform `x * weight + bias` will perform the equivalent computation of `(x - running_mean) / sqrt(running_var) * weight + bias`. When loading a backbone model from Caffe2, "running_mean" and "running_var" will be left unchanged as identity transformation. Other pre-trained backbone models may contain all 4 parameters. The forward is implemented by `F.batch_norm(..., training=False)`. """ _version = 3 def __init__(self, num_features, eps=1e-05): super().__init__(num_features, weight_freeze=True, bias_freeze=True) self.num_features = num_features self.eps = eps def forward(self, x): if x.requires_grad: scale = self.weight * (self.running_var + self.eps).rsqrt() bias = self.bias - self.running_mean * scale scale = scale.reshape(1, -1, 1, 1) bias = bias.reshape(1, -1, 1, 1) return x * scale + bias else: return F.batch_norm(x, self.running_mean, self.running_var, self.weight, self.bias, training=False, eps=self.eps) def _load_from_state_dict(self, state_dict, prefix, local_metadata, strict, missing_keys, unexpected_keys, error_msgs): version = local_metadata.get('version', None) if version is None or version < 2: if prefix + 'running_mean' not in state_dict: state_dict[prefix + 'running_mean'] = torch.zeros_like(self .running_mean) if prefix + 'running_var' not in state_dict: state_dict[prefix + 'running_var'] = torch.ones_like(self. running_var) if version is not None and version < 3: logger = logging.getLogger(__name__) logger.info('FrozenBatchNorm {} is upgraded to version 3.'. format(prefix.rstrip('.'))) state_dict[prefix + 'running_var'] -= self.eps super()._load_from_state_dict(state_dict, prefix, local_metadata, strict, missing_keys, unexpected_keys, error_msgs) def __repr__(self): return 'FrozenBatchNorm2d(num_features={}, eps={})'.format(self. num_features, self.eps) @classmethod def convert_frozen_batchnorm(cls, module): """ Convert BatchNorm/SyncBatchNorm in module into FrozenBatchNorm. Args: module (torch.nn.Module): Returns: If module is BatchNorm/SyncBatchNorm, returns a new module. Otherwise, in-place convert module and return it. Similar to convert_sync_batchnorm in https://github.com/pytorch/pytorch/blob/master/torch/nn/modules/batchnorm.py """ bn_module = nn.modules.batchnorm bn_module = bn_module.BatchNorm2d, bn_module.SyncBatchNorm res = module if isinstance(module, bn_module): res = cls(module.num_features) if module.affine: res.weight.data = module.weight.data.clone().detach() res.bias.data = module.bias.data.clone().detach() res.running_mean.data = module.running_mean.data res.running_var.data = module.running_var.data res.eps = module.eps else: for name, child in module.named_children(): new_child = cls.convert_frozen_batchnorm(child) if new_child is not child: res.add_module(name, new_child) return res class GhostBatchNorm(BatchNorm): def __init__(self, num_features, num_splits=1, kwargs): super().__init__(num_features, kwargs) self.num_splits = num_splits self.register_buffer('running_mean', torch.zeros(num_features)) self.register_buffer('running_var', torch.ones(num_features)) def forward(self, input): N, C, H, W = input.shape if self.training or not self.track_running_stats: self.running_mean = self.running_mean.repeat(self.num_splits) self.running_var = self.running_var.repeat(self.num_splits) outputs = F.batch_norm(input.view(-1, C * self.num_splits, H, W ), self.running_mean, self.running_var, self.weight.repeat( self.num_splits), self.bias.repeat(self.num_splits), True, self.momentum, self.eps).view(N, C, H, W) self.running_mean = torch.mean(self.running_mean.view(self. num_splits, self.num_features), dim=0) self.running_var = torch.mean(self.running_var.view(self. num_splits, self.num_features), dim=0) return outputs else: return F.batch_norm(input, self.running_mean, self.running_var, self.weight, self.bias, False, self.momentum, self.eps) class rSoftMax(nn.Module): def __init__(self, radix, cardinality): super().__init__() self.radix = radix self.cardinality = cardinality def forward(self, x): batch = x.size(0) if self.radix > 1: x = x.view(batch, self.cardinality, self.radix, -1).transpose(1, 2) x = F.softmax(x, dim=1) x = x.reshape(batch, -1) else: x = torch.sigmoid(x) return x class SplAtConv2dNew(nn.Module): """Split-Attention Conv2d """ def __init__(self, in_channels, channels, kernel_size, stride=(1, 1), padding=(0, 0), dilation=(1, 1), groups=1, bias=True, radix=2, reduction_factor=4, rectify=False, rectify_avg=False, norm_layer= None, num_splits=1, dropblock_prob=0.0, *kwargs): super(SplAtConv2dNew, self).__init__() padding = _pair(padding) self.rectify = rectify and (padding[0] > 0 or padding[1] > 0) self.rectify_avg = rectify_avg inter_channels = max(in_channels radix // reduction_factor, 32) self.radix = radix self.cardinality = groups self.channels = channels self.dropblock_prob = dropblock_prob if self.rectify: self.conv = RFConv2d(in_channels, channels * radix, kernel_size, stride, padding, dilation, groups=groups * radix, bias=bias, average_mode=rectify_avg, *kwargs) else: self.conv = Conv2d(in_channels, channels radix, kernel_size, stride, padding, dilation, groups=groups * radix, bias=bias, *kwargs) self.use_bn = norm_layer is not None if self.use_bn: self.bn0 = get_norm(norm_layer, channels radix, num_splits) self.relu = ReLU(inplace=True) self.fc1 = Conv2d(channels, inter_channels, 1, groups=self.cardinality) if self.use_bn: self.bn1 = get_norm(norm_layer, inter_channels, num_splits) self.fc2 = Conv2d(inter_channels, channels * radix, 1, groups=self. cardinality) self.rsoftmax = rSoftMax(radix, groups) def forward(self, input_0): primals_1 = self.conv.weight primals_2 = self.conv.bias primals_4 = self.fc1.weight primals_5 = self.fc1.bias primals_6 = self.fc2.weight primals_7 = self.fc2.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7]) return output[0]	DengpanFu/fast-reid-v0	SplAtConv2d	false	9,095	[ "Apache-2.0" ]	e444c0187ccb6ef3b8348f8c5f0c5a0814b3683e	https://github.com/DengpanFu/fast-reid-v0/tree/e444c0187ccb6ef3b8348f8c5f0c5a0814b3683e
TwoLayerFCBodyWithAction	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/sm/csm4ofalq42npqq7fv6jo3il6ujywmjwqnazwa5z35h4asxel7vx.py # Topologically Sorted Source Nodes: [cat], Original ATen: [aten.cat] # Source node to ATen node mapping: # cat => cat # Graph fragment: # %cat : [num_users=2] = call_function[target=torch.ops.aten.cat.default](args = ([%relu, %primals_4], 1), kwargs = {}) triton_poi_fused_cat_0 = async_compile.triton('triton_poi_fused_cat_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[512], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_cat_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 3, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_cat_0(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 272 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 68 x1 = (xindex // 68) x2 = xindex tmp0 = x0 tmp1 = tl.full([1], 0, tl.int64) tmp2 = tmp0 >= tmp1 tmp3 = tl.full([1], 64, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + ((64x1) + x0), tmp4 & xmask, eviction_policy='evict_last', other=0.0) tmp6 = tl.load(in_ptr1 + (x0), tmp4 & xmask, eviction_policy='evict_last', other=0.0) tmp7 = tmp5 + tmp6 tmp8 = tl.full([1], 0, tl.int32) tmp9 = triton_helpers.maximum(tmp8, tmp7) tmp10 = tl.full(tmp9.shape, 0.0, tmp9.dtype) tmp11 = tl.where(tmp4, tmp9, tmp10) tmp12 = tmp0 >= tmp3 tmp13 = tl.full([1], 68, tl.int64) tmp14 = tmp0 < tmp13 tmp15 = tl.load(in_ptr2 + ((4x1) + ((-64) + x0)), tmp12 & xmask, eviction_policy='evict_last', other=0.0) tmp16 = tl.where(tmp4, tmp11, tmp15) tl.store(out_ptr0 + (x2), tmp16, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/h5/ch5wfgxhdmtlmi7l5qnxrtr4qhayeefu77lzxdk35e2ns62vxdgh.py # Topologically Sorted Source Nodes: [phi], Original ATen: [aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # phi => relu_1 # Graph fragment: # %add_tensor : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mm_default, %primals_6), kwargs = {}) # %relu_1 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%add_tensor,), kwargs = {}) # %le : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu_1, 0), kwargs = {}) triton_poi_fused_relu_threshold_backward_1 = async_compile.triton('triton_poi_fused_relu_threshold_backward_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i1', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_relu_threshold_backward_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_relu_threshold_backward_1(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 64 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + (x2), tmp4, xmask) tl.store(out_ptr0 + (x2), tmp6, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/it/cit4qjb7wmwrbvv2rtchpn3duppvfiyliqnz2jz3tymwbqqane7m.py # Topologically Sorted Source Nodes: [x], Original ATen: [aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # x => relu # Graph fragment: # %add_tensor_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mm_default_1, %primals_2), kwargs = {}) # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%add_tensor_1,), kwargs = {}) # %le_1 : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu, 0), kwargs = {}) triton_poi_fused_relu_threshold_backward_2 = async_compile.triton('triton_poi_fused_relu_threshold_backward_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i1', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_relu_threshold_backward_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_relu_threshold_backward_2(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 64 tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr1 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(out_ptr0 + (x2), tmp6, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6 = args args.clear() assert_size_stride(primals_1, (64, 4), (4, 1)) assert_size_stride(primals_2, (64, ), (1, )) assert_size_stride(primals_3, (4, 4), (4, 1)) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (64, 68), (68, 1)) assert_size_stride(primals_6, (64, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 64), (64, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(primals_3, reinterpret_tensor(primals_1, (4, 64), (1, 4), 0), out=buf0) del primals_1 buf1 = empty_strided_cuda((4, 68), (68, 1), torch.float32) # Topologically Sorted Source Nodes: [cat], Original ATen: [aten.cat] stream0 = get_raw_stream(0) triton_poi_fused_cat_0.run(buf0, primals_2, primals_4, buf1, 272, grid=grid(272), stream=stream0) del primals_4 buf2 = empty_strided_cuda((4, 64), (64, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(buf1, reinterpret_tensor(primals_5, (68, 64), (1, 68), 0), out=buf2) buf3 = buf2; del buf2 # reuse buf4 = empty_strided_cuda((4, 64), (64, 1), torch.bool) # Topologically Sorted Source Nodes: [phi], Original ATen: [aten.relu, aten.threshold_backward] triton_poi_fused_relu_threshold_backward_1.run(buf3, primals_6, buf4, 256, grid=grid(256), stream=stream0) del primals_6 buf5 = empty_strided_cuda((4, 64), (64, 1), torch.bool) # Topologically Sorted Source Nodes: [x], Original ATen: [aten.relu, aten.threshold_backward] triton_poi_fused_relu_threshold_backward_2.run(buf0, primals_2, buf5, 256, grid=grid(256), stream=stream0) del buf0 del primals_2 return (buf3, primals_3, buf1, buf4, primals_5, buf5, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((64, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((64, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((64, 68), (68, 1), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((64, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.optim import torch.nn as nn import torch.nn.functional as F def layer_init(layer, w_scale=1.0): nn.init.orthogonal_(layer.weight.data) layer.weight.data.mul_(w_scale) nn.init.constant_(layer.bias.data, 0) return layer class TwoLayerFCBodyWithAction(nn.Module): def __init__(self, state_dim, action_dim, hidden_units=(64, 64), gate=F .relu): super(TwoLayerFCBodyWithAction, self).__init__() hidden_size1, hidden_size2 = hidden_units self.fc1 = layer_init(nn.Linear(state_dim, hidden_size1)) self.fc2 = layer_init(nn.Linear(hidden_size1 + action_dim, hidden_size2)) self.gate = gate self.feature_dim = hidden_size2 def forward(self, x, action): x = self.gate(self.fc1(x)) phi = self.gate(self.fc2(torch.cat([x, action], dim=1))) return phi def get_inputs(): return [torch.rand([4, 4]), torch.rand([4, 4])] def get_init_inputs(): return [[], {'state_dim': 4, 'action_dim': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers import torch.optim import torch.nn as nn import torch.nn.functional as F assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_cat_0(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 272 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 68 x1 = xindex // 68 x2 = xindex tmp0 = x0 tl.full([1], 0, tl.int64) tmp3 = tl.full([1], 64, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + (64 * x1 + x0), tmp4 & xmask, eviction_policy= 'evict_last', other=0.0) tmp6 = tl.load(in_ptr1 + x0, tmp4 & xmask, eviction_policy='evict_last', other=0.0) tmp7 = tmp5 + tmp6 tmp8 = tl.full([1], 0, tl.int32) tmp9 = triton_helpers.maximum(tmp8, tmp7) tmp10 = tl.full(tmp9.shape, 0.0, tmp9.dtype) tmp11 = tl.where(tmp4, tmp9, tmp10) tmp12 = tmp0 >= tmp3 tl.full([1], 68, tl.int64) tmp15 = tl.load(in_ptr2 + (4 * x1 + (-64 + x0)), tmp12 & xmask, eviction_policy='evict_last', other=0.0) tmp16 = tl.where(tmp4, tmp11, tmp15) tl.store(out_ptr0 + x2, tmp16, xmask) @triton.jit def triton_poi_fused_relu_threshold_backward_1(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 64 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + x2, tmp4, xmask) tl.store(out_ptr0 + x2, tmp6, xmask) @triton.jit def triton_poi_fused_relu_threshold_backward_2(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 64 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr1 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(out_ptr0 + x2, tmp6, xmask) def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6 = args args.clear() assert_size_stride(primals_1, (64, 4), (4, 1)) assert_size_stride(primals_2, (64,), (1,)) assert_size_stride(primals_3, (4, 4), (4, 1)) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (64, 68), (68, 1)) assert_size_stride(primals_6, (64,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 64), (64, 1), torch.float32) extern_kernels.mm(primals_3, reinterpret_tensor(primals_1, (4, 64), (1, 4), 0), out=buf0) del primals_1 buf1 = empty_strided_cuda((4, 68), (68, 1), torch.float32) get_raw_stream(0) triton_poi_fused_cat_0[grid(272)](buf0, primals_2, primals_4, buf1, 272, XBLOCK=128, num_warps=4, num_stages=1) del primals_4 buf2 = empty_strided_cuda((4, 64), (64, 1), torch.float32) extern_kernels.mm(buf1, reinterpret_tensor(primals_5, (68, 64), (1, 68), 0), out=buf2) buf3 = buf2 del buf2 buf4 = empty_strided_cuda((4, 64), (64, 1), torch.bool) triton_poi_fused_relu_threshold_backward_1[grid(256)](buf3, primals_6, buf4, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_6 buf5 = empty_strided_cuda((4, 64), (64, 1), torch.bool) triton_poi_fused_relu_threshold_backward_2[grid(256)](buf0, primals_2, buf5, 256, XBLOCK=128, num_warps=4, num_stages=1) del buf0 del primals_2 return buf3, primals_3, buf1, buf4, primals_5, buf5 def layer_init(layer, w_scale=1.0): nn.init.orthogonal_(layer.weight.data) layer.weight.data.mul_(w_scale) nn.init.constant_(layer.bias.data, 0) return layer class TwoLayerFCBodyWithActionNew(nn.Module): def __init__(self, state_dim, action_dim, hidden_units=(64, 64), gate=F .relu): super(TwoLayerFCBodyWithActionNew, self).__init__() hidden_size1, hidden_size2 = hidden_units self.fc1 = layer_init(nn.Linear(state_dim, hidden_size1)) self.fc2 = layer_init(nn.Linear(hidden_size1 + action_dim, hidden_size2)) self.gate = gate self.feature_dim = hidden_size2 def forward(self, input_0, input_1): primals_1 = self.fc1.weight primals_2 = self.fc1.bias primals_5 = self.fc2.weight primals_6 = self.fc2.bias primals_3 = input_0 primals_4 = input_1 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6]) return output[0]	DMIU-ShELL/deeprl-shell	TwoLayerFCBodyWithAction	false	9,096	[ "Apache-2.0" ]	a7845ab1c4967ba2af9486625086c3d0b176d293	https://github.com/DMIU-ShELL/deeprl-shell/tree/a7845ab1c4967ba2af9486625086c3d0b176d293
cls_pos	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/mh/cmhhxeom2jdylxria4u4fu5r5o5ad6fq574sqwsxlru7ylbf46gu.py # Topologically Sorted Source Nodes: [sub_1, pow_1, fore_weight, negatives, sub_2, pow_2, mul_1, pow_3, back_weight, focal_weight, log_loss, mul_3, sum_2, assigned_box, clamp, cls_loss], Original ATen: [aten.rsub, aten.pow, aten.mul, aten.sub, aten.add, aten.binary_cross_entropy_with_logits, aten.sum, aten.clamp, aten.div] # Source node to ATen node mapping: # assigned_box => sum_1 # back_weight => mul_3 # clamp => clamp_min # cls_loss => div # focal_weight => add # fore_weight => mul_1 # log_loss => abs_1, exp, full_default, log1p, minimum, mul, neg, sub, sub_1, sub_2 # mul_1 => mul_2 # mul_3 => mul_4 # negatives => sub_3 # pow_1 => pow_1 # pow_2 => pow_2 # pow_3 => pow_3 # sub_1 => sub_4 # sub_2 => sub_5 # sum_2 => sum_2 # Graph fragment: # %sub_4 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (1.0, %select_5), kwargs = {}) # %pow_1 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sub_4, 2), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%select_2, %pow_1), kwargs = {}) # %sub_3 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%select_3, %select_4), kwargs = {}) # %sub_5 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (1.0, %select_6), kwargs = {}) # %pow_2 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sub_5, 4.0), kwargs = {}) # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub_3, %pow_2), kwargs = {}) # %pow_3 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%select_7, 2.0), kwargs = {}) # %mul_3 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul_2, %pow_3), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_1, %mul_3), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (1, %select_1), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub, %select), kwargs = {}) # %full_default : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %minimum : [num_users=1] = call_function[target=torch.ops.aten.minimum.default](args = (%full_default, %select), kwargs = {}) # %abs_1 : [num_users=1] = call_function[target=torch.ops.aten.abs.default](args = (%select,), kwargs = {}) # %neg : [num_users=1] = call_function[target=torch.ops.aten.neg.default](args = (%abs_1,), kwargs = {}) # %exp : [num_users=1] = call_function[target=torch.ops.aten.exp.default](args = (%neg,), kwargs = {}) # %log1p : [num_users=1] = call_function[target=torch.ops.aten.log1p.default](args = (%exp,), kwargs = {}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%minimum, %log1p), kwargs = {}) # %sub_2 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%mul, %sub_1), kwargs = {}) # %mul_4 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%add, %sub_2), kwargs = {}) # %sum_2 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%mul_4,), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%select_8,), kwargs = {}) # %clamp_min : [num_users=1] = call_function[target=torch.ops.aten.clamp_min.default](args = (%sum_1, 1.0), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%sum_2, %clamp_min), kwargs = {}) triton_per_fused_add_binary_cross_entropy_with_logits_clamp_div_mul_pow_rsub_sub_sum_0 = async_compile.triton('triton_per_fused_add_binary_cross_entropy_with_logits_clamp_div_mul_pow_rsub_sub_sum_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[1, 64], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {3: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 4), equal_to_1=(3,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_add_binary_cross_entropy_with_logits_clamp_div_mul_pow_rsub_sub_sum_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 2, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_add_binary_cross_entropy_with_logits_clamp_div_mul_pow_rsub_sub_sum_0(in_out_ptr0, in_ptr0, in_ptr1, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 1 rnumel = 64 RBLOCK: tl.constexpr = 64 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) r0 = rindex % 16 r1 = (rindex // 16) tmp0 = tl.load(in_ptr0 + (32 + r0 + (64r1)), None) tmp1 = tl.load(in_ptr1 + (r0 + (64r1)), None) tmp7 = tl.load(in_ptr0 + (16 + r0 + (64r1)), None) tmp9 = tl.load(in_ptr0 + (r0 + (64r1)), None) tmp2 = tl.sigmoid(tmp1) tmp3 = 1.0 tmp4 = tmp3 - tmp2 tmp5 = tmp4 * tmp4 tmp6 = tmp0 * tmp5 tmp8 = tmp7 - tmp0 tmp10 = tmp3 - tmp9 tmp11 = tmp10 * tmp10 tmp12 = tmp11 * tmp11 tmp13 = tmp8 * tmp12 tmp14 = tmp2 * tmp2 tmp15 = tmp13 * tmp14 tmp16 = tmp6 + tmp15 tmp17 = tmp3 - tmp0 tmp18 = tmp17 * tmp1 tmp19 = 0.0 tmp20 = triton_helpers.minimum(tmp19, tmp1) tmp21 = tl_math.abs(tmp1) tmp22 = -tmp21 tmp23 = tl_math.exp(tmp22) tmp24 = libdevice.log1p(tmp23) tmp25 = tmp20 - tmp24 tmp26 = tmp18 - tmp25 tmp27 = tmp16 * tmp26 tmp28 = tl.broadcast_to(tmp27, [XBLOCK, RBLOCK]) tmp30 = tl.sum(tmp28, 1)[:, None] tmp31 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp33 = tl.sum(tmp31, 1)[:, None] tmp34 = triton_helpers.maximum(tmp33, tmp3) tmp35 = tmp30 / tmp34 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([XBLOCK, 1], 0, tl.int32)), tmp35, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) buf2 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [sub_1, pow_1, fore_weight, negatives, sub_2, pow_2, mul_1, pow_3, back_weight, focal_weight, log_loss, mul_3, sum_2, assigned_box, clamp, cls_loss], Original ATen: [aten.rsub, aten.pow, aten.mul, aten.sub, aten.add, aten.binary_cross_entropy_with_logits, aten.sum, aten.clamp, aten.div] stream0 = get_raw_stream(0) triton_per_fused_add_binary_cross_entropy_with_logits_clamp_div_mul_pow_rsub_sub_sum_0.run(buf2, arg1_1, arg0_1, 1, 64, grid=grid(1), stream=stream0) del arg0_1 del arg1_1 return (buf2, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class cls_pos(nn.Module): def __init__(self): super(cls_pos, self).__init__() self.bce = nn.BCEWithLogitsLoss(reduction='none') def forward(self, pos_pred, pos_label): log_loss = self.bce(pos_pred[:, 0, :, :], pos_label[:, 2, :, :]) pos_pred = pos_pred.sigmoid() positives = pos_label[:, 2, :, :] negatives = pos_label[:, 1, :, :] - pos_label[:, 2, :, :] fore_weight = positives * (1.0 - pos_pred[:, 0, :, :]) ** 2 back_weight = negatives * (1.0 - pos_label[:, 0, :, :] ) ** 4.0 * pos_pred[:, 0, :, :] ** 2.0 focal_weight = fore_weight + back_weight assigned_box = torch.sum(pos_label[:, 2, :, :]) cls_loss = torch.sum(focal_weight * log_loss) / max(1.0, assigned_box) return cls_loss def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_per_fused_add_binary_cross_entropy_with_logits_clamp_div_mul_pow_rsub_sub_sum_0( in_out_ptr0, in_ptr0, in_ptr1, xnumel, rnumel, XBLOCK: tl.constexpr): RBLOCK: tl.constexpr = 64 xoffset = tl.program_id(0) * XBLOCK xoffset + tl.arange(0, XBLOCK)[:, None] tl.full([XBLOCK, RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[None, :] tl.full([XBLOCK, RBLOCK], True, tl.int1) r0 = rindex % 16 r1 = rindex // 16 tmp0 = tl.load(in_ptr0 + (32 + r0 + 64 * r1), None) tmp1 = tl.load(in_ptr1 + (r0 + 64 * r1), None) tmp7 = tl.load(in_ptr0 + (16 + r0 + 64 * r1), None) tmp9 = tl.load(in_ptr0 + (r0 + 64 * r1), None) tmp2 = tl.sigmoid(tmp1) tmp3 = 1.0 tmp4 = tmp3 - tmp2 tmp5 = tmp4 * tmp4 tmp6 = tmp0 * tmp5 tmp8 = tmp7 - tmp0 tmp10 = tmp3 - tmp9 tmp11 = tmp10 * tmp10 tmp12 = tmp11 * tmp11 tmp13 = tmp8 * tmp12 tmp14 = tmp2 * tmp2 tmp15 = tmp13 * tmp14 tmp16 = tmp6 + tmp15 tmp17 = tmp3 - tmp0 tmp18 = tmp17 * tmp1 tmp19 = 0.0 tmp20 = triton_helpers.minimum(tmp19, tmp1) tmp21 = tl_math.abs(tmp1) tmp22 = -tmp21 tmp23 = tl_math.exp(tmp22) tmp24 = libdevice.log1p(tmp23) tmp25 = tmp20 - tmp24 tmp26 = tmp18 - tmp25 tmp27 = tmp16 * tmp26 tmp28 = tl.broadcast_to(tmp27, [XBLOCK, RBLOCK]) tmp30 = tl.sum(tmp28, 1)[:, None] tmp31 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp33 = tl.sum(tmp31, 1)[:, None] tmp34 = triton_helpers.maximum(tmp33, tmp3) tmp35 = tmp30 / tmp34 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([XBLOCK, 1], 0, tl.int32), tmp35, None) def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) buf2 = buf0 del buf0 get_raw_stream(0) triton_per_fused_add_binary_cross_entropy_with_logits_clamp_div_mul_pow_rsub_sub_sum_0[ grid(1)](buf2, arg1_1, arg0_1, 1, 64, XBLOCK=1, num_warps=2, num_stages=1) del arg0_1 del arg1_1 return buf2, class cls_posNew(nn.Module): def __init__(self): super(cls_posNew, self).__init__() self.bce = nn.BCEWithLogitsLoss(reduction='none') def forward(self, input_0, input_1): arg0_1 = input_0 arg1_1 = input_1 output = call([arg0_1, arg1_1]) return output[0]	FrancesC0de/Pedestron	cls_pos	false	9,097	[ "Apache-2.0" ]	9ef6a408f97f8c8af98096b7945df18c9d3656ca	https://github.com/FrancesC0de/Pedestron/tree/9ef6a408f97f8c8af98096b7945df18c9d3656ca
Conv_Blocks	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/eb/cebivcwv62fevyvsdcdlinto77y4sx4nbcfpkpzffguhvem2ic7n.py # Topologically Sorted Source Nodes: [input_1, input_2], Original ATen: [aten.convolution, aten.tanh] # Source node to ATen node mapping: # input_1 => convolution # input_2 => tanh # Graph fragment: # %convolution : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_3, %primals_1, %primals_2, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %tanh : [num_users=2] = call_function[target=torch.ops.aten.tanh.default](args = (%convolution,), kwargs = {}) triton_poi_fused_convolution_tanh_0 = async_compile.triton('triton_poi_fused_convolution_tanh_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_tanh_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_tanh_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 16) % 4 tmp0 = tl.load(in_out_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = libdevice.tanh(tmp2) tl.store(in_out_ptr0 + (x3), tmp3, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/it/citiw25o2bzpowghghyesgdfdm2lebsqwdmo6qg6foemy373lm2q.py # Topologically Sorted Source Nodes: [input_3], Original ATen: [aten.max_pool2d_with_indices] # Source node to ATen node mapping: # input_3 => getitem, getitem_1 # Graph fragment: # %getitem : [num_users=1] = call_function[target=operator.getitem](args = (%_low_memory_max_pool2d_with_offsets, 0), kwargs = {}) # %getitem_1 : [num_users=1] = call_function[target=operator.getitem](args = (%_low_memory_max_pool2d_with_offsets, 1), kwargs = {}) triton_poi_fused_max_pool2d_with_indices_1 = async_compile.triton('triton_poi_fused_max_pool2d_with_indices_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i8', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_max_pool2d_with_indices_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_max_pool2d_with_indices_1(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 2 x1 = (xindex // 2) x2 = xindex tmp0 = tl.load(in_ptr0 + ((2x0) + (8x1)), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + (2x0) + (8x1)), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (4 + (2x0) + (8x1)), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (5 + (2x0) + (8x1)), xmask, eviction_policy='evict_last') tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp6 = triton_helpers.maximum(tmp5, tmp4) tmp7 = tmp1 > tmp0 tmp8 = tl.full([1], 1, tl.int8) tmp9 = tl.full([1], 0, tl.int8) tmp10 = tl.where(tmp7, tmp8, tmp9) tmp11 = tmp3 > tmp2 tmp12 = tl.full([1], 2, tl.int8) tmp13 = tl.where(tmp11, tmp12, tmp10) tmp14 = tmp5 > tmp4 tmp15 = tl.full([1], 3, tl.int8) tmp16 = tl.where(tmp14, tmp15, tmp13) tl.store(out_ptr0 + (x2), tmp6, xmask) tl.store(out_ptr1 + (x2), tmp16, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 3, 3), (36, 9, 3, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [input_1], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 4, 4), (64, 16, 4, 1)) buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [input_1, input_2], Original ATen: [aten.convolution, aten.tanh] stream0 = get_raw_stream(0) triton_poi_fused_convolution_tanh_0.run(buf1, primals_2, 256, grid=grid(256), stream=stream0) del primals_2 buf2 = empty_strided_cuda((4, 4, 2, 2), (16, 4, 2, 1), torch.float32) buf3 = empty_strided_cuda((4, 4, 2, 2), (16, 4, 2, 1), torch.int8) # Topologically Sorted Source Nodes: [input_3], Original ATen: [aten.max_pool2d_with_indices] triton_poi_fused_max_pool2d_with_indices_1.run(buf1, buf2, buf3, 64, grid=grid(64), stream=stream0) return (buf2, primals_1, primals_3, buf1, buf3, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 3, 3), (36, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class Conv_Blocks(nn.Module): def __init__(self, input_dim, output_dim, filter_size=3, batch_norm= False, non_lin='tanh', dropout=0.0, first_block=False, last_block= False, skip_connection=False): super(Conv_Blocks, self).__init__() self.skip_connection = skip_connection self.last_block = last_block self.first_block = first_block self.Block = nn.Sequential() self.Block.add_module('Conv_1', nn.Conv2d(input_dim, output_dim, filter_size, 1, 1)) if batch_norm: self.Block.add_module('BN_1', nn.BatchNorm2d(output_dim)) if non_lin == 'tanh': self.Block.add_module('NonLin_1', nn.Tanh()) elif non_lin == 'relu': self.Block.add_module('NonLin_1', nn.ReLU()) elif non_lin == 'leakyrelu': self.Block.add_module('NonLin_1', nn.LeakyReLU()) else: assert False, "non_lin = {} not valid: 'tanh', 'relu', 'leakyrelu'".format( non_lin) self.Block.add_module('Pool', nn.MaxPool2d(kernel_size=(2, 2), stride=(2, 2), dilation=(1, 1), ceil_mode=False)) if dropout > 0: self.Block.add_module('Drop', nn.Dropout2d(dropout)) def forward(self, x): if self.skip_connection: if not self.first_block: x, skip_con_list = x else: skip_con_list = [] x = self.Block(x) if self.skip_connection: if not self.last_block: skip_con_list.append(x) x = [x, skip_con_list] return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'input_dim': 4, 'output_dim': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import libdevice import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_convolution_tanh_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = xindex // 16 % 4 tmp0 = tl.load(in_out_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + x1, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = libdevice.tanh(tmp2) tl.store(in_out_ptr0 + x3, tmp3, xmask) @triton.jit def triton_poi_fused_max_pool2d_with_indices_1(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 2 x1 = xindex // 2 x2 = xindex tmp0 = tl.load(in_ptr0 + (2 * x0 + 8 * x1), xmask, eviction_policy= 'evict_last') tmp1 = tl.load(in_ptr0 + (1 + 2 * x0 + 8 * x1), xmask, eviction_policy= 'evict_last') tmp3 = tl.load(in_ptr0 + (4 + 2 * x0 + 8 * x1), xmask, eviction_policy= 'evict_last') tmp5 = tl.load(in_ptr0 + (5 + 2 * x0 + 8 * x1), xmask, eviction_policy= 'evict_last') tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp6 = triton_helpers.maximum(tmp5, tmp4) tmp7 = tmp1 > tmp0 tmp8 = tl.full([1], 1, tl.int8) tmp9 = tl.full([1], 0, tl.int8) tmp10 = tl.where(tmp7, tmp8, tmp9) tmp11 = tmp3 > tmp2 tmp12 = tl.full([1], 2, tl.int8) tmp13 = tl.where(tmp11, tmp12, tmp10) tmp14 = tmp5 > tmp4 tmp15 = tl.full([1], 3, tl.int8) tmp16 = tl.where(tmp14, tmp15, tmp13) tl.store(out_ptr0 + x2, tmp6, xmask) tl.store(out_ptr1 + x2, tmp16, xmask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 3, 3), (36, 9, 3, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 4, 4), (64, 16, 4, 1)) buf1 = buf0 del buf0 get_raw_stream(0) triton_poi_fused_convolution_tanh_0[grid(256)](buf1, primals_2, 256, XBLOCK=256, num_warps=4, num_stages=1) del primals_2 buf2 = empty_strided_cuda((4, 4, 2, 2), (16, 4, 2, 1), torch.float32) buf3 = empty_strided_cuda((4, 4, 2, 2), (16, 4, 2, 1), torch.int8) triton_poi_fused_max_pool2d_with_indices_1[grid(64)](buf1, buf2, buf3, 64, XBLOCK=64, num_warps=1, num_stages=1) return buf2, primals_1, primals_3, buf1, buf3 class Conv_BlocksNew(nn.Module): def __init__(self, input_dim, output_dim, filter_size=3, batch_norm= False, non_lin='tanh', dropout=0.0, first_block=False, last_block= False, skip_connection=False): super(Conv_BlocksNew, self).__init__() self.skip_connection = skip_connection self.last_block = last_block self.first_block = first_block self.Block = nn.Sequential() self.Block.add_module('Conv_1', nn.Conv2d(input_dim, output_dim, filter_size, 1, 1)) if batch_norm: self.Block.add_module('BN_1', nn.BatchNorm2d(output_dim)) if non_lin == 'tanh': self.Block.add_module('NonLin_1', nn.Tanh()) elif non_lin == 'relu': self.Block.add_module('NonLin_1', nn.ReLU()) elif non_lin == 'leakyrelu': self.Block.add_module('NonLin_1', nn.LeakyReLU()) else: assert False, "non_lin = {} not valid: 'tanh', 'relu', 'leakyrelu'".format( non_lin) self.Block.add_module('Pool', nn.MaxPool2d(kernel_size=(2, 2), stride=(2, 2), dilation=(1, 1), ceil_mode=False)) if dropout > 0: self.Block.add_module('Drop', nn.Dropout2d(dropout)) def forward(self, input_0): primals_1 = self.Block.Conv_1.weight primals_2 = self.Block.Conv_1.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	HRHLALALA/GoalGAN	Conv_Blocks	false	9,098	[ "MIT" ]	01443f2a578333a0d5ab3a449bc7da69f5023190	https://github.com/HRHLALALA/GoalGAN/tree/01443f2a578333a0d5ab3a449bc7da69f5023190
MySimpleNet	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/nu/cnuuaznpt4szfn74bn46qfjkdypvlkfa5x44ywjpperdjt2a66rj.py # Topologically Sorted Source Nodes: [X], Original ATen: [aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # X => relu # Graph fragment: # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%view_1,), kwargs = {}) # %le_1 : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu, 0), kwargs = {}) triton_poi_fused_relu_threshold_backward_0 = async_compile.triton('triton_poi_fused_relu_threshold_backward_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[1024], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i1', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_relu_threshold_backward_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_relu_threshold_backward_0(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 640 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 10 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + (x2), tmp4, xmask) tl.store(out_ptr0 + (x2), tmp6, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/mp/cmpdsbnpgfsr7uwb7env74mojrq3nlzieqot6rnnkfpbzkkensbi.py # Topologically Sorted Source Nodes: [X_2], Original ATen: [aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # X_2 => relu_1 # Graph fragment: # %relu_1 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%view_3,), kwargs = {}) # %le : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu_1, 0), kwargs = {}) triton_poi_fused_relu_threshold_backward_1 = async_compile.triton('triton_poi_fused_relu_threshold_backward_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i1', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_relu_threshold_backward_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_relu_threshold_backward_1(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + (x2), tmp4, xmask) tl.store(out_ptr0 + (x2), tmp6, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/z5/cz5xs7y3thsep5yn6qoths757rduuevog6mtea3nqr4nwnh2olnx.py # Topologically Sorted Source Nodes: [X_3], Original ATen: [aten._softmax] # Source node to ATen node mapping: # X_3 => amax, exp, sub # Graph fragment: # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%view_5, [1], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%view_5, %amax), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub,), kwargs = {}) triton_poi_fused__softmax_2 = async_compile.triton('triton_poi_fused__softmax_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[128], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_2(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 128 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 8 x2 = (xindex // 32) tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x0 + (32x2)), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (8 + x0 + (32x2)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (16 + x0 + (32x2)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (24 + x0 + (32x2)), xmask, eviction_policy='evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + (x3), tmp9, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/nv/cnvo7i3x3dm4mdtrcmoddo2p4odl6hgahimnieftjxkqwe7ehw54.py # Topologically Sorted Source Nodes: [X_3], Original ATen: [aten._softmax] # Source node to ATen node mapping: # X_3 => div, sum_1 # Graph fragment: # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp, [1], True), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp, %sum_1), kwargs = {}) triton_poi_fused__softmax_3 = async_compile.triton('triton_poi_fused__softmax_3', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[128], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_3', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_3(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 128 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 8 x2 = (xindex // 32) tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x0 + (32x2)), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (8 + x0 + (32x2)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (16 + x0 + (32x2)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (24 + x0 + (32x2)), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + (x3), tmp8, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7 = args args.clear() assert_size_stride(primals_1, (10, 4), (4, 1)) assert_size_stride(primals_2, (10, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 10), (10, 1)) assert_size_stride(primals_5, (4, ), (1, )) assert_size_stride(primals_6, (2, 4), (4, 1)) assert_size_stride(primals_7, (2, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 10), (10, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 10), (1, 4), 0), out=buf0) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 10), (160, 40, 10, 1), 0); del buf0 # reuse buf8 = empty_strided_cuda((4, 4, 4, 10), (160, 40, 10, 1), torch.bool) # Topologically Sorted Source Nodes: [X], Original ATen: [aten.relu, aten.threshold_backward] stream0 = get_raw_stream(0) triton_poi_fused_relu_threshold_backward_0.run(buf1, primals_2, buf8, 640, grid=grid(640), stream=stream0) del primals_2 buf2 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf1, (64, 10), (10, 1), 0), reinterpret_tensor(primals_4, (10, 4), (1, 10), 0), out=buf2) buf3 = reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf2 # reuse buf7 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) # Topologically Sorted Source Nodes: [X_2], Original ATen: [aten.relu, aten.threshold_backward] triton_poi_fused_relu_threshold_backward_1.run(buf3, primals_5, buf7, 256, grid=grid(256), stream=stream0) del primals_5 buf4 = empty_strided_cuda((64, 2), (2, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_2], Original ATen: [aten.addmm] extern_kernels.addmm(primals_7, reinterpret_tensor(buf3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_6, (4, 2), (1, 4), 0), alpha=1, beta=1, out=buf4) del primals_7 buf5 = empty_strided_cuda((4, 4, 4, 2), (32, 8, 2, 1), torch.float32) # Topologically Sorted Source Nodes: [X_3], Original ATen: [aten._softmax] triton_poi_fused__softmax_2.run(buf4, buf5, 128, grid=grid(128), stream=stream0) buf6 = reinterpret_tensor(buf4, (4, 4, 4, 2), (32, 8, 2, 1), 0); del buf4 # reuse # Topologically Sorted Source Nodes: [X_3], Original ATen: [aten._softmax] triton_poi_fused__softmax_3.run(buf5, buf6, 128, grid=grid(128), stream=stream0) del buf5 return (buf6, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(buf1, (64, 10), (10, 1), 0), reinterpret_tensor(buf3, (64, 4), (4, 1), 0), buf6, primals_6, buf7, primals_4, buf8, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((10, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((10, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 10), (10, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((2, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((2, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn.functional as F from torch import nn class MySimpleNet(nn.Module): """ Very simple 2-layer net, slightly adapted from the docs: https://skorch.readthedocs.io/en/stable/user/quickstart.html """ def __init__(self, num_in, num_feat, num_hidden=10, nonlin=F.relu): super(MySimpleNet, self).__init__() self.dense0 = nn.Linear(num_in, num_hidden) self.nonlin = nonlin self.dropout = nn.Dropout(0.5) self.dense1 = nn.Linear(num_hidden, num_feat) self.output = nn.Linear(num_feat, 2) def forward(self, X, **kwargs): X = self.nonlin(self.dense0(X)) X = self.dropout(X) X = F.relu(self.dense1(X)) X = F.softmax(self.output(X)) return X def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'num_in': 4, 'num_feat': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math import torch.nn.functional as F from torch import nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_relu_threshold_backward_0(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 640 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 10 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + x2, tmp4, xmask) tl.store(out_ptr0 + x2, tmp6, xmask) @triton.jit def triton_poi_fused_relu_threshold_backward_1(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + x2, tmp4, xmask) tl.store(out_ptr0 + x2, tmp6, xmask) @triton.jit def triton_poi_fused__softmax_2(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 128 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 8 x2 = xindex // 32 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + (x0 + 32 * x2), xmask, eviction_policy= 'evict_last') tmp2 = tl.load(in_ptr0 + (8 + x0 + 32 * x2), xmask, eviction_policy= 'evict_last') tmp4 = tl.load(in_ptr0 + (16 + x0 + 32 * x2), xmask, eviction_policy= 'evict_last') tmp6 = tl.load(in_ptr0 + (24 + x0 + 32 * x2), xmask, eviction_policy= 'evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + x3, tmp9, xmask) @triton.jit def triton_poi_fused__softmax_3(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 128 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 8 x2 = xindex // 32 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + (x0 + 32 * x2), xmask, eviction_policy= 'evict_last') tmp2 = tl.load(in_ptr0 + (8 + x0 + 32 * x2), xmask, eviction_policy= 'evict_last') tmp4 = tl.load(in_ptr0 + (16 + x0 + 32 * x2), xmask, eviction_policy= 'evict_last') tmp6 = tl.load(in_ptr0 + (24 + x0 + 32 * x2), xmask, eviction_policy= 'evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + x3, tmp8, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7) = args args.clear() assert_size_stride(primals_1, (10, 4), (4, 1)) assert_size_stride(primals_2, (10,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 10), (10, 1)) assert_size_stride(primals_5, (4,), (1,)) assert_size_stride(primals_6, (2, 4), (4, 1)) assert_size_stride(primals_7, (2,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 10), (10, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 10), (1, 4), 0), out=buf0) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 10), (160, 40, 10, 1), 0) del buf0 buf8 = empty_strided_cuda((4, 4, 4, 10), (160, 40, 10, 1), torch.bool) get_raw_stream(0) triton_poi_fused_relu_threshold_backward_0[grid(640)](buf1, primals_2, buf8, 640, XBLOCK=256, num_warps=4, num_stages=1) del primals_2 buf2 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf1, (64, 10), (10, 1), 0), reinterpret_tensor(primals_4, (10, 4), (1, 10), 0), out=buf2) buf3 = reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf2 buf7 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) triton_poi_fused_relu_threshold_backward_1[grid(256)](buf3, primals_5, buf7, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_5 buf4 = empty_strided_cuda((64, 2), (2, 1), torch.float32) extern_kernels.addmm(primals_7, reinterpret_tensor(buf3, (64, 4), ( 4, 1), 0), reinterpret_tensor(primals_6, (4, 2), (1, 4), 0), alpha=1, beta=1, out=buf4) del primals_7 buf5 = empty_strided_cuda((4, 4, 4, 2), (32, 8, 2, 1), torch.float32) triton_poi_fused__softmax_2[grid(128)](buf4, buf5, 128, XBLOCK=128, num_warps=4, num_stages=1) buf6 = reinterpret_tensor(buf4, (4, 4, 4, 2), (32, 8, 2, 1), 0) del buf4 triton_poi_fused__softmax_3[grid(128)](buf5, buf6, 128, XBLOCK=128, num_warps=4, num_stages=1) del buf5 return buf6, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0 ), reinterpret_tensor(buf1, (64, 10), (10, 1), 0), reinterpret_tensor( buf3, (64, 4), (4, 1), 0), buf6, primals_6, buf7, primals_4, buf8 class MySimpleNetNew(nn.Module): """ Very simple 2-layer net, slightly adapted from the docs: https://skorch.readthedocs.io/en/stable/user/quickstart.html """ def __init__(self, num_in, num_feat, num_hidden=10, nonlin=F.relu): super(MySimpleNetNew, self).__init__() self.dense0 = nn.Linear(num_in, num_hidden) self.nonlin = nonlin self.dropout = nn.Dropout(0.5) self.dense1 = nn.Linear(num_hidden, num_feat) self.output = nn.Linear(num_feat, 2) def forward(self, input_0): primals_1 = self.dense0.weight primals_2 = self.dense0.bias primals_4 = self.dense1.weight primals_5 = self.dense1.bias primals_6 = self.output.weight primals_7 = self.output.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7]) return output[0]	GradyKurpasi/anfis-pytorch	MySimpleNet	false	9,099	[ "MIT" ]	4cce596193a8bc65e632405ca66d116c771033d7	https://github.com/GradyKurpasi/anfis-pytorch/tree/4cce596193a8bc65e632405ca66d116c771033d7
offset_pos	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/yp/cypgmqbvz4ya4p7m3uq3dkc4d5nmsy5yjfitish6ab67lwyfv6c6.py # Topologically Sorted Source Nodes: [smooth_l1_loss, l1_loss, sum_1], Original ATen: [aten.smooth_l1_loss, aten.mul, aten.sum] # Source node to ATen node mapping: # l1_loss => mul_1 # smooth_l1_loss => abs_1, div, lt, mul, pow_1, sub, sub_1, where # sum_1 => sum_1 # Graph fragment: # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%arg1_1, %slice_5), kwargs = {}) # %abs_1 : [num_users=3] = call_function[target=torch.ops.aten.abs.default](args = (%sub,), kwargs = {}) # %lt : [num_users=1] = call_function[target=torch.ops.aten.lt.Scalar](args = (%abs_1, 1.0), kwargs = {}) # %pow_1 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%abs_1, 2), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%pow_1, 0.5), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%mul, 1.0), kwargs = {}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%abs_1, 0.5), kwargs = {}) # %where : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%lt, %div, %sub_1), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%unsqueeze, %where), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%mul_1,), kwargs = {}) triton_per_fused_mul_smooth_l1_loss_sum_0 = async_compile.triton('triton_per_fused_mul_smooth_l1_loss_sum_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[1, 128], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {3: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 4), equal_to_1=(3,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_mul_smooth_l1_loss_sum_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 3, 'num_reduction': 1, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_mul_smooth_l1_loss_sum_0(in_ptr0, in_ptr1, out_ptr0, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 1 rnumel = 128 RBLOCK: tl.constexpr = 128 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) r0 = rindex % 16 r2 = (rindex // 32) r3 = rindex r4 = rindex % 32 tmp0 = tl.load(in_ptr0 + (32 + r0 + (64r2)), None, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (r3), None) tmp2 = tl.load(in_ptr0 + (r4 + (64r2)), None) tmp3 = tmp1 - tmp2 tmp4 = tl_math.abs(tmp3) tmp5 = 1.0 tmp6 = tmp4 < tmp5 tmp7 = tmp4 * tmp4 tmp8 = 0.5 tmp9 = tmp7 * tmp8 tmp10 = tmp9 * tmp5 tmp11 = tmp4 - tmp8 tmp12 = tl.where(tmp6, tmp10, tmp11) tmp13 = tmp0 * tmp12 tmp14 = tl.broadcast_to(tmp13, [XBLOCK, RBLOCK]) tmp16 = tl.sum(tmp14, 1)[:, None] tl.store(out_ptr0 + (tl.full([XBLOCK, 1], 0, tl.int32)), tmp16, None) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/hv/chvegbdiw6s22yn5hq4mfdg47ja3rm7jboxh2fkdfpgpfnbwqus4.py # Topologically Sorted Source Nodes: [sum_2, clamp, off_loss], Original ATen: [aten.sum, aten.clamp, aten.div] # Source node to ATen node mapping: # clamp => clamp_min # off_loss => div_1 # sum_2 => sum_2 # Graph fragment: # %sum_2 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%select_1,), kwargs = {}) # %clamp_min : [num_users=1] = call_function[target=torch.ops.aten.clamp_min.default](args = (%sum_2, 1.0), kwargs = {}) # %div_1 : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%sum_1, %clamp_min), kwargs = {}) triton_per_fused_clamp_div_sum_1 = async_compile.triton('triton_per_fused_clamp_div_sum_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[1, 64], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {2: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 3), equal_to_1=(2,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_clamp_div_sum_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 1, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_clamp_div_sum_1(in_out_ptr0, in_ptr0, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 1 rnumel = 64 RBLOCK: tl.constexpr = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) r0 = rindex % 16 r1 = (rindex // 16) tmp0 = tl.load(in_ptr0 + (32 + r0 + (64*r1)), None) tmp4 = tl.load(in_out_ptr0 + (0)) tmp5 = tl.broadcast_to(tmp4, [XBLOCK, 1]) tmp1 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp3 = tl.sum(tmp1, 1)[:, None] tmp6 = 1.0 tmp7 = triton_helpers.maximum(tmp3, tmp6) tmp8 = tmp5 / tmp7 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([XBLOCK, 1], 0, tl.int32)), tmp8, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 2, 4, 4), (32, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) # Topologically Sorted Source Nodes: [smooth_l1_loss, l1_loss, sum_1], Original ATen: [aten.smooth_l1_loss, aten.mul, aten.sum] stream0 = get_raw_stream(0) triton_per_fused_mul_smooth_l1_loss_sum_0.run(arg0_1, arg1_1, buf0, 1, 128, grid=grid(1), stream=stream0) del arg1_1 buf2 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [sum_2, clamp, off_loss], Original ATen: [aten.sum, aten.clamp, aten.div] triton_per_fused_clamp_div_sum_1.run(buf2, arg0_1, 1, 64, grid=grid(1), stream=stream0) del arg0_1 return (buf2, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 2, 4, 4), (32, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class offset_pos(nn.Module): def __init__(self): super(offset_pos, self).__init__() self.smoothl1 = nn.SmoothL1Loss(reduction='none') def forward(self, offset_pred, offset_label): l1_loss = offset_label[:, 2, :, :].unsqueeze(dim=1) * self.smoothl1( offset_pred, offset_label[:, :2, :, :]) off_loss = torch.sum(l1_loss) / max(1.0, torch.sum(offset_label[:, 2, :, :])) return off_loss def get_inputs(): return [torch.rand([4, 2, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_per_fused_mul_smooth_l1_loss_sum_0(in_ptr0, in_ptr1, out_ptr0, xnumel, rnumel, XBLOCK: tl.constexpr): RBLOCK: tl.constexpr = 128 xoffset = tl.program_id(0) * XBLOCK xoffset + tl.arange(0, XBLOCK)[:, None] tl.full([XBLOCK, RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[None, :] tl.full([XBLOCK, RBLOCK], True, tl.int1) r0 = rindex % 16 r2 = rindex // 32 r3 = rindex r4 = rindex % 32 tmp0 = tl.load(in_ptr0 + (32 + r0 + 64 * r2), None, eviction_policy= 'evict_last') tmp1 = tl.load(in_ptr1 + r3, None) tmp2 = tl.load(in_ptr0 + (r4 + 64 * r2), None) tmp3 = tmp1 - tmp2 tmp4 = tl_math.abs(tmp3) tmp5 = 1.0 tmp6 = tmp4 < tmp5 tmp7 = tmp4 * tmp4 tmp8 = 0.5 tmp9 = tmp7 * tmp8 tmp10 = tmp9 * tmp5 tmp11 = tmp4 - tmp8 tmp12 = tl.where(tmp6, tmp10, tmp11) tmp13 = tmp0 * tmp12 tmp14 = tl.broadcast_to(tmp13, [XBLOCK, RBLOCK]) tmp16 = tl.sum(tmp14, 1)[:, None] tl.store(out_ptr0 + tl.full([XBLOCK, 1], 0, tl.int32), tmp16, None) @triton.jit def triton_per_fused_clamp_div_sum_1(in_out_ptr0, in_ptr0, xnumel, rnumel, XBLOCK: tl.constexpr): RBLOCK: tl.constexpr = 64 xoffset = tl.program_id(0) * XBLOCK xoffset + tl.arange(0, XBLOCK)[:, None] tl.full([XBLOCK, RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[None, :] tl.full([XBLOCK, RBLOCK], True, tl.int1) r0 = rindex % 16 r1 = rindex // 16 tmp0 = tl.load(in_ptr0 + (32 + r0 + 64 * r1), None) tmp4 = tl.load(in_out_ptr0 + 0) tmp5 = tl.broadcast_to(tmp4, [XBLOCK, 1]) tmp1 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp3 = tl.sum(tmp1, 1)[:, None] tmp6 = 1.0 tmp7 = triton_helpers.maximum(tmp3, tmp6) tmp8 = tmp5 / tmp7 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([XBLOCK, 1], 0, tl.int32), tmp8, None) def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 2, 4, 4), (32, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) get_raw_stream(0) triton_per_fused_mul_smooth_l1_loss_sum_0[grid(1)](arg0_1, arg1_1, buf0, 1, 128, XBLOCK=1, num_warps=2, num_stages=1) del arg1_1 buf2 = buf0 del buf0 triton_per_fused_clamp_div_sum_1[grid(1)](buf2, arg0_1, 1, 64, XBLOCK=1, num_warps=2, num_stages=1) del arg0_1 return buf2, class offset_posNew(nn.Module): def __init__(self): super(offset_posNew, self).__init__() self.smoothl1 = nn.SmoothL1Loss(reduction='none') def forward(self, input_0, input_1): arg1_1 = input_0 arg0_1 = input_1 output = call([arg0_1, arg1_1]) return output[0]	FrancesC0de/Pedestron	offset_pos	false	9,100	[ "Apache-2.0" ]	9ef6a408f97f8c8af98096b7945df18c9d3656ca	https://github.com/FrancesC0de/Pedestron/tree/9ef6a408f97f8c8af98096b7945df18c9d3656ca
reg_hw_pos	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/ep/cepnahboi3jdccituqgvonjsmjf3wuszmemtdu3iyxnoshyshlaz.py # Topologically Sorted Source Nodes: [add, truediv, add_1, truediv_1, smooth_l1_loss, l1_loss, add_2, truediv_2, add_3, truediv_3, smooth_l1_loss_1, mul_1, l1_loss_1, sum_1, sum_2, mul_2, clamp, reg_loss], Original ATen: [aten.add, aten.div, aten.smooth_l1_loss, aten.mul, aten.sum, aten.clamp] # Source node to ATen node mapping: # add => add # add_1 => add_1 # add_2 => add_2 # add_3 => add_3 # clamp => clamp_min # l1_loss => mul_1 # l1_loss_1 => add_4 # mul_1 => mul_3 # mul_2 => mul_4 # reg_loss => div_6 # smooth_l1_loss => abs_1, div_2, lt, mul, pow_1, sub, sub_1, where # smooth_l1_loss_1 => abs_2, div_5, lt_1, mul_2, pow_2, sub_2, sub_3, where_1 # sum_1 => sum_1 # sum_2 => sum_2 # truediv => div # truediv_1 => div_1 # truediv_2 => div_3 # truediv_3 => div_4 # Graph fragment: # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%select_2, 1e-10), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%select_1, %add), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%select_4, 1e-10), kwargs = {}) # %div_1 : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%select_3, %add_1), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%div, %div_1), kwargs = {}) # %abs_1 : [num_users=3] = call_function[target=torch.ops.aten.abs.default](args = (%sub,), kwargs = {}) # %lt : [num_users=1] = call_function[target=torch.ops.aten.lt.Scalar](args = (%abs_1, 1.0), kwargs = {}) # %pow_1 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%abs_1, 2), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%pow_1, 0.5), kwargs = {}) # %div_2 : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%mul, 1.0), kwargs = {}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%abs_1, 0.5), kwargs = {}) # %where : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%lt, %div_2, %sub_1), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%select, %where), kwargs = {}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%select_7, 1e-10), kwargs = {}) # %div_3 : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%select_6, %add_2), kwargs = {}) # %add_3 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%select_9, 1e-10), kwargs = {}) # %div_4 : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%select_8, %add_3), kwargs = {}) # %sub_2 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%div_3, %div_4), kwargs = {}) # %abs_2 : [num_users=3] = call_function[target=torch.ops.aten.abs.default](args = (%sub_2,), kwargs = {}) # %lt_1 : [num_users=1] = call_function[target=torch.ops.aten.lt.Scalar](args = (%abs_2, 1.0), kwargs = {}) # %pow_2 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%abs_2, 2), kwargs = {}) # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%pow_2, 0.5), kwargs = {}) # %div_5 : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%mul_2, 1.0), kwargs = {}) # %sub_3 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%abs_2, 0.5), kwargs = {}) # %where_1 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%lt_1, %div_5, %sub_3), kwargs = {}) # %mul_3 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%select_5, %where_1), kwargs = {}) # %add_4 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_1, %mul_3), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%add_4,), kwargs = {}) # %sum_2 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%select_10,), kwargs = {}) # %mul_4 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sum_2, 2), kwargs = {}) # %clamp_min : [num_users=1] = call_function[target=torch.ops.aten.clamp_min.default](args = (%mul_4, 1.0), kwargs = {}) # %div_6 : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%sum_1, %clamp_min), kwargs = {}) triton_per_fused_add_clamp_div_mul_smooth_l1_loss_sum_0 = async_compile.triton('triton_per_fused_add_clamp_div_mul_smooth_l1_loss_sum_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[1, 64], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {3: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 4), equal_to_1=(3,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_add_clamp_div_mul_smooth_l1_loss_sum_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 2, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_add_clamp_div_mul_smooth_l1_loss_sum_0(in_out_ptr0, in_ptr0, in_ptr1, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 1 rnumel = 64 RBLOCK: tl.constexpr = 64 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) r0 = rindex % 16 r1 = (rindex // 16) r2 = rindex tmp0 = tl.load(in_ptr0 + (32 + r0 + (64r1)), None) tmp1 = tl.load(in_ptr1 + (r0 + (64r1)), None) tmp2 = tl.load(in_ptr0 + (r0 + (64r1)), None) tmp18 = tl.load(in_ptr1 + (16 + r0 + (64r1)), None) tmp19 = tl.load(in_ptr0 + (16 + r0 + (64r1)), None) tmp3 = 1e-10 tmp4 = tmp2 + tmp3 tmp5 = tmp1 / tmp4 tmp6 = tmp2 / tmp4 tmp7 = tmp5 - tmp6 tmp8 = tl_math.abs(tmp7) tmp9 = 1.0 tmp10 = tmp8 < tmp9 tmp11 = tmp8 tmp8 tmp12 = 0.5 tmp13 = tmp11 * tmp12 tmp14 = tmp13 * tmp9 tmp15 = tmp8 - tmp12 tmp16 = tl.where(tmp10, tmp14, tmp15) tmp17 = tmp0 * tmp16 tmp20 = tmp19 + tmp3 tmp21 = tmp18 / tmp20 tmp22 = tmp19 / tmp20 tmp23 = tmp21 - tmp22 tmp24 = tl_math.abs(tmp23) tmp25 = tmp24 < tmp9 tmp26 = tmp24 * tmp24 tmp27 = tmp26 * tmp12 tmp28 = tmp27 * tmp9 tmp29 = tmp24 - tmp12 tmp30 = tl.where(tmp25, tmp28, tmp29) tmp31 = tmp0 * tmp30 tmp32 = tmp17 + tmp31 tmp33 = tl.broadcast_to(tmp32, [XBLOCK, RBLOCK]) tmp35 = tl.sum(tmp33, 1)[:, None] tmp36 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp38 = tl.sum(tmp36, 1)[:, None] tmp39 = 2.0 tmp40 = tmp38 * tmp39 tmp41 = triton_helpers.maximum(tmp40, tmp9) tmp42 = tmp35 / tmp41 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([XBLOCK, 1], 0, tl.int32)), tmp42, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf1 = empty_strided_cuda((), (), torch.float32) buf3 = buf1; del buf1 # reuse # Topologically Sorted Source Nodes: [add, truediv, add_1, truediv_1, smooth_l1_loss, l1_loss, add_2, truediv_2, add_3, truediv_3, smooth_l1_loss_1, mul_1, l1_loss_1, sum_1, sum_2, mul_2, clamp, reg_loss], Original ATen: [aten.add, aten.div, aten.smooth_l1_loss, aten.mul, aten.sum, aten.clamp] stream0 = get_raw_stream(0) triton_per_fused_add_clamp_div_mul_smooth_l1_loss_sum_0.run(buf3, arg0_1, arg1_1, 1, 64, grid=grid(1), stream=stream0) del arg0_1 del arg1_1 return (buf3, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class reg_hw_pos(nn.Module): def __init__(self): super(reg_hw_pos, self).__init__() self.smoothl1 = nn.SmoothL1Loss(reduction='none') def forward(self, h_pred, h_label): l1_loss = h_label[:, 2, :, :] * self.smoothl1(h_pred[:, 0, :, :] / (h_label[:, 0, :, :] + 1e-10), h_label[:, 0, :, :] / (h_label[:, 0, :, :] + 1e-10)) l1_loss = l1_loss + h_label[:, 2, :, :] * self.smoothl1(h_pred[:, 1, :, :] / (h_label[:, 1, :, :] + 1e-10), h_label[:, 1, :, :] / ( h_label[:, 1, :, :] + 1e-10)) reg_loss = torch.sum(l1_loss) / max(1.0, torch.sum(h_label[:, 2, :, :]) * 2) return reg_loss def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_per_fused_add_clamp_div_mul_smooth_l1_loss_sum_0(in_out_ptr0, in_ptr0, in_ptr1, xnumel, rnumel, XBLOCK: tl.constexpr): RBLOCK: tl.constexpr = 64 xoffset = tl.program_id(0) * XBLOCK xoffset + tl.arange(0, XBLOCK)[:, None] tl.full([XBLOCK, RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[None, :] tl.full([XBLOCK, RBLOCK], True, tl.int1) r0 = rindex % 16 r1 = rindex // 16 tmp0 = tl.load(in_ptr0 + (32 + r0 + 64 * r1), None) tmp1 = tl.load(in_ptr1 + (r0 + 64 * r1), None) tmp2 = tl.load(in_ptr0 + (r0 + 64 * r1), None) tmp18 = tl.load(in_ptr1 + (16 + r0 + 64 * r1), None) tmp19 = tl.load(in_ptr0 + (16 + r0 + 64 * r1), None) tmp3 = 1e-10 tmp4 = tmp2 + tmp3 tmp5 = tmp1 / tmp4 tmp6 = tmp2 / tmp4 tmp7 = tmp5 - tmp6 tmp8 = tl_math.abs(tmp7) tmp9 = 1.0 tmp10 = tmp8 < tmp9 tmp11 = tmp8 * tmp8 tmp12 = 0.5 tmp13 = tmp11 * tmp12 tmp14 = tmp13 * tmp9 tmp15 = tmp8 - tmp12 tmp16 = tl.where(tmp10, tmp14, tmp15) tmp17 = tmp0 * tmp16 tmp20 = tmp19 + tmp3 tmp21 = tmp18 / tmp20 tmp22 = tmp19 / tmp20 tmp23 = tmp21 - tmp22 tmp24 = tl_math.abs(tmp23) tmp25 = tmp24 < tmp9 tmp26 = tmp24 * tmp24 tmp27 = tmp26 * tmp12 tmp28 = tmp27 * tmp9 tmp29 = tmp24 - tmp12 tmp30 = tl.where(tmp25, tmp28, tmp29) tmp31 = tmp0 * tmp30 tmp32 = tmp17 + tmp31 tmp33 = tl.broadcast_to(tmp32, [XBLOCK, RBLOCK]) tmp35 = tl.sum(tmp33, 1)[:, None] tmp36 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp38 = tl.sum(tmp36, 1)[:, None] tmp39 = 2.0 tmp40 = tmp38 * tmp39 tmp41 = triton_helpers.maximum(tmp40, tmp9) tmp42 = tmp35 / tmp41 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([XBLOCK, 1], 0, tl.int32), tmp42, None) def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf1 = empty_strided_cuda((), (), torch.float32) buf3 = buf1 del buf1 get_raw_stream(0) triton_per_fused_add_clamp_div_mul_smooth_l1_loss_sum_0[grid(1)](buf3, arg0_1, arg1_1, 1, 64, XBLOCK=1, num_warps=2, num_stages=1) del arg0_1 del arg1_1 return buf3, class reg_hw_posNew(nn.Module): def __init__(self): super(reg_hw_posNew, self).__init__() self.smoothl1 = nn.SmoothL1Loss(reduction='none') def forward(self, input_0, input_1): arg0_1 = input_0 arg1_1 = input_1 output = call([arg0_1, arg1_1]) return output[0]	FrancesC0de/Pedestron	reg_hw_pos	false	9,101	[ "Apache-2.0" ]	9ef6a408f97f8c8af98096b7945df18c9d3656ca	https://github.com/FrancesC0de/Pedestron/tree/9ef6a408f97f8c8af98096b7945df18c9d3656ca
reg_pos	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/t4/ct4mfi2tmdoml4vm66zmppcingizexnk4bwdjvpqksyzo3js5ln4.py # Topologically Sorted Source Nodes: [add, truediv, add_1, truediv_1, smooth_l1_loss, l1_loss, sum_1, sum_2, clamp, reg_loss], Original ATen: [aten.add, aten.div, aten.smooth_l1_loss, aten.mul, aten.sum, aten.clamp] # Source node to ATen node mapping: # add => add # add_1 => add_1 # clamp => clamp_min # l1_loss => mul_1 # reg_loss => div_3 # smooth_l1_loss => abs_1, div_2, lt, mul, pow_1, sub, sub_1, where # sum_1 => sum_1 # sum_2 => sum_2 # truediv => div # truediv_1 => div_1 # Graph fragment: # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%select_2, 1e-10), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%select_1, %add), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%select_4, 1e-10), kwargs = {}) # %div_1 : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%select_3, %add_1), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%div, %div_1), kwargs = {}) # %abs_1 : [num_users=3] = call_function[target=torch.ops.aten.abs.default](args = (%sub,), kwargs = {}) # %lt : [num_users=1] = call_function[target=torch.ops.aten.lt.Scalar](args = (%abs_1, 1.0), kwargs = {}) # %pow_1 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%abs_1, 2), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%pow_1, 0.5), kwargs = {}) # %div_2 : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%mul, 1.0), kwargs = {}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%abs_1, 0.5), kwargs = {}) # %where : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%lt, %div_2, %sub_1), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%select, %where), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%mul_1,), kwargs = {}) # %sum_2 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%select_5,), kwargs = {}) # %clamp_min : [num_users=1] = call_function[target=torch.ops.aten.clamp_min.default](args = (%sum_2, 1.0), kwargs = {}) # %div_3 : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%sum_1, %clamp_min), kwargs = {}) triton_per_fused_add_clamp_div_mul_smooth_l1_loss_sum_0 = async_compile.triton('triton_per_fused_add_clamp_div_mul_smooth_l1_loss_sum_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[1, 64], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {3: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 4), equal_to_1=(3,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_add_clamp_div_mul_smooth_l1_loss_sum_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 3, 'num_reduction': 2, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_add_clamp_div_mul_smooth_l1_loss_sum_0(in_out_ptr0, in_ptr0, in_ptr1, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 1 rnumel = 64 RBLOCK: tl.constexpr = 64 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) r0 = rindex % 16 r1 = (rindex // 16) tmp0 = tl.load(in_ptr0 + (16 + r0 + (64r1)), None) tmp1 = tl.load(in_ptr1 + (r0 + (64r1)), None) tmp2 = tl.load(in_ptr0 + (r0 + (64r1)), None) tmp3 = 1e-10 tmp4 = tmp2 + tmp3 tmp5 = tmp1 / tmp4 tmp6 = tmp2 / tmp4 tmp7 = tmp5 - tmp6 tmp8 = tl_math.abs(tmp7) tmp9 = 1.0 tmp10 = tmp8 < tmp9 tmp11 = tmp8 tmp8 tmp12 = 0.5 tmp13 = tmp11 * tmp12 tmp14 = tmp13 * tmp9 tmp15 = tmp8 - tmp12 tmp16 = tl.where(tmp10, tmp14, tmp15) tmp17 = tmp0 * tmp16 tmp18 = tl.broadcast_to(tmp17, [XBLOCK, RBLOCK]) tmp20 = tl.sum(tmp18, 1)[:, None] tmp21 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp23 = tl.sum(tmp21, 1)[:, None] tmp24 = triton_helpers.maximum(tmp23, tmp9) tmp25 = tmp20 / tmp24 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([XBLOCK, 1], 0, tl.int32)), tmp25, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) buf2 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [add, truediv, add_1, truediv_1, smooth_l1_loss, l1_loss, sum_1, sum_2, clamp, reg_loss], Original ATen: [aten.add, aten.div, aten.smooth_l1_loss, aten.mul, aten.sum, aten.clamp] stream0 = get_raw_stream(0) triton_per_fused_add_clamp_div_mul_smooth_l1_loss_sum_0.run(buf2, arg0_1, arg1_1, 1, 64, grid=grid(1), stream=stream0) del arg0_1 del arg1_1 return (buf2, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class reg_pos(nn.Module): def __init__(self): super(reg_pos, self).__init__() self.smoothl1 = nn.SmoothL1Loss(reduction='none') def forward(self, h_pred, h_label): l1_loss = h_label[:, 1, :, :] * self.smoothl1(h_pred[:, 0, :, :] / (h_label[:, 0, :, :] + 1e-10), h_label[:, 0, :, :] / (h_label[:, 0, :, :] + 1e-10)) reg_loss = torch.sum(l1_loss) / max(1.0, torch.sum(h_label[:, 1, :, :]) ) return reg_loss def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_per_fused_add_clamp_div_mul_smooth_l1_loss_sum_0(in_out_ptr0, in_ptr0, in_ptr1, xnumel, rnumel, XBLOCK: tl.constexpr): RBLOCK: tl.constexpr = 64 xoffset = tl.program_id(0) * XBLOCK xoffset + tl.arange(0, XBLOCK)[:, None] tl.full([XBLOCK, RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[None, :] tl.full([XBLOCK, RBLOCK], True, tl.int1) r0 = rindex % 16 r1 = rindex // 16 tmp0 = tl.load(in_ptr0 + (16 + r0 + 64 * r1), None) tmp1 = tl.load(in_ptr1 + (r0 + 64 * r1), None) tmp2 = tl.load(in_ptr0 + (r0 + 64 * r1), None) tmp3 = 1e-10 tmp4 = tmp2 + tmp3 tmp5 = tmp1 / tmp4 tmp6 = tmp2 / tmp4 tmp7 = tmp5 - tmp6 tmp8 = tl_math.abs(tmp7) tmp9 = 1.0 tmp10 = tmp8 < tmp9 tmp11 = tmp8 * tmp8 tmp12 = 0.5 tmp13 = tmp11 * tmp12 tmp14 = tmp13 * tmp9 tmp15 = tmp8 - tmp12 tmp16 = tl.where(tmp10, tmp14, tmp15) tmp17 = tmp0 * tmp16 tmp18 = tl.broadcast_to(tmp17, [XBLOCK, RBLOCK]) tmp20 = tl.sum(tmp18, 1)[:, None] tmp21 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp23 = tl.sum(tmp21, 1)[:, None] tmp24 = triton_helpers.maximum(tmp23, tmp9) tmp25 = tmp20 / tmp24 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([XBLOCK, 1], 0, tl.int32), tmp25, None) def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) buf2 = buf0 del buf0 get_raw_stream(0) triton_per_fused_add_clamp_div_mul_smooth_l1_loss_sum_0[grid(1)](buf2, arg0_1, arg1_1, 1, 64, XBLOCK=1, num_warps=2, num_stages=1) del arg0_1 del arg1_1 return buf2, class reg_posNew(nn.Module): def __init__(self): super(reg_posNew, self).__init__() self.smoothl1 = nn.SmoothL1Loss(reduction='none') def forward(self, input_0, input_1): arg0_1 = input_0 arg1_1 = input_1 output = call([arg0_1, arg1_1]) return output[0]	FrancesC0de/Pedestron	reg_pos	false	9,102	[ "Apache-2.0" ]	9ef6a408f97f8c8af98096b7945df18c9d3656ca	https://github.com/FrancesC0de/Pedestron/tree/9ef6a408f97f8c8af98096b7945df18c9d3656ca
UpConv_Blocks	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/yc/cycbtdvqtyxjsgaimpcojovnnvdvai7x2rwfpdg6y3klla5ga3wu.py # Topologically Sorted Source Nodes: [input_1, input_2], Original ATen: [aten.convolution, aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # input_1 => convolution # input_2 => relu # Graph fragment: # %convolution : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_3, %primals_1, %primals_2, [2, 2], [1, 1], [1, 1], True, [0, 0], 1), kwargs = {}) # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution,), kwargs = {}) # %le : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu, 0), kwargs = {}) triton_poi_fused_convolution_relu_threshold_backward_0 = async_compile.triton('triton_poi_fused_convolution_relu_threshold_backward_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[1024], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i1', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_relu_threshold_backward_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_relu_threshold_backward_0(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 1024 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 64) % 4 tmp0 = tl.load(in_out_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + (x3), tmp4, xmask) tl.store(out_ptr0 + (x3), tmp6, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [input_1], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(2, 2), padding=(1, 1), dilation=(1, 1), transposed=True, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 8, 8), (256, 64, 8, 1)) buf1 = buf0; del buf0 # reuse buf2 = empty_strided_cuda((4, 4, 8, 8), (256, 64, 8, 1), torch.bool) # Topologically Sorted Source Nodes: [input_1, input_2], Original ATen: [aten.convolution, aten.relu, aten.threshold_backward] stream0 = get_raw_stream(0) triton_poi_fused_convolution_relu_threshold_backward_0.run(buf1, primals_2, buf2, 1024, grid=grid(1024), stream=stream0) del primals_2 return (buf1, primals_1, primals_3, buf2, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class UpConv_Blocks(nn.Module): def __init__(self, input_dim, output_dim, filter=4, padding=1, first_block=False, last_block=False, batch_norm=False, non_lin= 'relu', dropout=0, skip_connection=False): super(UpConv_Blocks, self).__init__() self.Block = nn.Sequential() self.skip_connection = skip_connection self.first_block = first_block self.last_block = last_block if self.skip_connection and not self.first_block: input_dim *= 2 else: pass self.Block.add_module('UpConv', nn.ConvTranspose2d(input_dim, output_dim, filter, 2, padding)) if not last_block: if batch_norm: self.Block.add_module('BN_up', nn.BatchNorm2d(output_dim)) if non_lin == 'tanh': self.Block.add_module('NonLin_up', nn.Tanh()) elif non_lin == 'relu': self.Block.add_module('NonLin_up', nn.ReLU()) elif non_lin == 'leakyrelu': self.Block.add_module('NonLin_up', nn.LeakyReLU()) if dropout > 0: self.Block.add_module('Drop_up', nn.Dropout2d(dropout)) def forward(self, x): if self.skip_connection: x, skip_con_list = x if not self.first_block: x = torch.cat((x, skip_con_list.pop(-1)), -3) x = self.Block(x) if self.skip_connection and not self.last_block: x = [x, skip_con_list] return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'input_dim': 4, 'output_dim': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_convolution_relu_threshold_backward_0(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 1024 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = xindex // 64 % 4 tmp0 = tl.load(in_out_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + x1, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + x3, tmp4, xmask) tl.store(out_ptr0 + x3, tmp6, xmask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(2, 2), padding=(1, 1), dilation=(1, 1), transposed=True, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 8, 8), (256, 64, 8, 1)) buf1 = buf0 del buf0 buf2 = empty_strided_cuda((4, 4, 8, 8), (256, 64, 8, 1), torch.bool) get_raw_stream(0) triton_poi_fused_convolution_relu_threshold_backward_0[grid(1024)](buf1 , primals_2, buf2, 1024, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 return buf1, primals_1, primals_3, buf2 class UpConv_BlocksNew(nn.Module): def __init__(self, input_dim, output_dim, filter=4, padding=1, first_block=False, last_block=False, batch_norm=False, non_lin= 'relu', dropout=0, skip_connection=False): super(UpConv_BlocksNew, self).__init__() self.Block = nn.Sequential() self.skip_connection = skip_connection self.first_block = first_block self.last_block = last_block if self.skip_connection and not self.first_block: input_dim *= 2 else: pass self.Block.add_module('UpConv', nn.ConvTranspose2d(input_dim, output_dim, filter, 2, padding)) if not last_block: if batch_norm: self.Block.add_module('BN_up', nn.BatchNorm2d(output_dim)) if non_lin == 'tanh': self.Block.add_module('NonLin_up', nn.Tanh()) elif non_lin == 'relu': self.Block.add_module('NonLin_up', nn.ReLU()) elif non_lin == 'leakyrelu': self.Block.add_module('NonLin_up', nn.LeakyReLU()) if dropout > 0: self.Block.add_module('Drop_up', nn.Dropout2d(dropout)) def forward(self, input_0): primals_1 = self.Block.UpConv.weight primals_2 = self.Block.UpConv.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	HRHLALALA/GoalGAN	UpConv_Blocks	false	9,103	[ "MIT" ]	01443f2a578333a0d5ab3a449bc7da69f5023190	https://github.com/HRHLALALA/GoalGAN/tree/01443f2a578333a0d5ab3a449bc7da69f5023190
Conv2dZeros	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/zv/czvhqogqibwnm23q44xn6gzvpm2ac5f4wseb2e7zgfnmpvynwgoy.py # Topologically Sorted Source Nodes: [output, mul, exp, mul_1], Original ATen: [aten.convolution, aten.mul, aten.exp] # Source node to ATen node mapping: # exp => exp # mul => mul # mul_1 => mul_1 # output => convolution # Graph fragment: # %convolution : [num_users=2] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_3, %primals_1, %primals_2, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%primals_4, 3), kwargs = {}) # %exp : [num_users=1] = call_function[target=torch.ops.aten.exp.default](args = (%mul,), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%convolution, %exp), kwargs = {}) triton_poi_fused_convolution_exp_mul_0 = async_compile.triton('triton_poi_fused_convolution_exp_mul_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_exp_mul_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 3, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_exp_mul_0(in_out_ptr0, in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 16) % 4 tmp0 = tl.load(in_out_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x1), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr1 + (x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp4 = 3.0 tmp5 = tmp3 * tmp4 tmp6 = tl_math.exp(tmp5) tmp7 = tmp2 * tmp6 tl.store(in_out_ptr0 + (x3), tmp2, xmask) tl.store(out_ptr0 + (x3), tmp7, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4 = args args.clear() assert_size_stride(primals_1, (4, 4, 3, 3), (36, 9, 3, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 1, 1), (1, 1, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [output], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 4, 4), (64, 16, 4, 1)) buf1 = buf0; del buf0 # reuse buf2 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [output, mul, exp, mul_1], Original ATen: [aten.convolution, aten.mul, aten.exp] stream0 = get_raw_stream(0) triton_poi_fused_convolution_exp_mul_0.run(buf1, primals_2, primals_4, buf2, 256, grid=grid(256), stream=stream0) del primals_2 return (buf2, primals_1, primals_3, primals_4, buf1, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 3, 3), (36, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 1, 1), (1, 1, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.utils.data import torch.nn as nn class _ActNorm(nn.Module): """ Activation Normalization Initialize the bias and scale with a given minibatch, so that the output per-channel have zero mean and unit variance for that. After initialization, `bias` and `logs` will be trained as parameters. """ def __init__(self, num_features, scale=1.0): super().__init__() size = [1, num_features, 1, 1] self.register_parameter('bias', nn.Parameter(torch.zeros(size))) self.register_parameter('logs', nn.Parameter(torch.zeros(size))) self.num_features = num_features self.scale = float(scale) self.inited = False def _check_input_dim(self, input): return NotImplemented def initialize_parameters(self, input): self._check_input_dim(input) if not self.training: return if (self.bias != 0).any(): self.inited = True return assert input.device == self.bias.device, (input.device, self.bias. device) with torch.no_grad(): bias = thops.mean(input.clone(), dim=[0, 2, 3], keepdim=True ) * -1.0 vars = thops.mean((input.clone() + bias) ** 2, dim=[0, 2, 3], keepdim=True) logs = torch.log(self.scale / (torch.sqrt(vars) + 1e-06)) self.bias.data.copy_(bias.data) self.logs.data.copy_(logs.data) self.inited = True def _center(self, input, reverse=False, offset=None): bias = self.bias if offset is not None: bias = bias + offset if not reverse: return input + bias else: return input - bias def _scale(self, input, logdet=None, reverse=False, offset=None): logs = self.logs if offset is not None: logs = logs + offset if not reverse: input = input * torch.exp(logs) else: input = input * torch.exp(-logs) if logdet is not None: """ logs is log_std of `mean of channels` so we need to multiply pixels """ dlogdet = thops.sum(logs) * thops.pixels(input) if reverse: dlogdet = -1 logdet = logdet + dlogdet return input, logdet def forward(self, input, logdet=None, reverse=False, offset_mask=None, logs_offset=None, bias_offset=None): if not self.inited: self.initialize_parameters(input) if offset_mask is not None: logs_offset = offset_mask bias_offset = offset_mask if not reverse: input = self._center(input, reverse, bias_offset) input, logdet = self._scale(input, logdet, reverse, logs_offset) else: input, logdet = self._scale(input, logdet, reverse, logs_offset) input = self._center(input, reverse, bias_offset) return input, logdet class ActNorm2d(_ActNorm): def __init__(self, num_features, scale=1.0): super().__init__(num_features, scale) def _check_input_dim(self, input): assert len(input.size()) == 4 assert input.size(1 ) == self.num_features, '[ActNorm]: input should be in shape as `BCHW`, channels should be {} rather than {}'.format( self.num_features, input.size()) class Conv2d(nn.Conv2d): pad_dict = {'same': lambda kernel, stride: [(((k - 1) s + 1) // 2) for k, s in zip(kernel, stride)], 'valid': lambda kernel, stride: [(0) for _ in kernel]} @staticmethod def get_padding(padding, kernel_size, stride): if isinstance(padding, str): if isinstance(kernel_size, int): kernel_size = [kernel_size, kernel_size] if isinstance(stride, int): stride = [stride, stride] padding = padding.lower() try: padding = Conv2d.pad_dict[padding](kernel_size, stride) except KeyError: raise ValueError('{} is not supported'.format(padding)) return padding def __init__(self, in_channels, out_channels, kernel_size=[3, 3], stride=[1, 1], padding='same', groups=1, do_actnorm=True, weight_std=0.05): padding = Conv2d.get_padding(padding, kernel_size, stride) super().__init__(in_channels, out_channels, kernel_size, stride, padding, groups=groups, bias=not do_actnorm) self.weight.data.normal_(mean=0.0, std=weight_std) if not do_actnorm: self.bias.data.zero_() else: self.actnorm = ActNorm2d(out_channels) self.do_actnorm = do_actnorm def forward(self, input): x = super().forward(input) if self.do_actnorm: x, _ = self.actnorm(x) return x class Conv2dZeros(nn.Conv2d): def __init__(self, in_channels, out_channels, kernel_size=[3, 3], stride=[1, 1], padding='same', logscale_factor=3): padding = Conv2d.get_padding(padding, kernel_size, stride) super().__init__(in_channels, out_channels, kernel_size, stride, padding) self.logscale_factor = logscale_factor self.register_parameter('logs', nn.Parameter(torch.zeros( out_channels, 1, 1))) self.weight.data.zero_() self.bias.data.zero_() def forward(self, input): output = super().forward(input) return output * torch.exp(self.logs * self.logscale_factor) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'in_channels': 4, 'out_channels': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import math as tl_math import torch.utils.data import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_convolution_exp_mul_0(in_out_ptr0, in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = xindex // 16 % 4 tmp0 = tl.load(in_out_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + x1, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr1 + x1, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp4 = 3.0 tmp5 = tmp3 * tmp4 tmp6 = tl_math.exp(tmp5) tmp7 = tmp2 * tmp6 tl.store(in_out_ptr0 + x3, tmp2, xmask) tl.store(out_ptr0 + x3, tmp7, xmask) def call(args): primals_1, primals_2, primals_3, primals_4 = args args.clear() assert_size_stride(primals_1, (4, 4, 3, 3), (36, 9, 3, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 1, 1), (1, 1, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 4, 4), (64, 16, 4, 1)) buf1 = buf0 del buf0 buf2 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_convolution_exp_mul_0[grid(256)](buf1, primals_2, primals_4, buf2, 256, XBLOCK=256, num_warps=4, num_stages=1) del primals_2 return buf2, primals_1, primals_3, primals_4, buf1 class _ActNorm(nn.Module): """ Activation Normalization Initialize the bias and scale with a given minibatch, so that the output per-channel have zero mean and unit variance for that. After initialization, `bias` and `logs` will be trained as parameters. """ def __init__(self, num_features, scale=1.0): super().__init__() size = [1, num_features, 1, 1] self.register_parameter('bias', nn.Parameter(torch.zeros(size))) self.register_parameter('logs', nn.Parameter(torch.zeros(size))) self.num_features = num_features self.scale = float(scale) self.inited = False def _check_input_dim(self, input): return NotImplemented def initialize_parameters(self, input): self._check_input_dim(input) if not self.training: return if (self.bias != 0).any(): self.inited = True return assert input.device == self.bias.device, (input.device, self.bias. device) with torch.no_grad(): bias = thops.mean(input.clone(), dim=[0, 2, 3], keepdim=True ) * -1.0 vars = thops.mean((input.clone() + bias) ** 2, dim=[0, 2, 3], keepdim=True) logs = torch.log(self.scale / (torch.sqrt(vars) + 1e-06)) self.bias.data.copy_(bias.data) self.logs.data.copy_(logs.data) self.inited = True def _center(self, input, reverse=False, offset=None): bias = self.bias if offset is not None: bias = bias + offset if not reverse: return input + bias else: return input - bias def _scale(self, input, logdet=None, reverse=False, offset=None): logs = self.logs if offset is not None: logs = logs + offset if not reverse: input = input * torch.exp(logs) else: input = input * torch.exp(-logs) if logdet is not None: """ logs is log_std of `mean of channels` so we need to multiply pixels """ dlogdet = thops.sum(logs) * thops.pixels(input) if reverse: dlogdet = -1 logdet = logdet + dlogdet return input, logdet def forward(self, input, logdet=None, reverse=False, offset_mask=None, logs_offset=None, bias_offset=None): if not self.inited: self.initialize_parameters(input) if offset_mask is not None: logs_offset = offset_mask bias_offset = offset_mask if not reverse: input = self._center(input, reverse, bias_offset) input, logdet = self._scale(input, logdet, reverse, logs_offset) else: input, logdet = self._scale(input, logdet, reverse, logs_offset) input = self._center(input, reverse, bias_offset) return input, logdet class ActNorm2d(_ActNorm): def __init__(self, num_features, scale=1.0): super().__init__(num_features, scale) def _check_input_dim(self, input): assert len(input.size()) == 4 assert input.size(1 ) == self.num_features, '[ActNorm]: input should be in shape as `BCHW`, channels should be {} rather than {}'.format( self.num_features, input.size()) class Conv2d(nn.Conv2d): pad_dict = {'same': lambda kernel, stride: [(((k - 1) s + 1) // 2) for k, s in zip(kernel, stride)], 'valid': lambda kernel, stride: [(0) for _ in kernel]} @staticmethod def get_padding(padding, kernel_size, stride): if isinstance(padding, str): if isinstance(kernel_size, int): kernel_size = [kernel_size, kernel_size] if isinstance(stride, int): stride = [stride, stride] padding = padding.lower() try: padding = Conv2d.pad_dict[padding](kernel_size, stride) except KeyError: raise ValueError('{} is not supported'.format(padding)) return padding def __init__(self, in_channels, out_channels, kernel_size=[3, 3], stride=[1, 1], padding='same', groups=1, do_actnorm=True, weight_std=0.05): padding = Conv2d.get_padding(padding, kernel_size, stride) super().__init__(in_channels, out_channels, kernel_size, stride, padding, groups=groups, bias=not do_actnorm) self.weight.data.normal_(mean=0.0, std=weight_std) if not do_actnorm: self.bias.data.zero_() else: self.actnorm = ActNorm2d(out_channels) self.do_actnorm = do_actnorm def forward(self, input): x = super().forward(input) if self.do_actnorm: x, _ = self.actnorm(x) return x class Conv2dZerosNew(nn.Conv2d): def __init__(self, in_channels, out_channels, kernel_size=[3, 3], stride=[1, 1], padding='same', logscale_factor=3): padding = Conv2d.get_padding(padding, kernel_size, stride) super().__init__(in_channels, out_channels, kernel_size, stride, padding) self.logscale_factor = logscale_factor self.register_parameter('logs', nn.Parameter(torch.zeros( out_channels, 1, 1))) self.weight.data.zero_() self.bias.data.zero_() def forward(self, input_0): primals_1 = self.weight primals_2 = self.bias primals_4 = self.logs primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4]) return output[0]	AbnerVictor/HCFlow	Conv2dZeros	false	9,104	[ "Apache-2.0" ]	e55938ac9f58c117898e3d161ddc73b14d15289b	https://github.com/AbnerVictor/HCFlow/tree/e55938ac9f58c117898e3d161ddc73b14d15289b
SelfAttention	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/r6/cr6neze6yovkog6kjrk5k2db63h47ozkojywfys6karxe7dlumrz.py # Topologically Sorted Source Nodes: [alpha], Original ATen: [aten._softmax] # Source node to ATen node mapping: # alpha => amax, exp, sub # Graph fragment: # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%bmm, [-1], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%bmm, %amax), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub,), kwargs = {}) triton_poi_fused__softmax_0 = async_compile.triton('triton_poi_fused__softmax_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (4x1), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + (4x1)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + (4x1)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + (4x1)), xmask, eviction_policy='evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + (x2), tmp9, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/kj/ckjtlefzavjukjsytvkak6ek26zmzexpcbnlwelx4k5kascjxlf3.py # Topologically Sorted Source Nodes: [alpha], Original ATen: [aten._softmax] # Source node to ATen node mapping: # alpha => div, sum_1 # Graph fragment: # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp, [-1], True), kwargs = {}) # %div : [num_users=2] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp, %sum_1), kwargs = {}) triton_poi_fused__softmax_1 = async_compile.triton('triton_poi_fused__softmax_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_1(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (4x1), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + (4x1)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + (4x1)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + (4x1)), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + (x2), tmp8, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (1, 4), (4, 1)) assert_size_stride(primals_2, (1, ), (1, )) assert_size_stride(primals_3, (4, 4, 4), (16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf1 = empty_strided_cuda((16, 1), (1, 1), torch.float32) # Topologically Sorted Source Nodes: [hidden], Original ATen: [aten.addmm] extern_kernels.addmm(primals_2, reinterpret_tensor(primals_3, (16, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 1), (1, 4), 0), alpha=1, beta=1, out=buf1) del primals_1 del primals_2 buf2 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [scores], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf1, (4, 4, 1), (4, 1, 1), 0), reinterpret_tensor(buf1, (4, 1, 4), (4, 1, 1), 0), out=buf2) buf3 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [alpha], Original ATen: [aten._softmax] stream0 = get_raw_stream(0) triton_poi_fused__softmax_0.run(buf2, buf3, 64, grid=grid(64), stream=stream0) buf4 = buf2; del buf2 # reuse # Topologically Sorted Source Nodes: [alpha], Original ATen: [aten._softmax] triton_poi_fused__softmax_1.run(buf3, buf4, 64, grid=grid(64), stream=stream0) buf5 = buf3; del buf3 # reuse # Topologically Sorted Source Nodes: [attended], Original ATen: [aten.bmm] extern_kernels.bmm(buf4, primals_3, out=buf5) return (buf5, primals_3, reinterpret_tensor(buf1, (4, 1, 4), (4, 1, 1), 0), buf4, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((1, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((1, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class SelfAttention(nn.Module): def __init__(self, hidden): super(SelfAttention, self).__init__() self.W = nn.Linear(hidden, 1) def forward(self, x): hidden = self.W(x) scores = hidden.bmm(hidden.transpose(1, 2)) alpha = nn.functional.softmax(scores, dim=-1) attended = alpha.bmm(x) return attended def get_inputs(): return [torch.rand([4, 4, 4])] def get_init_inputs(): return [[], {'hidden': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused__softmax_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + 4 * x1, xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + 4 * x1), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + 4 * x1), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + 4 * x1), xmask, eviction_policy='evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + x2, tmp9, xmask) @triton.jit def triton_poi_fused__softmax_1(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + 4 * x1, xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + 4 * x1), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + 4 * x1), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + 4 * x1), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + x2, tmp8, xmask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (1, 4), (4, 1)) assert_size_stride(primals_2, (1,), (1,)) assert_size_stride(primals_3, (4, 4, 4), (16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf1 = empty_strided_cuda((16, 1), (1, 1), torch.float32) extern_kernels.addmm(primals_2, reinterpret_tensor(primals_3, (16, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 1), (1, 4), 0 ), alpha=1, beta=1, out=buf1) del primals_1 del primals_2 buf2 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf1, (4, 4, 1), (4, 1, 1), 0 ), reinterpret_tensor(buf1, (4, 1, 4), (4, 1, 1), 0), out=buf2) buf3 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused__softmax_0[grid(64)](buf2, buf3, 64, XBLOCK=64, num_warps=1, num_stages=1) buf4 = buf2 del buf2 triton_poi_fused__softmax_1[grid(64)](buf3, buf4, 64, XBLOCK=64, num_warps=1, num_stages=1) buf5 = buf3 del buf3 extern_kernels.bmm(buf4, primals_3, out=buf5) return buf5, primals_3, reinterpret_tensor(buf1, (4, 1, 4), (4, 1, 1), 0 ), buf4 class SelfAttentionNew(nn.Module): def __init__(self, hidden): super(SelfAttentionNew, self).__init__() self.W = nn.Linear(hidden, 1) def forward(self, input_0): primals_1 = self.W.weight primals_2 = self.W.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	IAMZn1018/ccks2021-entity-linking	SelfAttention	false	9,105	[ "Apache-2.0" ]	6596b0b16d8c1fc4400c736b30ff46158d1575e4	https://github.com/IAMZn1018/ccks2021-entity-linking/tree/6596b0b16d8c1fc4400c736b30ff46158d1575e4
ResidualBlock_noBN	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/ej/cejfrwnzxinkchwn6symdb72fdtj7gix5hy2vuswodhbeh45mrae.py # Topologically Sorted Source Nodes: [conv2d, out], Original ATen: [aten.convolution, aten.relu] # Source node to ATen node mapping: # conv2d => convolution # out => relu # Graph fragment: # %convolution : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_1, %primals_2, %primals_3, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution,), kwargs = {}) triton_poi_fused_convolution_relu_0 = async_compile.triton('triton_poi_fused_convolution_relu_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[1048576], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_relu_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_relu_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 1048576 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x3 = xindex x1 = (xindex // 4096) % 64 tmp0 = tl.load(in_out_ptr0 + (x3), None) tmp1 = tl.load(in_ptr0 + (x1), None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + (x3), tmp4, None) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/li/climin3xbj6rm2mbnxyxnqlna6vggaazmibti2uk3s4hdmjrzu3e.py # Topologically Sorted Source Nodes: [out_1, add], Original ATen: [aten.convolution, aten.add] # Source node to ATen node mapping: # add => add # out_1 => convolution_1 # Graph fragment: # %convolution_1 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%relu, %primals_4, %primals_5, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%primals_1, %convolution_1), kwargs = {}) triton_poi_fused_add_convolution_1 = async_compile.triton('triton_poi_fused_add_convolution_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[1048576], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_convolution_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 3, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_convolution_1(in_out_ptr0, in_ptr0, in_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 1048576 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x3 = xindex x1 = (xindex // 4096) % 64 tmp0 = tl.load(in_ptr0 + (x3), None) tmp1 = tl.load(in_out_ptr0 + (x3), None) tmp2 = tl.load(in_ptr1 + (x1), None, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp4 = tmp0 + tmp3 tl.store(in_out_ptr0 + (x3), tmp4, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (4, 64, 64, 64), (262144, 4096, 64, 1)) assert_size_stride(primals_2, (64, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_3, (64, ), (1, )) assert_size_stride(primals_4, (64, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_5, (64, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [conv2d], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(primals_1, primals_2, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 64, 64, 64), (262144, 4096, 64, 1)) buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [conv2d, out], Original ATen: [aten.convolution, aten.relu] stream0 = get_raw_stream(0) triton_poi_fused_convolution_relu_0.run(buf1, primals_3, 1048576, grid=grid(1048576), stream=stream0) del primals_3 # Topologically Sorted Source Nodes: [out_1], Original ATen: [aten.convolution] buf2 = extern_kernels.convolution(buf1, primals_4, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf2, (4, 64, 64, 64), (262144, 4096, 64, 1)) buf3 = buf2; del buf2 # reuse # Topologically Sorted Source Nodes: [out_1, add], Original ATen: [aten.convolution, aten.add] triton_poi_fused_add_convolution_1.run(buf3, primals_1, primals_5, 1048576, grid=grid(1048576), stream=stream0) del primals_5 return (buf3, primals_1, primals_2, primals_4, buf1, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 64, 64, 64), (262144, 4096, 64, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((64, 64, 3, 3), (576, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((64, ), (1, ), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((64, 64, 3, 3), (576, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((64, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.utils.data import torch.nn as nn import torch.nn.init as init import torch.nn.functional as F def initialize_weights(net_l, scale=1): if not isinstance(net_l, list): net_l = [net_l] for net in net_l: for m in net.modules(): if isinstance(m, nn.Conv2d): init.kaiming_normal_(m.weight, a=0, mode='fan_in') m.weight.data = scale if m.bias is not None: m.bias.data.zero_() elif isinstance(m, nn.Linear): init.kaiming_normal_(m.weight, a=0, mode='fan_in') m.weight.data = scale if m.bias is not None: m.bias.data.zero_() elif isinstance(m, nn.BatchNorm2d): init.constant_(m.weight, 1) init.constant_(m.bias.data, 0.0) class ResidualBlock_noBN(nn.Module): """Residual block w/o BN ---Conv-ReLU-Conv-+- \|________________\| """ def __init__(self, nf=64): super(ResidualBlock_noBN, self).__init__() self.conv1 = nn.Conv2d(nf, nf, 3, 1, 1, bias=True) self.conv2 = nn.Conv2d(nf, nf, 3, 1, 1, bias=True) initialize_weights([self.conv1, self.conv2], 0.1) def forward(self, x): identity = x out = F.relu(self.conv1(x), inplace=True) out = self.conv2(out) return identity + out def get_inputs(): return [torch.rand([4, 64, 64, 64])] def get_init_inputs(): return [[], {}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers import torch.utils.data import torch.nn as nn import torch.nn.init as init assert_size_stride = torch._C._dynamo.guards.assert_size_stride @triton.jit def triton_poi_fused_convolution_relu_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x3 = xindex x1 = xindex // 4096 % 64 tmp0 = tl.load(in_out_ptr0 + x3, None) tmp1 = tl.load(in_ptr0 + x1, None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + x3, tmp4, None) @triton.jit def triton_poi_fused_add_convolution_1(in_out_ptr0, in_ptr0, in_ptr1, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x3 = xindex x1 = xindex // 4096 % 64 tmp0 = tl.load(in_ptr0 + x3, None) tmp1 = tl.load(in_out_ptr0 + x3, None) tmp2 = tl.load(in_ptr1 + x1, None, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp4 = tmp0 + tmp3 tl.store(in_out_ptr0 + x3, tmp4, None) def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (4, 64, 64, 64), (262144, 4096, 64, 1)) assert_size_stride(primals_2, (64, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_3, (64,), (1,)) assert_size_stride(primals_4, (64, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_5, (64,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(primals_1, primals_2, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 64, 64, 64), (262144, 4096, 64, 1)) buf1 = buf0 del buf0 get_raw_stream(0) triton_poi_fused_convolution_relu_0[grid(1048576)](buf1, primals_3, 1048576, XBLOCK=512, num_warps=8, num_stages=1) del primals_3 buf2 = extern_kernels.convolution(buf1, primals_4, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf2, (4, 64, 64, 64), (262144, 4096, 64, 1)) buf3 = buf2 del buf2 triton_poi_fused_add_convolution_1[grid(1048576)](buf3, primals_1, primals_5, 1048576, XBLOCK=1024, num_warps=4, num_stages=1) del primals_5 return buf3, primals_1, primals_2, primals_4, buf1 def initialize_weights(net_l, scale=1): if not isinstance(net_l, list): net_l = [net_l] for net in net_l: for m in net.modules(): if isinstance(m, nn.Conv2d): init.kaiming_normal_(m.weight, a=0, mode='fan_in') m.weight.data = scale if m.bias is not None: m.bias.data.zero_() elif isinstance(m, nn.Linear): init.kaiming_normal_(m.weight, a=0, mode='fan_in') m.weight.data = scale if m.bias is not None: m.bias.data.zero_() elif isinstance(m, nn.BatchNorm2d): init.constant_(m.weight, 1) init.constant_(m.bias.data, 0.0) class ResidualBlock_noBNNew(nn.Module): """Residual block w/o BN ---Conv-ReLU-Conv-+- \|________________\| """ def __init__(self, nf=64): super(ResidualBlock_noBNNew, self).__init__() self.conv1 = nn.Conv2d(nf, nf, 3, 1, 1, bias=True) self.conv2 = nn.Conv2d(nf, nf, 3, 1, 1, bias=True) initialize_weights([self.conv1, self.conv2], 0.1) def forward(self, input_0): primals_2 = self.conv1.weight primals_3 = self.conv1.bias primals_4 = self.conv2.weight primals_5 = self.conv2.bias primals_1 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5]) return output[0]	AbnerVictor/HCFlow	ResidualBlock_noBN	false	9,106	[ "Apache-2.0" ]	e55938ac9f58c117898e3d161ddc73b14d15289b	https://github.com/AbnerVictor/HCFlow/tree/e55938ac9f58c117898e3d161ddc73b14d15289b
AverageAttention	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/75/c75w3rgnfmm4c7hp5div65urlkb5kzh2656pt75swmio7vzn3vp3.py # Topologically Sorted Source Nodes: [ones, triangle, mask], Original ATen: [aten.ones, aten.tril, aten.mul] # Source node to ATen node mapping: # mask => mul_1 # ones => full_default # triangle => full_default_1, le, sub, where # Graph fragment: # %full_default : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([4, 4], 1), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%unsqueeze, %unsqueeze_1), kwargs = {}) # %le : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%sub, 0), kwargs = {}) # %full_default_1 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%le, %full_default, %full_default_1), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%where, %permute), kwargs = {}) triton_poi_fused_mul_ones_tril_0 = async_compile.triton('triton_poi_fused_mul_ones_tril_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_mul_ones_tril_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 0, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_mul_ones_tril_0(out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = (xindex // 4) x2 = xindex tmp0 = x0 + ((-1)x1) tmp1 = tl.full([1], 0, tl.int64) tmp2 = tmp0 <= tmp1 tmp3 = 1.0 tmp4 = 0.0 tmp5 = tl.where(tmp2, tmp3, tmp4) tmp6 = 1 + x1 tmp7 = tmp6.to(tl.float32) tmp8 = tmp3 / tmp7 tmp9 = tmp5 tmp8 tl.store(out_ptr0 + (x2), tmp9, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/ha/chavpwdtejkyqus2olvrr56v6fhdolpm5dx6l26ahmwfvz664fnv.py # Topologically Sorted Source Nodes: [cat], Original ATen: [aten.cat] # Source node to ATen node mapping: # cat => cat # Graph fragment: # %cat : [num_users=1] = call_function[target=torch.ops.aten.cat.default](args = ([%primals_1, %bmm], -1), kwargs = {}) triton_poi_fused_cat_1 = async_compile.triton('triton_poi_fused_cat_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[128], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_cat_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_cat_1(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 128 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 8 x1 = (xindex // 8) x2 = xindex tmp0 = x0 tmp1 = tl.full([1], 0, tl.int64) tmp2 = tmp0 >= tmp1 tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + ((4x1) + x0), tmp4 & xmask, eviction_policy='evict_last', other=0.0) tmp6 = tmp0 >= tmp3 tmp7 = tl.full([1], 8, tl.int64) tmp8 = tmp0 < tmp7 tmp9 = tl.load(in_ptr1 + ((4x1) + ((-4) + x0)), tmp6 & xmask, eviction_policy='evict_last', other=0.0) tmp10 = tl.where(tmp4, tmp5, tmp9) tl.store(out_ptr0 + (x2), tmp10, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/bj/cbjkk5x2yiy67l3q4l7ooe5u7plvwkualpweocfe25rsydr62zek.py # Topologically Sorted Source Nodes: [sigmoid, mul_1, sigmoid_1, mul_2, gating_outputs_1], Original ATen: [aten.sigmoid, aten.mul, aten.add, aten.sigmoid_backward] # Source node to ATen node mapping: # gating_outputs_1 => add_1 # mul_1 => mul_2 # mul_2 => mul_3 # sigmoid => sigmoid # sigmoid_1 => sigmoid_1 # Graph fragment: # %sigmoid : [num_users=3] = call_function[target=torch.ops.aten.sigmoid.default](args = (%getitem,), kwargs = {}) # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sigmoid, %primals_1), kwargs = {}) # %sigmoid_1 : [num_users=3] = call_function[target=torch.ops.aten.sigmoid.default](args = (%getitem_1,), kwargs = {}) # %mul_3 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sigmoid_1, %bmm), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_2, %mul_3), kwargs = {}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (1, %sigmoid_1), kwargs = {}) # %mul_5 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sigmoid_1, %sub_1), kwargs = {}) # %sub_2 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (1, %sigmoid), kwargs = {}) # %mul_8 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sigmoid, %sub_2), kwargs = {}) triton_poi_fused_add_mul_sigmoid_sigmoid_backward_2 = async_compile.triton('triton_poi_fused_add_mul_sigmoid_sigmoid_backward_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'fp32', 6: 'fp32', 7: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6, 7), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_mul_sigmoid_sigmoid_backward_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 6, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_mul_sigmoid_sigmoid_backward_2(in_ptr0, in_ptr1, in_ptr2, in_ptr3, out_ptr0, out_ptr1, out_ptr2, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = (xindex // 4) x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + (8x1)), xmask) tmp1 = tl.load(in_ptr1 + (x0), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr2 + (x2), xmask) tmp6 = tl.load(in_ptr0 + (4 + x0 + (8x1)), xmask) tmp7 = tl.load(in_ptr1 + (4 + x0), xmask, eviction_policy='evict_last') tmp10 = tl.load(in_ptr3 + (x2), xmask) tmp2 = tmp0 + tmp1 tmp3 = tl.sigmoid(tmp2) tmp5 = tmp3 * tmp4 tmp8 = tmp6 + tmp7 tmp9 = tl.sigmoid(tmp8) tmp11 = tmp9 * tmp10 tmp12 = tmp5 + tmp11 tmp13 = 1.0 tmp14 = tmp13 - tmp9 tmp15 = tmp9 * tmp14 tmp16 = tmp13 - tmp3 tmp17 = tmp3 * tmp16 tl.store(out_ptr0 + (x2), tmp12, xmask) tl.store(out_ptr1 + (x2), tmp15, xmask) tl.store(out_ptr2 + (x2), tmp17, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_2, (8, 8), (8, 1)) assert_size_stride(primals_3, (8, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [ones, triangle, mask], Original ATen: [aten.ones, aten.tril, aten.mul] stream0 = get_raw_stream(0) triton_poi_fused_mul_ones_tril_0.run(buf0, 16, grid=grid(16), stream=stream0) buf1 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [average_outputs], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf0, (4, 4, 4), (0, 4, 1), 0), primals_1, out=buf1) del buf0 buf2 = empty_strided_cuda((4, 4, 8), (32, 8, 1), torch.float32) # Topologically Sorted Source Nodes: [cat], Original ATen: [aten.cat] triton_poi_fused_cat_1.run(primals_1, buf1, buf2, 128, grid=grid(128), stream=stream0) buf3 = empty_strided_cuda((16, 8), (8, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf2, (16, 8), (8, 1), 0), reinterpret_tensor(primals_2, (8, 8), (1, 8), 0), out=buf3) del primals_2 buf4 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) buf5 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) buf6 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [sigmoid, mul_1, sigmoid_1, mul_2, gating_outputs_1], Original ATen: [aten.sigmoid, aten.mul, aten.add, aten.sigmoid_backward] triton_poi_fused_add_mul_sigmoid_sigmoid_backward_2.run(buf3, primals_3, primals_1, buf1, buf4, buf5, buf6, 64, grid=grid(64), stream=stream0) del buf3 del primals_3 return (buf4, buf1, primals_1, buf1, reinterpret_tensor(buf2, (16, 8), (8, 1), 0), buf5, buf6, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((8, 8), (8, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((8, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.cuda import torch.distributed class PositionwiseFeedForward(nn.Module): """ A two-layer Feed-Forward-Network with residual layer norm. Args: d_model (int): the size of input for the first-layer of the FFN. d_ff (int): the hidden layer size of the second-layer of the FNN. dropout (float): dropout probability in :math:`[0, 1)`. """ def __init__(self, d_model, d_ff, dropout=0.1): super(PositionwiseFeedForward, self).__init__() self.w_1 = nn.Linear(d_model, d_ff) self.w_2 = nn.Linear(d_ff, d_model) self.layer_norm = nn.LayerNorm(d_model, eps=1e-06) self.dropout_1 = nn.Dropout(dropout) self.relu = nn.ReLU() self.dropout_2 = nn.Dropout(dropout) def forward(self, x): """Layer definition. Args: x: ``(batch_size, input_len, model_dim)`` Returns: (FloatTensor): Output ``(batch_size, input_len, model_dim)``. """ inter = self.dropout_1(self.relu(self.w_1(self.layer_norm(x)))) output = self.dropout_2(self.w_2(inter)) return output + x def update_dropout(self, dropout): self.dropout_1.p = dropout self.dropout_2.p = dropout class AverageAttention(nn.Module): """ Average Attention module from "Accelerating Neural Transformer via an Average Attention Network" :cite:`DBLP:journals/corr/abs-1805-00631`. Args: model_dim (int): the dimension of keys/values/queries, must be divisible by head_count dropout (float): dropout parameter """ def __init__(self, model_dim, dropout=0.1, aan_useffn=False): self.model_dim = model_dim self.aan_useffn = aan_useffn super(AverageAttention, self).__init__() if aan_useffn: self.average_layer = PositionwiseFeedForward(model_dim, model_dim, dropout) self.gating_layer = nn.Linear(model_dim * 2, model_dim * 2) def cumulative_average_mask(self, batch_size, inputs_len, device): """ Builds the mask to compute the cumulative average as described in :cite:`DBLP:journals/corr/abs-1805-00631` -- Figure 3 Args: batch_size (int): batch size inputs_len (int): length of the inputs Returns: (FloatTensor): * A Tensor of shape ``(batch_size, input_len, input_len)`` """ triangle = torch.tril(torch.ones(inputs_len, inputs_len, dtype= torch.float, device=device)) weights = torch.ones(1, inputs_len, dtype=torch.float, device=device ) / torch.arange(1, inputs_len + 1, dtype=torch.float, device= device) mask = triangle * weights.transpose(0, 1) return mask.unsqueeze(0).expand(batch_size, inputs_len, inputs_len) def cumulative_average(self, inputs, mask_or_step, layer_cache=None, step=None): """ Computes the cumulative average as described in :cite:`DBLP:journals/corr/abs-1805-00631` -- Equations (1) (5) (6) Args: inputs (FloatTensor): sequence to average ``(batch_size, input_len, dimension)`` mask_or_step: if cache is set, this is assumed to be the current step of the dynamic decoding. Otherwise, it is the mask matrix used to compute the cumulative average. layer_cache: a dictionary containing the cumulative average of the previous step. Returns: a tensor of the same shape and type as ``inputs``. """ if layer_cache is not None: step = mask_or_step average_attention = (inputs + step * layer_cache['prev_g']) / (step + 1) layer_cache['prev_g'] = average_attention return average_attention else: mask = mask_or_step return torch.matmul(mask, inputs) def forward(self, inputs, mask=None, layer_cache=None, step=None): """ Args: inputs (FloatTensor): ``(batch_size, input_len, model_dim)`` Returns: (FloatTensor, FloatTensor): * gating_outputs ``(batch_size, input_len, model_dim)`` * average_outputs average attention ``(batch_size, input_len, model_dim)`` """ batch_size = inputs.size(0) inputs_len = inputs.size(1) average_outputs = self.cumulative_average(inputs, self. cumulative_average_mask(batch_size, inputs_len, inputs.device) if layer_cache is None else step, layer_cache=layer_cache) if self.aan_useffn: average_outputs = self.average_layer(average_outputs) gating_outputs = self.gating_layer(torch.cat((inputs, average_outputs), -1)) input_gate, forget_gate = torch.chunk(gating_outputs, 2, dim=2) gating_outputs = torch.sigmoid(input_gate) * inputs + torch.sigmoid( forget_gate) * average_outputs return gating_outputs, average_outputs def get_inputs(): return [torch.rand([4, 4, 4])] def get_init_inputs(): return [[], {'model_dim': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.nn as nn import torch.cuda import torch.distributed assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_mul_ones_tril_0(out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = xindex // 4 x2 = xindex tmp0 = x0 + -1 * x1 tmp1 = tl.full([1], 0, tl.int64) tmp2 = tmp0 <= tmp1 tmp3 = 1.0 tmp4 = 0.0 tmp5 = tl.where(tmp2, tmp3, tmp4) tmp6 = 1 + x1 tmp7 = tmp6.to(tl.float32) tmp8 = tmp3 / tmp7 tmp9 = tmp5 * tmp8 tl.store(out_ptr0 + x2, tmp9, xmask) @triton.jit def triton_poi_fused_cat_1(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 128 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 8 x1 = xindex // 8 x2 = xindex tmp0 = x0 tl.full([1], 0, tl.int64) tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + (4 * x1 + x0), tmp4 & xmask, eviction_policy= 'evict_last', other=0.0) tmp6 = tmp0 >= tmp3 tl.full([1], 8, tl.int64) tmp9 = tl.load(in_ptr1 + (4 * x1 + (-4 + x0)), tmp6 & xmask, eviction_policy='evict_last', other=0.0) tmp10 = tl.where(tmp4, tmp5, tmp9) tl.store(out_ptr0 + x2, tmp10, xmask) @triton.jit def triton_poi_fused_add_mul_sigmoid_sigmoid_backward_2(in_ptr0, in_ptr1, in_ptr2, in_ptr3, out_ptr0, out_ptr1, out_ptr2, xnumel, XBLOCK: tl. constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = xindex // 4 x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + 8 * x1), xmask) tmp1 = tl.load(in_ptr1 + x0, xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr2 + x2, xmask) tmp6 = tl.load(in_ptr0 + (4 + x0 + 8 * x1), xmask) tmp7 = tl.load(in_ptr1 + (4 + x0), xmask, eviction_policy='evict_last') tmp10 = tl.load(in_ptr3 + x2, xmask) tmp2 = tmp0 + tmp1 tmp3 = tl.sigmoid(tmp2) tmp5 = tmp3 * tmp4 tmp8 = tmp6 + tmp7 tmp9 = tl.sigmoid(tmp8) tmp11 = tmp9 * tmp10 tmp12 = tmp5 + tmp11 tmp13 = 1.0 tmp14 = tmp13 - tmp9 tmp15 = tmp9 * tmp14 tmp16 = tmp13 - tmp3 tmp17 = tmp3 * tmp16 tl.store(out_ptr0 + x2, tmp12, xmask) tl.store(out_ptr1 + x2, tmp15, xmask) tl.store(out_ptr2 + x2, tmp17, xmask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_2, (8, 8), (8, 1)) assert_size_stride(primals_3, (8,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4), (4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_mul_ones_tril_0[grid(16)](buf0, 16, XBLOCK=16, num_warps=1, num_stages=1) buf1 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf0, (4, 4, 4), (0, 4, 1), 0 ), primals_1, out=buf1) del buf0 buf2 = empty_strided_cuda((4, 4, 8), (32, 8, 1), torch.float32) triton_poi_fused_cat_1[grid(128)](primals_1, buf1, buf2, 128, XBLOCK=128, num_warps=4, num_stages=1) buf3 = empty_strided_cuda((16, 8), (8, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf2, (16, 8), (8, 1), 0), reinterpret_tensor(primals_2, (8, 8), (1, 8), 0), out=buf3) del primals_2 buf4 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) buf5 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) buf6 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) triton_poi_fused_add_mul_sigmoid_sigmoid_backward_2[grid(64)](buf3, primals_3, primals_1, buf1, buf4, buf5, buf6, 64, XBLOCK=64, num_warps=1, num_stages=1) del buf3 del primals_3 return buf4, buf1, primals_1, buf1, reinterpret_tensor(buf2, (16, 8), ( 8, 1), 0), buf5, buf6 class PositionwiseFeedForward(nn.Module): """ A two-layer Feed-Forward-Network with residual layer norm. Args: d_model (int): the size of input for the first-layer of the FFN. d_ff (int): the hidden layer size of the second-layer of the FNN. dropout (float): dropout probability in :math:`[0, 1)`. """ def __init__(self, d_model, d_ff, dropout=0.1): super(PositionwiseFeedForward, self).__init__() self.w_1 = nn.Linear(d_model, d_ff) self.w_2 = nn.Linear(d_ff, d_model) self.layer_norm = nn.LayerNorm(d_model, eps=1e-06) self.dropout_1 = nn.Dropout(dropout) self.relu = nn.ReLU() self.dropout_2 = nn.Dropout(dropout) def forward(self, x): """Layer definition. Args: x: ``(batch_size, input_len, model_dim)`` Returns: (FloatTensor): Output ``(batch_size, input_len, model_dim)``. """ inter = self.dropout_1(self.relu(self.w_1(self.layer_norm(x)))) output = self.dropout_2(self.w_2(inter)) return output + x def update_dropout(self, dropout): self.dropout_1.p = dropout self.dropout_2.p = dropout class AverageAttentionNew(nn.Module): """ Average Attention module from "Accelerating Neural Transformer via an Average Attention Network" :cite:`DBLP:journals/corr/abs-1805-00631`. Args: model_dim (int): the dimension of keys/values/queries, must be divisible by head_count dropout (float): dropout parameter """ def __init__(self, model_dim, dropout=0.1, aan_useffn=False): self.model_dim = model_dim self.aan_useffn = aan_useffn super(AverageAttentionNew, self).__init__() if aan_useffn: self.average_layer = PositionwiseFeedForward(model_dim, model_dim, dropout) self.gating_layer = nn.Linear(model_dim * 2, model_dim * 2) def cumulative_average_mask(self, batch_size, inputs_len, device): """ Builds the mask to compute the cumulative average as described in :cite:`DBLP:journals/corr/abs-1805-00631` -- Figure 3 Args: batch_size (int): batch size inputs_len (int): length of the inputs Returns: (FloatTensor): * A Tensor of shape ``(batch_size, input_len, input_len)`` """ triangle = torch.tril(torch.ones(inputs_len, inputs_len, dtype= torch.float, device=device)) weights = torch.ones(1, inputs_len, dtype=torch.float, device=device ) / torch.arange(1, inputs_len + 1, dtype=torch.float, device= device) mask = triangle * weights.transpose(0, 1) return mask.unsqueeze(0).expand(batch_size, inputs_len, inputs_len) def cumulative_average(self, inputs, mask_or_step, layer_cache=None, step=None): """ Computes the cumulative average as described in :cite:`DBLP:journals/corr/abs-1805-00631` -- Equations (1) (5) (6) Args: inputs (FloatTensor): sequence to average ``(batch_size, input_len, dimension)`` mask_or_step: if cache is set, this is assumed to be the current step of the dynamic decoding. Otherwise, it is the mask matrix used to compute the cumulative average. layer_cache: a dictionary containing the cumulative average of the previous step. Returns: a tensor of the same shape and type as ``inputs``. """ if layer_cache is not None: step = mask_or_step average_attention = (inputs + step * layer_cache['prev_g']) / (step + 1) layer_cache['prev_g'] = average_attention return average_attention else: mask = mask_or_step return torch.matmul(mask, inputs) def forward(self, input_0): primals_2 = self.gating_layer.weight primals_3 = self.gating_layer.bias primals_1 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0], output[1]	GarrettNicolai/OpenNMT-py	AverageAttention	false	9,108	[ "MIT" ]	9491d900ac1b50fe39da417bacc0b9d610331888	https://github.com/GarrettNicolai/OpenNMT-py/tree/9491d900ac1b50fe39da417bacc0b9d610331888
L2Norm	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/fh/cfhnguw4v6uy4ysjg54ojclakwi3bj2lte6oqizl4rpf4lcxpiyp.py # Topologically Sorted Source Nodes: [normalize], Original ATen: [aten.div] # Source node to ATen node mapping: # normalize => div # Graph fragment: # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%arg0_1, %expand), kwargs = {}) triton_poi_fused_div_0 = async_compile.triton('triton_poi_fused_div_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_div_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_div_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 16 x2 = (xindex // 64) tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x0 + (64x2)), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (16 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (32 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr0 + (48 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp2 = tmp1 * tmp1 tmp4 = tmp3 * tmp3 tmp5 = tmp2 + tmp4 tmp7 = tmp6 * tmp6 tmp8 = tmp5 + tmp7 tmp10 = tmp9 * tmp9 tmp11 = tmp8 + tmp10 tmp12 = libdevice.sqrt(tmp11) tmp13 = 1e-12 tmp14 = triton_helpers.maximum(tmp12, tmp13) tmp15 = tmp0 / tmp14 tl.store(out_ptr0 + (x3), tmp15, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [normalize], Original ATen: [aten.div] stream0 = get_raw_stream(0) triton_poi_fused_div_0.run(arg0_1, buf0, 256, grid=grid(256), stream=stream0) del arg0_1 return (buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.nn.functional as F class L2Norm(nn.Module): def __init__(self, dim=1): super().__init__() self.dim = dim def forward(self, x): return F.normalize(x, p=2, dim=self.dim) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import libdevice import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_div_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 16 x2 = xindex // 64 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + (x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp3 = tl.load(in_ptr0 + (16 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp6 = tl.load(in_ptr0 + (32 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp9 = tl.load(in_ptr0 + (48 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp2 = tmp1 * tmp1 tmp4 = tmp3 * tmp3 tmp5 = tmp2 + tmp4 tmp7 = tmp6 * tmp6 tmp8 = tmp5 + tmp7 tmp10 = tmp9 * tmp9 tmp11 = tmp8 + tmp10 tmp12 = libdevice.sqrt(tmp11) tmp13 = 1e-12 tmp14 = triton_helpers.maximum(tmp12, tmp13) tmp15 = tmp0 / tmp14 tl.store(out_ptr0 + x3, tmp15, xmask) def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_div_0[grid(256)](arg0_1, buf0, 256, XBLOCK=128, num_warps=4, num_stages=1) del arg0_1 return buf0, class L2NormNew(nn.Module): def __init__(self, dim=1): super().__init__() self.dim = dim def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	Guido27/project_vg	L2Norm	false	9,109	[ "MIT" ]	3322fc355742929f43f3d97204398035645d968c	https://github.com/Guido27/project_vg/tree/3322fc355742929f43f3d97204398035645d968c
Attention	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/ud/cudbnoor4dpxxdmeqssolgpxcs76nh6jnfj2xf7auyk3sidsohnf.py # Topologically Sorted Source Nodes: [alpha], Original ATen: [aten._softmax] # Source node to ATen node mapping: # alpha => amax, exp, sub # Graph fragment: # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%view_1, [1], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%view_1, %amax), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub,), kwargs = {}) triton_poi_fused__softmax_0 = async_compile.triton('triton_poi_fused__softmax_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 4 x2 = (xindex // 16) tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x0 + (16x2)), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (4 + x0 + (16x2)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (8 + x0 + (16x2)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (12 + x0 + (16x2)), xmask, eviction_policy='evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + (x3), tmp9, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/sx/csxi2lkjrgsyc43k5vauxutocx5sik4gnrglbjfjmvytt3alfq7w.py # Topologically Sorted Source Nodes: [alpha], Original ATen: [aten._softmax] # Source node to ATen node mapping: # alpha => div, sum_1 # Graph fragment: # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp, [1], True), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp, %sum_1), kwargs = {}) triton_poi_fused__softmax_1 = async_compile.triton('triton_poi_fused__softmax_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_1(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 4 x2 = (xindex // 16) tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x0 + (16x2)), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (4 + x0 + (16x2)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (8 + x0 + (16x2)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (12 + x0 + (16x2)), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + (x3), tmp8, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/wn/cwnhqhm2qqdlayd3loxd7a3oc7htjhgtsaapgavqmkseyqwaftly.py # Topologically Sorted Source Nodes: [alpha, outputs, outputs_1], Original ATen: [aten._softmax, aten.mul, aten.sum] # Source node to ATen node mapping: # alpha => div, sum_1 # outputs => mul # outputs_1 => sum_2 # Graph fragment: # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp, [1], True), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp, %sum_1), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%primals_2, %div), kwargs = {}) # %sum_2 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%mul, [1]), kwargs = {}) triton_poi_fused__softmax_mul_sum_2 = async_compile.triton('triton_poi_fused__softmax_mul_sum_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_mul_sum_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 8, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_mul_sum_2(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = (xindex // 16) x3 = xindex % 16 x1 = (xindex // 4) % 4 x4 = xindex tmp0 = tl.load(in_ptr0 + (x3 + (64x2)), xmask) tmp1 = tl.load(in_ptr1 + (x1 + (16x2)), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (16 + x3 + (64x2)), xmask) tmp4 = tl.load(in_ptr1 + (4 + x1 + (16x2)), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr0 + (32 + x3 + (64x2)), xmask) tmp8 = tl.load(in_ptr1 + (8 + x1 + (16x2)), xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr0 + (48 + x3 + (64x2)), xmask) tmp12 = tl.load(in_ptr1 + (12 + x1 + (16x2)), xmask, eviction_policy='evict_last') tmp2 = tmp0 * tmp1 tmp5 = tmp3 * tmp4 tmp6 = tmp2 + tmp5 tmp9 = tmp7 * tmp8 tmp10 = tmp6 + tmp9 tmp13 = tmp11 * tmp12 tmp14 = tmp10 + tmp13 tl.store(out_ptr0 + (x4), tmp14, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2 = args args.clear() assert_size_stride(primals_1, (1, 4), (4, 1)) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 1), (1, 1), torch.float32) # Topologically Sorted Source Nodes: [weights], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(primals_2, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 1), (1, 4), 0), out=buf0) del primals_1 buf1 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 64), torch.float32) # Topologically Sorted Source Nodes: [alpha], Original ATen: [aten._softmax] stream0 = get_raw_stream(0) triton_poi_fused__softmax_0.run(buf0, buf1, 64, grid=grid(64), stream=stream0) buf2 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 64), torch.float32) # Topologically Sorted Source Nodes: [alpha], Original ATen: [aten._softmax] triton_poi_fused__softmax_1.run(buf1, buf2, 64, grid=grid(64), stream=stream0) buf3 = reinterpret_tensor(buf1, (4, 4, 4), (16, 4, 1), 0); del buf1 # reuse # Topologically Sorted Source Nodes: [alpha, outputs, outputs_1], Original ATen: [aten._softmax, aten.mul, aten.sum] triton_poi_fused__softmax_mul_sum_2.run(primals_2, buf2, buf3, 64, grid=grid(64), stream=stream0) del buf2 return (buf3, primals_2, buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((1, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class Attention(nn.Module): def __init__(self, hidden): super(Attention, self).__init__() self.linear = nn.Linear(hidden, 1, bias=False) def forward(self, x, mask=None): weights = self.linear(x) if mask is not None: weights = weights.mask_fill(mask.unsqueeze(2) == 0, float('-inf')) alpha = torch.softmax(weights, dim=1) outputs = x * alpha outputs = torch.sum(outputs, dim=1) return outputs def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'hidden': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused__softmax_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 4 x2 = xindex // 16 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + (x0 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp2 = tl.load(in_ptr0 + (4 + x0 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp4 = tl.load(in_ptr0 + (8 + x0 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp6 = tl.load(in_ptr0 + (12 + x0 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + x3, tmp9, xmask) @triton.jit def triton_poi_fused__softmax_1(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 4 x2 = xindex // 16 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + (x0 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp2 = tl.load(in_ptr0 + (4 + x0 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp4 = tl.load(in_ptr0 + (8 + x0 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp6 = tl.load(in_ptr0 + (12 + x0 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + x3, tmp8, xmask) @triton.jit def triton_poi_fused__softmax_mul_sum_2(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex // 16 x3 = xindex % 16 x1 = xindex // 4 % 4 x4 = xindex tmp0 = tl.load(in_ptr0 + (x3 + 64 * x2), xmask) tmp1 = tl.load(in_ptr1 + (x1 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp3 = tl.load(in_ptr0 + (16 + x3 + 64 * x2), xmask) tmp4 = tl.load(in_ptr1 + (4 + x1 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp7 = tl.load(in_ptr0 + (32 + x3 + 64 * x2), xmask) tmp8 = tl.load(in_ptr1 + (8 + x1 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp11 = tl.load(in_ptr0 + (48 + x3 + 64 * x2), xmask) tmp12 = tl.load(in_ptr1 + (12 + x1 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp2 = tmp0 * tmp1 tmp5 = tmp3 * tmp4 tmp6 = tmp2 + tmp5 tmp9 = tmp7 * tmp8 tmp10 = tmp6 + tmp9 tmp13 = tmp11 * tmp12 tmp14 = tmp10 + tmp13 tl.store(out_ptr0 + x4, tmp14, xmask) def call(args): primals_1, primals_2 = args args.clear() assert_size_stride(primals_1, (1, 4), (4, 1)) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 1), (1, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_2, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 1), (1, 4), 0), out=buf0) del primals_1 buf1 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 64), torch.float32) get_raw_stream(0) triton_poi_fused__softmax_0[grid(64)](buf0, buf1, 64, XBLOCK=64, num_warps=1, num_stages=1) buf2 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 64), torch.float32) triton_poi_fused__softmax_1[grid(64)](buf1, buf2, 64, XBLOCK=64, num_warps=1, num_stages=1) buf3 = reinterpret_tensor(buf1, (4, 4, 4), (16, 4, 1), 0) del buf1 triton_poi_fused__softmax_mul_sum_2[grid(64)](primals_2, buf2, buf3, 64, XBLOCK=64, num_warps=1, num_stages=1) del buf2 return buf3, primals_2, buf0 class AttentionNew(nn.Module): def __init__(self, hidden): super(AttentionNew, self).__init__() self.linear = nn.Linear(hidden, 1, bias=False) def forward(self, input_0): primals_1 = self.linear.weight primals_2 = input_0 output = call([primals_1, primals_2]) return output[0]	IAMZn1018/ccks2021-entity-linking	Attention	false	9,110	[ "Apache-2.0" ]	6596b0b16d8c1fc4400c736b30ff46158d1575e4	https://github.com/IAMZn1018/ccks2021-entity-linking/tree/6596b0b16d8c1fc4400c736b30ff46158d1575e4
SparseConv2d	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/w7/cw7kmlo7vngjrzz2fl4nrd6rnf7o2266le56li6smcptk7jnvzpz.py # Topologically Sorted Source Nodes: [diag], Original ATen: [aten.diag_embed] # Source node to ATen node mapping: # diag => eq, full_default, iota, where # Graph fragment: # %iota : [num_users=2] = call_function[target=torch.ops.prims.iota.default](args = (4,), kwargs = {start: 0, step: 1, dtype: torch.int64, device: cuda:0, requires_grad: False}) # %eq : [num_users=1] = call_function[target=torch.ops.aten.eq.Tensor](args = (%iota, %unsqueeze_1), kwargs = {}) # %full_default : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%eq, %permute, %full_default), kwargs = {}) triton_poi_fused_diag_embed_0 = async_compile.triton('triton_poi_fused_diag_embed_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_diag_embed_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_diag_embed_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = (xindex // 4) x2 = xindex tmp3 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp0 = x0 tmp1 = x1 tmp2 = tmp0 == tmp1 tmp4 = 0.0 tmp5 = tl.where(tmp2, tmp3, tmp4) tl.store(out_ptr0 + (x2), tmp5, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/tc/ctcagp37ljugm52zu6ckorigrppqo67voefe2f2odg5r6hyllhyu.py # Topologically Sorted Source Nodes: [conv2d], Original ATen: [aten.convolution] # Source node to ATen node mapping: # conv2d => convolution # Graph fragment: # %convolution : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_4, %view_2, %primals_3, [1, 1], [0, 0], [1, 1], False, [0, 0], 1), kwargs = {}) triton_poi_fused_convolution_1 = async_compile.triton('triton_poi_fused_convolution_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + (x2), tmp2, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4 = args args.clear() assert_size_stride(primals_1, (4, ), (1, )) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_3, (4, ), (1, )) assert_size_stride(primals_4, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [diag], Original ATen: [aten.diag_embed] stream0 = get_raw_stream(0) triton_poi_fused_diag_embed_0.run(primals_1, buf0, 16, grid=grid(16), stream=stream0) del primals_1 buf1 = empty_strided_cuda((4, 64), (64, 1), torch.float32) # Topologically Sorted Source Nodes: [mm], Original ATen: [aten.mm] extern_kernels.mm(buf0, reinterpret_tensor(primals_2, (4, 64), (64, 1), 0), out=buf1) # Topologically Sorted Source Nodes: [conv2d], Original ATen: [aten.convolution] buf2 = extern_kernels.convolution(primals_4, reinterpret_tensor(buf1, (4, 4, 4, 4), (64, 16, 4, 1), 0), stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf2, (4, 4, 1, 1), (4, 1, 1, 1)) buf3 = buf2; del buf2 # reuse # Topologically Sorted Source Nodes: [conv2d], Original ATen: [aten.convolution] triton_poi_fused_convolution_1.run(buf3, primals_3, 16, grid=grid(16), stream=stream0) del primals_3 return (buf3, primals_4, reinterpret_tensor(buf1, (4, 4, 4, 4), (64, 16, 4, 1), 0), reinterpret_tensor(buf0, (4, 4), (1, 4), 0), reinterpret_tensor(primals_2, (64, 4), (1, 64), 0), ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import math import torch import numpy as np import torch.nn as nn import torch.utils.data import torch.nn.functional as F import scipy.sparse as sparse from torch.nn.modules.utils import _pair class SparseConv2d(nn.Module): def __init__(self, in_channels, out_channels, kernel_size, k, rho_init, rho_maximum, mu, stride=1, padding=0, bias=True): super(SparseConv2d, self).__init__() self.in_channels = in_channels self.out_channels = out_channels self.kernel_size = _pair(kernel_size) self.stride = _pair(stride) self.padding = _pair(padding) self.weight = nn.Parameter(torch.Tensor(out_channels, in_channels, self.kernel_size)) self.v = nn.Parameter(torch.Tensor(out_channels)) if bias: self.bias = nn.Parameter(torch.Tensor(out_channels)) else: self.register_parameter('bias', None) self.reset_parameters() self.k = k self.rho_init = rho_init self.rho = rho_init self.rho_maximum = rho_maximum self.mu = mu self.y1 = np.zeros([out_channels, 1]) self.y2 = np.zeros([out_channels, 1]) self.z1 = np.zeros([out_channels, 1]) self.z2 = np.zeros([out_channels, 1]) self.v_np = np.zeros([out_channels, 1]) self.P = sparse.csc_matrix(np.eye(self.out_channels)) self.q = np.zeros([self.out_channels, 1]) self.E = sparse.csc_matrix(np.vstack([np.eye(self.out_channels), np .ones([self.out_channels, 1]).transpose()])) self.l = np.vstack([np.zeros([self.out_channels, 1]), self.k np. ones([1, 1])]) self.u = np.vstack([np.ones([self.out_channels, 1]), self.k * np. ones([1, 1])]) def reset_parameters(self): stdv = math.sqrt(2.0 / sum(self.weight.size())) self.weight.data.normal_(0, stdv) if self.bias is not None: self.bias.data.zero_() v_shape = self.v.data.numpy().shape np_v = np.ones(v_shape) self.v.data = torch.from_numpy(np_v).float() def forward(self, input): return F.conv2d(input, torch.diag(self.v).mm(self.weight.view(self. out_channels, self.in_channels * self.kernel_size[0] * self. kernel_size[1])).view_as(self.weight), self.bias, self.stride, self.padding) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'in_channels': 4, 'out_channels': 4, 'kernel_size': 4, 'k': 4, 'rho_init': 4, 'rho_maximum': 4, 'mu': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import math import numpy as np import torch.nn as nn import torch.utils.data import scipy.sparse as sparse from torch.nn.modules.utils import _pair assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_diag_embed_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = xindex // 4 x2 = xindex tmp3 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp0 = x0 tmp1 = x1 tmp2 = tmp0 == tmp1 tmp4 = 0.0 tmp5 = tl.where(tmp2, tmp3, tmp4) tl.store(out_ptr0 + x2, tmp5, xmask) @triton.jit def triton_poi_fused_convolution_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl .constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + x2, tmp2, xmask) def call(args): primals_1, primals_2, primals_3, primals_4 = args args.clear() assert_size_stride(primals_1, (4,), (1,)) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_3, (4,), (1,)) assert_size_stride(primals_4, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4), (4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_diag_embed_0[grid(16)](primals_1, buf0, 16, XBLOCK =16, num_warps=1, num_stages=1) del primals_1 buf1 = empty_strided_cuda((4, 64), (64, 1), torch.float32) extern_kernels.mm(buf0, reinterpret_tensor(primals_2, (4, 64), (64, 1), 0), out=buf1) buf2 = extern_kernels.convolution(primals_4, reinterpret_tensor( buf1, (4, 4, 4, 4), (64, 16, 4, 1), 0), stride=(1, 1), padding= (0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0 ), groups=1, bias=None) assert_size_stride(buf2, (4, 4, 1, 1), (4, 1, 1, 1)) buf3 = buf2 del buf2 triton_poi_fused_convolution_1[grid(16)](buf3, primals_3, 16, XBLOCK=16, num_warps=1, num_stages=1) del primals_3 return buf3, primals_4, reinterpret_tensor(buf1, (4, 4, 4, 4), (64, 16, 4, 1), 0), reinterpret_tensor(buf0, (4, 4), (1, 4), 0 ), reinterpret_tensor(primals_2, (64, 4), (1, 64), 0) class SparseConv2dNew(nn.Module): def __init__(self, in_channels, out_channels, kernel_size, k, rho_init, rho_maximum, mu, stride=1, padding=0, bias=True): super(SparseConv2dNew, self).__init__() self.in_channels = in_channels self.out_channels = out_channels self.kernel_size = _pair(kernel_size) self.stride = _pair(stride) self.padding = _pair(padding) self.weight = nn.Parameter(torch.Tensor(out_channels, in_channels, self.kernel_size)) self.v = nn.Parameter(torch.Tensor(out_channels)) if bias: self.bias = nn.Parameter(torch.Tensor(out_channels)) else: self.register_parameter('bias', None) self.reset_parameters() self.k = k self.rho_init = rho_init self.rho = rho_init self.rho_maximum = rho_maximum self.mu = mu self.y1 = np.zeros([out_channels, 1]) self.y2 = np.zeros([out_channels, 1]) self.z1 = np.zeros([out_channels, 1]) self.z2 = np.zeros([out_channels, 1]) self.v_np = np.zeros([out_channels, 1]) self.P = sparse.csc_matrix(np.eye(self.out_channels)) self.q = np.zeros([self.out_channels, 1]) self.E = sparse.csc_matrix(np.vstack([np.eye(self.out_channels), np .ones([self.out_channels, 1]).transpose()])) self.l = np.vstack([np.zeros([self.out_channels, 1]), self.k np. ones([1, 1])]) self.u = np.vstack([np.ones([self.out_channels, 1]), self.k * np. ones([1, 1])]) def reset_parameters(self): stdv = math.sqrt(2.0 / sum(self.weight.size())) self.weight.data.normal_(0, stdv) if self.bias is not None: self.bias.data.zero_() v_shape = self.v.data.numpy().shape np_v = np.ones(v_shape) self.v.data = torch.from_numpy(np_v).float() def forward(self, input_0): primals_2 = self.weight primals_1 = self.v primals_3 = self.bias primals_4 = input_0 output = call([primals_1, primals_2, primals_3, primals_4]) return output[0]	FaithfulZhening/CNN-FCF-CVPR-2019	SparseConv2d	false	9,111	[ "Apache-2.0" ]	f65f6577feb4a2cdaed3fb60cb14b8840e25e19c	https://github.com/FaithfulZhening/CNN-FCF-CVPR-2019/tree/f65f6577feb4a2cdaed3fb60cb14b8840e25e19c
BasicBlock1	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/yc/cyc22ofksedv27pfbzelnb4w34yylhyqovnpjyfto4qrzov2wriv.py # Topologically Sorted Source Nodes: [cat], Original ATen: [aten.cat] # Source node to ATen node mapping: # cat => cat # Graph fragment: # %cat : [num_users=1] = call_function[target=torch.ops.aten.cat.default](args = ([%primals_3, %relu], 1), kwargs = {}) triton_poi_fused_cat_0 = async_compile.triton('triton_poi_fused_cat_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[512], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_cat_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 3, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_cat_0(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 512 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = (xindex // 16) % 8 x0 = xindex % 16 x2 = (xindex // 128) x3 = xindex tmp0 = x1 tmp1 = tl.full([1], 0, tl.int64) tmp2 = tmp0 >= tmp1 tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + (x0 + (16x1) + (64x2)), tmp4 & xmask, other=0.0) tmp6 = tmp0 >= tmp3 tmp7 = tl.full([1], 8, tl.int64) tmp8 = tmp0 < tmp7 tmp9 = tl.load(in_ptr1 + (x0 + (16((-4) + x1)) + (64x2)), tmp6 & xmask, other=0.0) tmp10 = tl.load(in_ptr2 + ((-4) + x1), tmp6 & xmask, eviction_policy='evict_last', other=0.0) tmp11 = tmp9 + tmp10 tmp12 = tl.full([1], 0, tl.int32) tmp13 = triton_helpers.maximum(tmp12, tmp11) tmp14 = tl.full(tmp13.shape, 0.0, tmp13.dtype) tmp15 = tl.where(tmp6, tmp13, tmp14) tmp16 = tl.where(tmp4, tmp5, tmp15) tl.store(out_ptr0 + (x3), tmp16, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/as/casawnq4v3qkxvanufkeovwbmhrlvnzi55imfmscbraafjzufzyj.py # Topologically Sorted Source Nodes: [out, out_1], Original ATen: [aten.convolution, aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # out => convolution # out_1 => relu # Graph fragment: # %convolution : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_3, %primals_1, %primals_2, [1, 1], [0, 0], [1, 1], False, [0, 0], 1), kwargs = {}) # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution,), kwargs = {}) # %le : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu, 0), kwargs = {}) triton_poi_fused_convolution_relu_threshold_backward_1 = async_compile.triton('triton_poi_fused_convolution_relu_threshold_backward_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i1', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_relu_threshold_backward_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_relu_threshold_backward_1(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 16) % 4 tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr1 + (x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(out_ptr0 + (x3), tmp6, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 1, 1), (4, 1, 1, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [out], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 4, 4), (64, 16, 4, 1)) buf1 = empty_strided_cuda((4, 8, 4, 4), (128, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [cat], Original ATen: [aten.cat] stream0 = get_raw_stream(0) triton_poi_fused_cat_0.run(primals_3, buf0, primals_2, buf1, 512, grid=grid(512), stream=stream0) buf2 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) # Topologically Sorted Source Nodes: [out, out_1], Original ATen: [aten.convolution, aten.relu, aten.threshold_backward] triton_poi_fused_convolution_relu_threshold_backward_1.run(buf0, primals_2, buf2, 256, grid=grid(256), stream=stream0) del buf0 del primals_2 return (buf1, primals_1, primals_3, buf2, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 1, 1), (4, 1, 1, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class BasicBlock1(nn.Module): def __init__(self, input_dim, output_dim): super(BasicBlock1, self).__init__() self.ID = input_dim self.conv = nn.Conv2d(in_channels=input_dim, out_channels= output_dim, kernel_size=1, padding=0, stride=1) self.relu = nn.ReLU() def forward(self, x): out = self.conv(x) out = self.relu(out) return torch.cat((x, out), 1) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'input_dim': 4, 'output_dim': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_cat_0(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 512 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = xindex // 16 % 8 x0 = xindex % 16 x2 = xindex // 128 x3 = xindex tmp0 = x1 tl.full([1], 0, tl.int64) tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + (x0 + 16 * x1 + 64 * x2), tmp4 & xmask, other=0.0) tmp6 = tmp0 >= tmp3 tl.full([1], 8, tl.int64) tmp9 = tl.load(in_ptr1 + (x0 + 16 * (-4 + x1) + 64 * x2), tmp6 & xmask, other=0.0) tmp10 = tl.load(in_ptr2 + (-4 + x1), tmp6 & xmask, eviction_policy= 'evict_last', other=0.0) tmp11 = tmp9 + tmp10 tmp12 = tl.full([1], 0, tl.int32) tmp13 = triton_helpers.maximum(tmp12, tmp11) tmp14 = tl.full(tmp13.shape, 0.0, tmp13.dtype) tmp15 = tl.where(tmp6, tmp13, tmp14) tmp16 = tl.where(tmp4, tmp5, tmp15) tl.store(out_ptr0 + x3, tmp16, xmask) @triton.jit def triton_poi_fused_convolution_relu_threshold_backward_1(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = xindex // 16 % 4 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr1 + x1, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(out_ptr0 + x3, tmp6, xmask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 1, 1), (4, 1, 1, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 4, 4), (64, 16, 4, 1)) buf1 = empty_strided_cuda((4, 8, 4, 4), (128, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_cat_0[grid(512)](primals_3, buf0, primals_2, buf1, 512, XBLOCK=128, num_warps=4, num_stages=1) buf2 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) triton_poi_fused_convolution_relu_threshold_backward_1[grid(256)](buf0, primals_2, buf2, 256, XBLOCK=128, num_warps=4, num_stages=1) del buf0 del primals_2 return buf1, primals_1, primals_3, buf2 class BasicBlock1New(nn.Module): def __init__(self, input_dim, output_dim): super(BasicBlock1New, self).__init__() self.ID = input_dim self.conv = nn.Conv2d(in_channels=input_dim, out_channels= output_dim, kernel_size=1, padding=0, stride=1) self.relu = nn.ReLU() def forward(self, input_0): primals_1 = self.conv.weight primals_2 = self.conv.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	Houseqin/PytorchToCaffe	BasicBlock1	false	9,112	[ "MIT" ]	e94224ba6414e76369f191e7e3d9731c12ce2bd7	https://github.com/Houseqin/PytorchToCaffe/tree/e94224ba6414e76369f191e7e3d9731c12ce2bd7
FakeReLUM	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/k3/ck34u2ihhbnbcv7k6gttuj4jtoheyxbtbsnyfudkwvvrmxpo2zpp.py # Topologically Sorted Source Nodes: [clamp], Original ATen: [aten.clamp] # Source node to ATen node mapping: # clamp => clamp_min # Graph fragment: # %clamp_min : [num_users=1] = call_function[target=torch.ops.aten.clamp_min.default](args = (%arg0_1, 0), kwargs = {}) triton_poi_fused_clamp_0 = async_compile.triton('triton_poi_fused_clamp_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_clamp_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_clamp_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = 0.0 tmp2 = triton_helpers.maximum(tmp0, tmp1) tl.store(out_ptr0 + (x0), tmp2, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [clamp], Original ATen: [aten.clamp] stream0 = get_raw_stream(0) triton_poi_fused_clamp_0.run(arg0_1, buf0, 256, grid=grid(256), stream=stream0) del arg0_1 return (buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class FakeReLU(torch.autograd.Function): @staticmethod def forward(ctx, input): return input.clamp(min=0) @staticmethod def backward(ctx, grad_output): return grad_output class FakeReLUM(nn.Module): def forward(self, x): return FakeReLU.apply(x) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_clamp_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = 0.0 tmp2 = triton_helpers.maximum(tmp0, tmp1) tl.store(out_ptr0 + x0, tmp2, xmask) def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_clamp_0[grid(256)](arg0_1, buf0, 256, XBLOCK=256, num_warps=4, num_stages=1) del arg0_1 return buf0, class FakeReLU(torch.autograd.Function): @staticmethod def forward(ctx, input): return input.clamp(min=0) @staticmethod def backward(ctx, grad_output): return grad_output class FakeReLUMNew(nn.Module): def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	Jay-Roberts/FW-Perturbations	FakeReLUM	false	9,113	[ "MIT" ]	0960f6116125307cc986f9f19b3c5ab4c15ed535	https://github.com/Jay-Roberts/FW-Perturbations/tree/0960f6116125307cc986f9f19b3c5ab4c15ed535
h_sigmoid	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/gl/cgljna3wfarubemgd6d2p3bgazvfhdxtrcu7luu5yza3rrfkty2s.py # Topologically Sorted Source Nodes: [add, hardtanh, truediv], Original ATen: [aten.add, aten.hardtanh, aten.div] # Source node to ATen node mapping: # add => add # hardtanh => clamp_max, clamp_min # truediv => div # Graph fragment: # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%arg0_1, 3), kwargs = {}) # %clamp_min : [num_users=1] = call_function[target=torch.ops.aten.clamp_min.default](args = (%add, 0.0), kwargs = {}) # %clamp_max : [num_users=1] = call_function[target=torch.ops.aten.clamp_max.default](args = (%clamp_min, 6.0), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%clamp_max, 6), kwargs = {}) triton_poi_fused_add_div_hardtanh_0 = async_compile.triton('triton_poi_fused_add_div_hardtanh_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_div_hardtanh_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_div_hardtanh_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = 3.0 tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = triton_helpers.maximum(tmp2, tmp3) tmp5 = 6.0 tmp6 = triton_helpers.minimum(tmp4, tmp5) tmp7 = 0.16666666666666666 tmp8 = tmp6 * tmp7 tl.store(out_ptr0 + (x0), tmp8, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [add, hardtanh, truediv], Original ATen: [aten.add, aten.hardtanh, aten.div] stream0 = get_raw_stream(0) triton_poi_fused_add_div_hardtanh_0.run(arg0_1, buf0, 256, grid=grid(256), stream=stream0) del arg0_1 return (buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.utils.data import torch.nn as nn class h_sigmoid(nn.Module): def __init__(self, inplace=True): super(h_sigmoid, self).__init__() self.relu = nn.ReLU6(inplace=inplace) def forward(self, x): return self.relu(x + 3) / 6 def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers import torch.utils.data import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_add_div_hardtanh_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = 3.0 tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = triton_helpers.maximum(tmp2, tmp3) tmp5 = 6.0 tmp6 = triton_helpers.minimum(tmp4, tmp5) tmp7 = 0.16666666666666666 tmp8 = tmp6 * tmp7 tl.store(out_ptr0 + x0, tmp8, xmask) def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_add_div_hardtanh_0[grid(256)](arg0_1, buf0, 256, XBLOCK=256, num_warps=4, num_stages=1) del arg0_1 return buf0, class h_sigmoidNew(nn.Module): def __init__(self, inplace=True): super(h_sigmoidNew, self).__init__() self.relu = nn.ReLU6(inplace=inplace) def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	Ghaust/SSD	h_sigmoid	false	9,114	[ "MIT" ]	2bf14a48795d20ad2177f622e84d62b3ff81183f	https://github.com/Ghaust/SSD/tree/2bf14a48795d20ad2177f622e84d62b3ff81183f
RegressionModel	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/cb/ccbgymnr2fvk43axzcuowohjalipdfn2nc4qqvidfjzuqhtxsj6g.py # Unsorted Source Nodes: [], Original ATen: [] # Source node to ATen node mapping: triton_poi_fused_0 = async_compile.triton('triton_poi_fused_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[1024, 16], tile_hint=TileHint.SQUARE, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_0(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 1024 xnumel = 9 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = tl.full([XBLOCK, YBLOCK], True, tl.int1) xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 4 y1 = (yindex // 4) tmp0 = tl.load(in_ptr0 + (x2 + (9y3)), xmask, eviction_policy='evict_last') tl.store(out_ptr0 + (y0 + (4x2) + (36y1)), tmp0, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/j5/cj5nf2owtsdm2zwcezqxpyn63iwddjyadpotkhm2ua52inoqxdcl.py # Unsorted Source Nodes: [], Original ATen: [] # Source node to ATen node mapping: triton_poi_fused_1 = async_compile.triton('triton_poi_fused_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16, 16], tile_hint=TileHint.SQUARE, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_1(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 16 xnumel = 16 yoffset = tl.program_id(1) YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 4 y1 = (yindex // 4) tmp0 = tl.load(in_ptr0 + (x2 + (16y3)), xmask & ymask) tl.store(out_ptr0 + (y0 + (4x2) + (64y1)), tmp0, xmask & ymask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/co/ccosum7u5lx5fx5hf5opofiygxj2ntiq67yo5gfegevmhtkaru4r.py # Unsorted Source Nodes: [], Original ATen: [] # Source node to ATen node mapping: triton_poi_fused_2 = async_compile.triton('triton_poi_fused_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[65536, 16], tile_hint=TileHint.SQUARE, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_2(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 65536 xnumel = 9 yoffset = (tl.program_id(1) + tl.program_id(2) tl.num_programs(1)) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = tl.full([XBLOCK, YBLOCK], True, tl.int1) xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 256 y1 = (yindex // 256) tmp0 = tl.load(in_ptr0 + (x2 + (9y3)), xmask, eviction_policy='evict_last') tl.store(out_ptr0 + (y0 + (256x2) + (2304y1)), tmp0, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/ws/cwsrcfdfu45ejuj6udxylndrycbdmwleygcbzjar45j3a4mbuz5r.py # Unsorted Source Nodes: [], Original ATen: [] # Source node to ATen node mapping: triton_poi_fused_3 = async_compile.triton('triton_poi_fused_3', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[65536, 16], tile_hint=TileHint.SQUARE, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_3', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_3(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 43008 xnumel = 9 yoffset = tl.program_id(1) YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = tl.full([XBLOCK, YBLOCK], True, tl.int1) xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 256 y1 = (yindex // 256) tmp0 = tl.load(in_ptr0 + (x2 + (9y3)), xmask, eviction_policy='evict_last') tl.store(out_ptr0 + (y0 + (256x2) + (2304y1)), tmp0, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/wj/cwjii5g7vcokiqucazdgsrvnsqad3q7z4gbxiwezolbw7o6ilfmr.py # Topologically Sorted Source Nodes: [out, out_1], Original ATen: [aten.convolution, aten.relu] # Source node to ATen node mapping: # out => convolution # out_1 => relu # Graph fragment: # %convolution : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_3, %primals_1, %primals_2, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution,), kwargs = {}) triton_poi_fused_convolution_relu_4 = async_compile.triton('triton_poi_fused_convolution_relu_4', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16384], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_relu_4', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_relu_4(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16384 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x2 = xindex x0 = xindex % 256 tmp0 = tl.load(in_out_ptr0 + (x2), None) tmp1 = tl.load(in_ptr0 + (x0), None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + (x2), tmp4, None) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/e3/ce3fg2bqzmadjkaxsichspvjdcphoktkddpngpo3ou7tqd4dakcv.py # Topologically Sorted Source Nodes: [contiguous, result], Original ATen: [aten.clone, aten.view] # Source node to ATen node mapping: # contiguous => clone # result => view # Graph fragment: # %clone : [num_users=1] = call_function[target=torch.ops.aten.clone.default](args = (%permute,), kwargs = {memory_format: torch.contiguous_format}) # %view : [num_users=1] = call_function[target=torch.ops.aten.reshape.default](args = (%clone, [4, -1, 8]), kwargs = {}) triton_poi_fused_clone_view_5 = async_compile.triton('triton_poi_fused_clone_view_5', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16384], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_clone_view_5', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_clone_view_5(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 10752 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x4 = xindex x0 = xindex % 168 tmp0 = tl.load(in_out_ptr0 + (x4), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + (x4), tmp2, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11 = args args.clear() assert_size_stride(primals_1, (256, 4, 3, 3), (36, 9, 3, 1)) assert_size_stride(primals_2, (256, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (256, 256, 3, 3), (2304, 9, 3, 1)) assert_size_stride(primals_5, (256, ), (1, )) assert_size_stride(primals_6, (256, 256, 3, 3), (2304, 9, 3, 1)) assert_size_stride(primals_7, (256, ), (1, )) assert_size_stride(primals_8, (256, 256, 3, 3), (2304, 9, 3, 1)) assert_size_stride(primals_9, (256, ), (1, )) assert_size_stride(primals_10, (168, 256, 3, 3), (2304, 9, 3, 1)) assert_size_stride(primals_11, (168, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((256, 4, 3, 3), (36, 1, 12, 4), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] stream0 = get_raw_stream(0) triton_poi_fused_0.run(primals_1, buf0, 1024, 9, grid=grid(1024, 9), stream=stream0) del primals_1 buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 1, 16, 4), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] triton_poi_fused_1.run(primals_3, buf1, 16, 16, grid=grid(16, 16), stream=stream0) del primals_3 buf2 = empty_strided_cuda((256, 256, 3, 3), (2304, 1, 768, 256), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] triton_poi_fused_2.run(primals_4, buf2, 65536, 9, grid=grid(65536, 9), stream=stream0) del primals_4 buf3 = empty_strided_cuda((256, 256, 3, 3), (2304, 1, 768, 256), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] triton_poi_fused_2.run(primals_6, buf3, 65536, 9, grid=grid(65536, 9), stream=stream0) del primals_6 buf4 = empty_strided_cuda((256, 256, 3, 3), (2304, 1, 768, 256), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] triton_poi_fused_2.run(primals_8, buf4, 65536, 9, grid=grid(65536, 9), stream=stream0) del primals_8 buf5 = empty_strided_cuda((168, 256, 3, 3), (2304, 1, 768, 256), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] triton_poi_fused_3.run(primals_10, buf5, 43008, 9, grid=grid(43008, 9), stream=stream0) del primals_10 # Topologically Sorted Source Nodes: [out], Original ATen: [aten.convolution] buf6 = extern_kernels.convolution(buf1, buf0, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf6, (4, 256, 4, 4), (4096, 1, 1024, 256)) buf7 = buf6; del buf6 # reuse # Topologically Sorted Source Nodes: [out, out_1], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_4.run(buf7, primals_2, 16384, grid=grid(16384), stream=stream0) del primals_2 # Topologically Sorted Source Nodes: [out_2], Original ATen: [aten.convolution] buf8 = extern_kernels.convolution(buf7, buf2, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf8, (4, 256, 4, 4), (4096, 1, 1024, 256)) buf9 = buf8; del buf8 # reuse # Topologically Sorted Source Nodes: [out_2, out_3], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_4.run(buf9, primals_5, 16384, grid=grid(16384), stream=stream0) del primals_5 # Topologically Sorted Source Nodes: [out_4], Original ATen: [aten.convolution] buf10 = extern_kernels.convolution(buf9, buf3, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf10, (4, 256, 4, 4), (4096, 1, 1024, 256)) buf11 = buf10; del buf10 # reuse # Topologically Sorted Source Nodes: [out_4, out_5], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_4.run(buf11, primals_7, 16384, grid=grid(16384), stream=stream0) del primals_7 # Topologically Sorted Source Nodes: [out_6], Original ATen: [aten.convolution] buf12 = extern_kernels.convolution(buf11, buf4, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf12, (4, 256, 4, 4), (4096, 1, 1024, 256)) buf13 = buf12; del buf12 # reuse # Topologically Sorted Source Nodes: [out_6, out_7], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_4.run(buf13, primals_9, 16384, grid=grid(16384), stream=stream0) del primals_9 # Topologically Sorted Source Nodes: [out_8], Original ATen: [aten.convolution] buf14 = extern_kernels.convolution(buf13, buf5, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf14, (4, 168, 4, 4), (2688, 1, 672, 168)) buf15 = reinterpret_tensor(buf14, (4, 4, 4, 168), (2688, 672, 168, 1), 0); del buf14 # reuse buf16 = reinterpret_tensor(buf15, (4, 336, 8), (2688, 8, 1), 0); del buf15 # reuse # Topologically Sorted Source Nodes: [contiguous, result], Original ATen: [aten.clone, aten.view] triton_poi_fused_clone_view_5.run(buf16, primals_11, 10752, grid=grid(10752), stream=stream0) del primals_11 return (buf16, buf0, buf1, buf2, buf3, buf4, buf5, buf7, buf9, buf11, buf13, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((256, 4, 3, 3), (36, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((256, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((256, 256, 3, 3), (2304, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((256, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((256, 256, 3, 3), (2304, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((256, ), (1, ), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((256, 256, 3, 3), (2304, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((256, ), (1, ), device='cuda:0', dtype=torch.float32) primals_10 = rand_strided((168, 256, 3, 3), (2304, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_11 = rand_strided((168, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class RegressionModel(nn.Module): def __init__(self, num_features_in, num_anchors=21, feature_size=256): super(RegressionModel, self).__init__() self.conv1 = nn.Conv2d(num_features_in, feature_size, kernel_size=( 3, 3), padding=1) self.act1 = nn.ReLU() self.conv2 = nn.Conv2d(feature_size, feature_size, kernel_size=(3, 3), padding=1) self.act2 = nn.ReLU() self.conv3 = nn.Conv2d(feature_size, feature_size, kernel_size=(3, 3), padding=1) self.act3 = nn.ReLU() self.conv4 = nn.Conv2d(feature_size, feature_size, kernel_size=(3, 3), padding=1) self.act4 = nn.ReLU() self.output = nn.Conv2d(feature_size, num_anchors * 8, kernel_size= (3, 3), padding=1) def forward(self, x): out = self.conv1(x) out = self.act1(out) out = self.conv2(out) out = self.act2(out) out = self.conv3(out) out = self.act3(out) out = self.conv4(out) out = self.act4(out) out = self.output(out) out = out.permute(0, 2, 3, 1) result = out.contiguous().view(out.shape[0], -1, 8) return result def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'num_features_in': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_0(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK: tl. constexpr, XBLOCK: tl.constexpr): xnumel = 9 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] tl.full([XBLOCK, YBLOCK], True, tl.int1) xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 4 y1 = yindex // 4 tmp0 = tl.load(in_ptr0 + (x2 + 9 * y3), xmask, eviction_policy='evict_last' ) tl.store(out_ptr0 + (y0 + 4 * x2 + 36 * y1), tmp0, xmask) @triton.jit def triton_poi_fused_1(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK: tl. constexpr, XBLOCK: tl.constexpr): ynumel = 16 xnumel = 16 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 4 y1 = yindex // 4 tmp0 = tl.load(in_ptr0 + (x2 + 16 * y3), xmask & ymask) tl.store(out_ptr0 + (y0 + 4 * x2 + 64 * y1), tmp0, xmask & ymask) @triton.jit def triton_poi_fused_2(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK: tl. constexpr, XBLOCK: tl.constexpr): xnumel = 9 yoffset = (tl.program_id(1) + tl.program_id(2) * tl.num_programs(1) ) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] tl.full([XBLOCK, YBLOCK], True, tl.int1) xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 256 y1 = yindex // 256 tmp0 = tl.load(in_ptr0 + (x2 + 9 * y3), xmask, eviction_policy='evict_last' ) tl.store(out_ptr0 + (y0 + 256 * x2 + 2304 * y1), tmp0, xmask) @triton.jit def triton_poi_fused_3(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK: tl. constexpr, XBLOCK: tl.constexpr): xnumel = 9 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] tl.full([XBLOCK, YBLOCK], True, tl.int1) xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 256 y1 = yindex // 256 tmp0 = tl.load(in_ptr0 + (x2 + 9 * y3), xmask, eviction_policy='evict_last' ) tl.store(out_ptr0 + (y0 + 256 * x2 + 2304 * y1), tmp0, xmask) @triton.jit def triton_poi_fused_convolution_relu_4(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x2 = xindex x0 = xindex % 256 tmp0 = tl.load(in_out_ptr0 + x2, None) tmp1 = tl.load(in_ptr0 + x0, None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + x2, tmp4, None) @triton.jit def triton_poi_fused_clone_view_5(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 10752 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x4 = xindex x0 = xindex % 168 tmp0 = tl.load(in_out_ptr0 + x4, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + x4, tmp2, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11) = args args.clear() assert_size_stride(primals_1, (256, 4, 3, 3), (36, 9, 3, 1)) assert_size_stride(primals_2, (256,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (256, 256, 3, 3), (2304, 9, 3, 1)) assert_size_stride(primals_5, (256,), (1,)) assert_size_stride(primals_6, (256, 256, 3, 3), (2304, 9, 3, 1)) assert_size_stride(primals_7, (256,), (1,)) assert_size_stride(primals_8, (256, 256, 3, 3), (2304, 9, 3, 1)) assert_size_stride(primals_9, (256,), (1,)) assert_size_stride(primals_10, (168, 256, 3, 3), (2304, 9, 3, 1)) assert_size_stride(primals_11, (168,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((256, 4, 3, 3), (36, 1, 12, 4), torch.float32 ) get_raw_stream(0) triton_poi_fused_0[grid(1024, 9)](primals_1, buf0, 1024, 9, XBLOCK= 16, YBLOCK=64, num_warps=4, num_stages=1) del primals_1 buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 1, 16, 4), torch.float32) triton_poi_fused_1[grid(16, 16)](primals_3, buf1, 16, 16, XBLOCK=16, YBLOCK=16, num_warps=4, num_stages=1) del primals_3 buf2 = empty_strided_cuda((256, 256, 3, 3), (2304, 1, 768, 256), torch.float32) triton_poi_fused_2[grid(65536, 9)](primals_4, buf2, 65536, 9, XBLOCK=16, YBLOCK=64, num_warps=4, num_stages=1) del primals_4 buf3 = empty_strided_cuda((256, 256, 3, 3), (2304, 1, 768, 256), torch.float32) triton_poi_fused_2[grid(65536, 9)](primals_6, buf3, 65536, 9, XBLOCK=16, YBLOCK=64, num_warps=4, num_stages=1) del primals_6 buf4 = empty_strided_cuda((256, 256, 3, 3), (2304, 1, 768, 256), torch.float32) triton_poi_fused_2[grid(65536, 9)](primals_8, buf4, 65536, 9, XBLOCK=16, YBLOCK=64, num_warps=4, num_stages=1) del primals_8 buf5 = empty_strided_cuda((168, 256, 3, 3), (2304, 1, 768, 256), torch.float32) triton_poi_fused_3[grid(43008, 9)](primals_10, buf5, 43008, 9, XBLOCK=16, YBLOCK=64, num_warps=4, num_stages=1) del primals_10 buf6 = extern_kernels.convolution(buf1, buf0, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf6, (4, 256, 4, 4), (4096, 1, 1024, 256)) buf7 = buf6 del buf6 triton_poi_fused_convolution_relu_4[grid(16384)](buf7, primals_2, 16384, XBLOCK=256, num_warps=4, num_stages=1) del primals_2 buf8 = extern_kernels.convolution(buf7, buf2, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf8, (4, 256, 4, 4), (4096, 1, 1024, 256)) buf9 = buf8 del buf8 triton_poi_fused_convolution_relu_4[grid(16384)](buf9, primals_5, 16384, XBLOCK=256, num_warps=4, num_stages=1) del primals_5 buf10 = extern_kernels.convolution(buf9, buf3, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf10, (4, 256, 4, 4), (4096, 1, 1024, 256)) buf11 = buf10 del buf10 triton_poi_fused_convolution_relu_4[grid(16384)](buf11, primals_7, 16384, XBLOCK=256, num_warps=4, num_stages=1) del primals_7 buf12 = extern_kernels.convolution(buf11, buf4, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf12, (4, 256, 4, 4), (4096, 1, 1024, 256)) buf13 = buf12 del buf12 triton_poi_fused_convolution_relu_4[grid(16384)](buf13, primals_9, 16384, XBLOCK=256, num_warps=4, num_stages=1) del primals_9 buf14 = extern_kernels.convolution(buf13, buf5, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf14, (4, 168, 4, 4), (2688, 1, 672, 168)) buf15 = reinterpret_tensor(buf14, (4, 4, 4, 168), (2688, 672, 168, 1), 0) del buf14 buf16 = reinterpret_tensor(buf15, (4, 336, 8), (2688, 8, 1), 0) del buf15 triton_poi_fused_clone_view_5[grid(10752)](buf16, primals_11, 10752, XBLOCK=256, num_warps=4, num_stages=1) del primals_11 return buf16, buf0, buf1, buf2, buf3, buf4, buf5, buf7, buf9, buf11, buf13 class RegressionModelNew(nn.Module): def __init__(self, num_features_in, num_anchors=21, feature_size=256): super(RegressionModelNew, self).__init__() self.conv1 = nn.Conv2d(num_features_in, feature_size, kernel_size=( 3, 3), padding=1) self.act1 = nn.ReLU() self.conv2 = nn.Conv2d(feature_size, feature_size, kernel_size=(3, 3), padding=1) self.act2 = nn.ReLU() self.conv3 = nn.Conv2d(feature_size, feature_size, kernel_size=(3, 3), padding=1) self.act3 = nn.ReLU() self.conv4 = nn.Conv2d(feature_size, feature_size, kernel_size=(3, 3), padding=1) self.act4 = nn.ReLU() self.output = nn.Conv2d(feature_size, num_anchors * 8, kernel_size= (3, 3), padding=1) def forward(self, input_0): primals_1 = self.conv1.weight primals_2 = self.conv1.bias primals_4 = self.conv2.weight primals_5 = self.conv2.bias primals_6 = self.conv3.weight primals_7 = self.conv3.bias primals_8 = self.conv4.weight primals_9 = self.conv4.bias primals_10 = self.output.weight primals_11 = self.output.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11]) return output[0]	HenryOsborne/Rotation	RegressionModel	false	9,115	[ "Apache-2.0" ]	417fa90bcbb2a144f0c1d2ce5d9fc110f6617bf2	https://github.com/HenryOsborne/Rotation/tree/417fa90bcbb2a144f0c1d2ce5d9fc110f6617bf2
GlobalAttentionGeneral	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/qi/cqinh332474qtv7bgen4bcfz2yfclns66jnudr7z7wmvlrgqoduc.py # Topologically Sorted Source Nodes: [targetT], Original ATen: [aten.clone, aten.transpose] # Source node to ATen node mapping: # targetT => clone # Graph fragment: # %clone : [num_users=2] = call_function[target=torch.ops.aten.clone.default](args = (%permute,), kwargs = {memory_format: torch.contiguous_format}) # %permute_5 : [num_users=1] = call_function[target=torch.ops.aten.permute.default](args = (%clone, [0, 2, 1]), kwargs = {}) triton_poi_fused_clone_transpose_0 = async_compile.triton('triton_poi_fused_clone_transpose_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16, 16], tile_hint=TileHint.DEFAULT, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_clone_transpose_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_clone_transpose_0(in_ptr0, out_ptr0, out_ptr1, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 16 xnumel = 16 yoffset = tl.program_id(1) YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x1 = xindex y0 = yindex y2 = yindex % 4 y3 = (yindex // 4) tmp0 = tl.load(in_ptr0 + (x1 + (16y0)), xmask & ymask) tl.store(out_ptr0 + (x1 + (16y0)), tmp0, xmask & ymask) tl.store(out_ptr1 + (y2 + (4x1) + (64y3)), tmp0, xmask & ymask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/hz/chz2sqsqk26mwhf2dxhgh44jfpu2er5yqjftwkzfav5ctqtx5e7f.py # Topologically Sorted Source Nodes: [attn_2], Original ATen: [aten._softmax] # Source node to ATen node mapping: # attn_2 => amax, exp, sub # Graph fragment: # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%view_1, [1], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%view_1, %amax), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub,), kwargs = {}) triton_poi_fused__softmax_1 = async_compile.triton('triton_poi_fused__softmax_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_1(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (4x1), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + (4x1)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + (4x1)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + (4x1)), xmask, eviction_policy='evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + (x2), tmp9, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/pm/cpmy57yidxxfl6wmlh5dsizlsat4uz6k43rz6t4r6h2u4z625i5l.py # Topologically Sorted Source Nodes: [attn_4], Original ATen: [aten.clone] # Source node to ATen node mapping: # attn_4 => clone_1 # Graph fragment: # %clone_1 : [num_users=3] = call_function[target=torch.ops.aten.clone.default](args = (%permute_1,), kwargs = {memory_format: torch.contiguous_format}) triton_poi_fused_clone_2 = async_compile.triton('triton_poi_fused_clone_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16, 16], tile_hint=TileHint.SQUARE, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_clone_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_clone_2(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 16 xnumel = 16 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y0 = yindex % 4 y1 = (yindex // 4) y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + (4x2) + (64y1)), xmask & ymask) tmp1 = tl.load(in_ptr0 + ((4x2) + (64y1)), xmask & ymask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + (4x2) + (64y1)), xmask & ymask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + (4x2) + (64y1)), xmask & ymask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + (4x2) + (64y1)), xmask & ymask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + (x2 + (16*y3)), tmp8, xmask & ymask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_3, (4, 4, 1, 1), (4, 1, 1, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [conv2d], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(reinterpret_tensor(primals_2, (4, 4, 4, 1), (16, 4, 1, 1), 0), primals_3, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 4, 1), (16, 4, 1, 1)) buf1 = empty_strided_cuda((4, 16, 4), (64, 1, 16), torch.float32) buf6 = empty_strided_cuda((4, 4, 16), (64, 1, 4), torch.float32) # Topologically Sorted Source Nodes: [targetT], Original ATen: [aten.clone, aten.transpose] stream0 = get_raw_stream(0) triton_poi_fused_clone_transpose_0.run(primals_1, buf1, buf6, 16, 16, grid=grid(16, 16), stream=stream0) del primals_1 buf2 = empty_strided_cuda((4, 16, 4), (64, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [targetT, attn], Original ATen: [aten.clone, aten.bmm] extern_kernels.bmm(buf1, reinterpret_tensor(buf0, (4, 4, 4), (16, 4, 1), 0), out=buf2) buf3 = reinterpret_tensor(buf1, (64, 4), (4, 1), 0); del buf1 # reuse # Topologically Sorted Source Nodes: [attn_2], Original ATen: [aten._softmax] triton_poi_fused__softmax_1.run(buf2, buf3, 256, grid=grid(256), stream=stream0) buf4 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) # Topologically Sorted Source Nodes: [attn_4], Original ATen: [aten.clone] triton_poi_fused_clone_2.run(buf3, buf4, 16, 16, grid=grid(16, 16), stream=stream0) buf5 = reinterpret_tensor(buf3, (4, 4, 16), (64, 16, 1), 0); del buf3 # reuse # Topologically Sorted Source Nodes: [weightedContext], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf0, (4, 4, 4), (16, 4, 1), 0), buf4, out=buf5) return (reinterpret_tensor(buf5, (4, 4, 4, 4), (64, 16, 4, 1), 0), reinterpret_tensor(buf4, (4, 4, 4, 4), (64, 16, 4, 1), 0), primals_3, reinterpret_tensor(primals_2, (4, 4, 4, 1), (16, 4, 1, 1), 0), buf2, reinterpret_tensor(buf0, (4, 4, 4), (16, 1, 4), 0), reinterpret_tensor(buf4, (4, 16, 4), (64, 1, 16), 0), buf6, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 1, 1), (4, 1, 1, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.nn.parallel def conv1x1(in_planes, out_planes, bias=False): """1x1 convolution with padding""" return nn.Conv2d(in_planes, out_planes, kernel_size=1, stride=1, padding=0, bias=bias) class GlobalAttentionGeneral(nn.Module): def __init__(self, idf, cdf): super(GlobalAttentionGeneral, self).__init__() self.conv_context = conv1x1(cdf, idf) self.sm = nn.Softmax(dim=1) self.mask = None def applyMask(self, mask): self.mask = mask def forward(self, input, context): """ input: batch x idf x ih x iw (queryL=ihxiw) context: batch x cdf x sourceL """ ih, iw = input.size(2), input.size(3) queryL = ih * iw batch_size, sourceL = context.size(0), context.size(2) target = input.view(batch_size, -1, queryL) targetT = torch.transpose(target, 1, 2).contiguous() sourceT = context.unsqueeze(3) sourceT = self.conv_context(sourceT).squeeze(3) attn = torch.bmm(targetT, sourceT) attn = attn.view(batch_size * queryL, sourceL) if self.mask is not None: mask = self.mask.repeat(queryL, 1) attn.data.masked_fill_(mask.data, -float('inf')) attn = self.sm(attn) attn = attn.view(batch_size, queryL, sourceL) attn = torch.transpose(attn, 1, 2).contiguous() weightedContext = torch.bmm(sourceT, attn) weightedContext = weightedContext.view(batch_size, -1, ih, iw) attn = attn.view(batch_size, -1, ih, iw) return weightedContext, attn def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4])] def get_init_inputs(): return [[], {'idf': 4, 'cdf': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math import torch.nn as nn import torch.nn.parallel assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_clone_transpose_0(in_ptr0, out_ptr0, out_ptr1, ynumel, xnumel, YBLOCK: tl.constexpr, XBLOCK: tl.constexpr): ynumel = 16 xnumel = 16 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x1 = xindex y0 = yindex y2 = yindex % 4 y3 = yindex // 4 tmp0 = tl.load(in_ptr0 + (x1 + 16 * y0), xmask & ymask) tl.store(out_ptr0 + (x1 + 16 * y0), tmp0, xmask & ymask) tl.store(out_ptr1 + (y2 + 4 * x1 + 64 * y3), tmp0, xmask & ymask) @triton.jit def triton_poi_fused__softmax_1(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + 4 * x1, xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + 4 * x1), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + 4 * x1), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + 4 * x1), xmask, eviction_policy='evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + x2, tmp9, xmask) @triton.jit def triton_poi_fused_clone_2(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK: tl. constexpr, XBLOCK: tl.constexpr): ynumel = 16 xnumel = 16 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y0 = yindex % 4 y1 = yindex // 4 y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + 4 * x2 + 64 * y1), xmask & ymask) tmp1 = tl.load(in_ptr0 + (4 * x2 + 64 * y1), xmask & ymask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + 4 * x2 + 64 * y1), xmask & ymask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + 4 * x2 + 64 * y1), xmask & ymask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + 4 * x2 + 64 * y1), xmask & ymask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + (x2 + 16 * y3), tmp8, xmask & ymask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_3, (4, 4, 1, 1), (4, 1, 1, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(reinterpret_tensor(primals_2, (4, 4, 4, 1), (16, 4, 1, 1), 0), primals_3, stride=(1, 1), padding= (0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0 ), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 4, 1), (16, 4, 1, 1)) buf1 = empty_strided_cuda((4, 16, 4), (64, 1, 16), torch.float32) buf6 = empty_strided_cuda((4, 4, 16), (64, 1, 4), torch.float32) get_raw_stream(0) triton_poi_fused_clone_transpose_0[grid(16, 16)](primals_1, buf1, buf6, 16, 16, XBLOCK=16, YBLOCK=16, num_warps=4, num_stages=1) del primals_1 buf2 = empty_strided_cuda((4, 16, 4), (64, 4, 1), torch.float32) extern_kernels.bmm(buf1, reinterpret_tensor(buf0, (4, 4, 4), (16, 4, 1), 0), out=buf2) buf3 = reinterpret_tensor(buf1, (64, 4), (4, 1), 0) del buf1 triton_poi_fused__softmax_1[grid(256)](buf2, buf3, 256, XBLOCK=128, num_warps=4, num_stages=1) buf4 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) triton_poi_fused_clone_2[grid(16, 16)](buf3, buf4, 16, 16, XBLOCK= 16, YBLOCK=16, num_warps=4, num_stages=1) buf5 = reinterpret_tensor(buf3, (4, 4, 16), (64, 16, 1), 0) del buf3 extern_kernels.bmm(reinterpret_tensor(buf0, (4, 4, 4), (16, 4, 1), 0), buf4, out=buf5) return reinterpret_tensor(buf5, (4, 4, 4, 4), (64, 16, 4, 1), 0 ), reinterpret_tensor(buf4, (4, 4, 4, 4), (64, 16, 4, 1), 0 ), primals_3, reinterpret_tensor(primals_2, (4, 4, 4, 1), (16, 4, 1, 1), 0), buf2, reinterpret_tensor(buf0, (4, 4, 4), (16, 1, 4), 0 ), reinterpret_tensor(buf4, (4, 16, 4), (64, 1, 16), 0), buf6 def conv1x1(in_planes, out_planes, bias=False): """1x1 convolution with padding""" return nn.Conv2d(in_planes, out_planes, kernel_size=1, stride=1, padding=0, bias=bias) class GlobalAttentionGeneralNew(nn.Module): def __init__(self, idf, cdf): super(GlobalAttentionGeneralNew, self).__init__() self.conv_context = conv1x1(cdf, idf) self.sm = nn.Softmax(dim=1) self.mask = None def applyMask(self, mask): self.mask = mask def forward(self, input_0, input_1): primals_3 = self.conv_context.weight primals_1 = input_0 primals_2 = input_1 output = call([primals_1, primals_2, primals_3]) return output[0], output[1]	Huy2122k/Project3-AttnGANwCLIP	GlobalAttentionGeneral	false	9,116	[ "MIT" ]	3fb8c643bf71599e1606ec468e86373ccde1ed20	https://github.com/Huy2122k/Project3-AttnGANwCLIP/tree/3fb8c643bf71599e1606ec468e86373ccde1ed20
BothContextGate	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/nc/cnc6a3vkphurm472zdavmn3qnff4lmaezxs63jlllw2kks2e62a4.py # Topologically Sorted Source Nodes: [input_tensor], Original ATen: [aten.cat] # Source node to ATen node mapping: # input_tensor => cat # Graph fragment: # %cat : [num_users=2] = call_function[target=torch.ops.aten.cat.default](args = ([%primals_1, %primals_2, %primals_3], 1), kwargs = {}) triton_poi_fused_cat_0 = async_compile.triton('triton_poi_fused_cat_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_cat_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 3, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_cat_0(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 48 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 12 x1 = (xindex // 12) x2 = xindex tmp0 = x0 tmp1 = tl.full([1], 0, tl.int64) tmp2 = tmp0 >= tmp1 tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + ((4x1) + x0), tmp4 & xmask, eviction_policy='evict_last', other=0.0) tmp6 = tmp0 >= tmp3 tmp7 = tl.full([1], 8, tl.int64) tmp8 = tmp0 < tmp7 tmp9 = tmp6 & tmp8 tmp10 = tl.load(in_ptr1 + ((4x1) + ((-4) + x0)), tmp9 & xmask, eviction_policy='evict_last', other=0.0) tmp11 = tmp0 >= tmp7 tmp12 = tl.full([1], 12, tl.int64) tmp13 = tmp0 < tmp12 tmp14 = tl.load(in_ptr2 + ((4x1) + ((-8) + x0)), tmp11 & xmask, eviction_policy='evict_last', other=0.0) tmp15 = tl.where(tmp9, tmp10, tmp14) tmp16 = tl.where(tmp4, tmp5, tmp15) tl.store(out_ptr0 + (x2), tmp16, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/as/castj5utepsqaf7nmxz7ydwohxvblspgu7zqqkf5geoow2xnjdtg.py # Topologically Sorted Source Nodes: [cat_1], Original ATen: [aten.cat] # Source node to ATen node mapping: # cat_1 => cat_1 # Graph fragment: # %cat_1 : [num_users=2] = call_function[target=torch.ops.aten.cat.default](args = ([%primals_1, %primals_2], 1), kwargs = {}) triton_poi_fused_cat_1 = async_compile.triton('triton_poi_fused_cat_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[32], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_cat_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_cat_1(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 32 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 8 x1 = (xindex // 8) x2 = xindex tmp0 = x0 tmp1 = tl.full([1], 0, tl.int64) tmp2 = tmp0 >= tmp1 tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + ((4x1) + x0), tmp4 & xmask, eviction_policy='evict_last', other=0.0) tmp6 = tmp0 >= tmp3 tmp7 = tl.full([1], 8, tl.int64) tmp8 = tmp0 < tmp7 tmp9 = tl.load(in_ptr1 + ((4x1) + ((-4) + x0)), tmp6 & xmask, eviction_policy='evict_last', other=0.0) tmp10 = tl.where(tmp4, tmp5, tmp9) tl.store(out_ptr0 + (x2), tmp10, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/42/c42q6xmrtx4mk6cvsm764oigvfmjedisa43isepa27ioqcfzfgtm.py # Topologically Sorted Source Nodes: [z, sub, mul, mul_1, add, tanh], Original ATen: [aten.sigmoid, aten.rsub, aten.mul, aten.add, aten.tanh] # Source node to ATen node mapping: # add => add # mul => mul # mul_1 => mul_1 # sub => sub # tanh => tanh # z => sigmoid # Graph fragment: # %sigmoid : [num_users=2] = call_function[target=torch.ops.aten.sigmoid.default](args = (%addmm,), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (1.0, %sigmoid), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub, %addmm_2), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sigmoid, %addmm_1), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul, %mul_1), kwargs = {}) # %tanh : [num_users=1] = call_function[target=torch.ops.aten.tanh.default](args = (%add,), kwargs = {}) triton_poi_fused_add_mul_rsub_sigmoid_tanh_2 = async_compile.triton('triton_poi_fused_add_mul_rsub_sigmoid_tanh_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_mul_rsub_sigmoid_tanh_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 3, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_mul_rsub_sigmoid_tanh_2(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp4 = tl.load(in_ptr1 + (x0), xmask) tmp6 = tl.load(in_ptr2 + (x0), xmask) tmp1 = tl.sigmoid(tmp0) tmp2 = 1.0 tmp3 = tmp2 - tmp1 tmp5 = tmp3 * tmp4 tmp7 = tmp1 * tmp6 tmp8 = tmp5 + tmp7 tmp9 = libdevice.tanh(tmp8) tl.store(out_ptr0 + (x0), tmp9, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, 4), (4, 1)) assert_size_stride(primals_3, (4, 4), (4, 1)) assert_size_stride(primals_4, (4, 12), (12, 1)) assert_size_stride(primals_5, (4, ), (1, )) assert_size_stride(primals_6, (4, 4), (4, 1)) assert_size_stride(primals_7, (4, ), (1, )) assert_size_stride(primals_8, (4, 8), (8, 1)) assert_size_stride(primals_9, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 12), (12, 1), torch.float32) # Topologically Sorted Source Nodes: [input_tensor], Original ATen: [aten.cat] stream0 = get_raw_stream(0) triton_poi_fused_cat_0.run(primals_1, primals_2, primals_3, buf0, 48, grid=grid(48), stream=stream0) buf1 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [linear], Original ATen: [aten.addmm] extern_kernels.addmm(primals_5, buf0, reinterpret_tensor(primals_4, (12, 4), (1, 12), 0), alpha=1, beta=1, out=buf1) del primals_4 del primals_5 buf2 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [proj_source], Original ATen: [aten.addmm] extern_kernels.addmm(primals_7, primals_3, reinterpret_tensor(primals_6, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf2) del primals_6 del primals_7 buf3 = empty_strided_cuda((4, 8), (8, 1), torch.float32) # Topologically Sorted Source Nodes: [cat_1], Original ATen: [aten.cat] triton_poi_fused_cat_1.run(primals_1, primals_2, buf3, 32, grid=grid(32), stream=stream0) del primals_1 del primals_2 buf4 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [proj_target], Original ATen: [aten.addmm] extern_kernels.addmm(primals_9, buf3, reinterpret_tensor(primals_8, (8, 4), (1, 8), 0), alpha=1, beta=1, out=buf4) del primals_8 del primals_9 buf5 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [z, sub, mul, mul_1, add, tanh], Original ATen: [aten.sigmoid, aten.rsub, aten.mul, aten.add, aten.tanh] triton_poi_fused_add_mul_rsub_sigmoid_tanh_2.run(buf1, buf4, buf2, buf5, 16, grid=grid(16), stream=stream0) return (buf5, primals_3, buf0, buf1, buf2, buf3, buf4, buf5, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 12), (12, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((4, 8), (8, 1), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.cuda import torch.distributed class ContextGate(nn.Module): """ Context gate is a decoder module that takes as input the previous word embedding, the current decoder state and the attention state, and produces a gate. The gate can be used to select the input from the target side context (decoder state), from the source context (attention state) or both. """ def __init__(self, embeddings_size, decoder_size, attention_size, output_size): super(ContextGate, self).__init__() input_size = embeddings_size + decoder_size + attention_size self.gate = nn.Linear(input_size, output_size, bias=True) self.sig = nn.Sigmoid() self.source_proj = nn.Linear(attention_size, output_size) self.target_proj = nn.Linear(embeddings_size + decoder_size, output_size) def forward(self, prev_emb, dec_state, attn_state): input_tensor = torch.cat((prev_emb, dec_state, attn_state), dim=1) z = self.sig(self.gate(input_tensor)) proj_source = self.source_proj(attn_state) proj_target = self.target_proj(torch.cat((prev_emb, dec_state), dim=1)) return z, proj_source, proj_target class BothContextGate(nn.Module): """Apply the context gate to both contexts""" def __init__(self, embeddings_size, decoder_size, attention_size, output_size): super(BothContextGate, self).__init__() self.context_gate = ContextGate(embeddings_size, decoder_size, attention_size, output_size) self.tanh = nn.Tanh() def forward(self, prev_emb, dec_state, attn_state): z, source, target = self.context_gate(prev_emb, dec_state, attn_state) return self.tanh((1.0 - z) * target + z * source) def get_inputs(): return [torch.rand([4, 4]), torch.rand([4, 4]), torch.rand([4, 4])] def get_init_inputs(): return [[], {'embeddings_size': 4, 'decoder_size': 4, 'attention_size': 4, 'output_size': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import libdevice import torch.nn as nn import torch.cuda import torch.distributed assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_cat_0(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 48 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 12 x1 = xindex // 12 x2 = xindex tmp0 = x0 tl.full([1], 0, tl.int64) tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + (4 * x1 + x0), tmp4 & xmask, eviction_policy= 'evict_last', other=0.0) tmp6 = tmp0 >= tmp3 tmp7 = tl.full([1], 8, tl.int64) tmp8 = tmp0 < tmp7 tmp9 = tmp6 & tmp8 tmp10 = tl.load(in_ptr1 + (4 * x1 + (-4 + x0)), tmp9 & xmask, eviction_policy='evict_last', other=0.0) tmp11 = tmp0 >= tmp7 tl.full([1], 12, tl.int64) tmp14 = tl.load(in_ptr2 + (4 * x1 + (-8 + x0)), tmp11 & xmask, eviction_policy='evict_last', other=0.0) tmp15 = tl.where(tmp9, tmp10, tmp14) tmp16 = tl.where(tmp4, tmp5, tmp15) tl.store(out_ptr0 + x2, tmp16, xmask) @triton.jit def triton_poi_fused_cat_1(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 32 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 8 x1 = xindex // 8 x2 = xindex tmp0 = x0 tl.full([1], 0, tl.int64) tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + (4 * x1 + x0), tmp4 & xmask, eviction_policy= 'evict_last', other=0.0) tmp6 = tmp0 >= tmp3 tl.full([1], 8, tl.int64) tmp9 = tl.load(in_ptr1 + (4 * x1 + (-4 + x0)), tmp6 & xmask, eviction_policy='evict_last', other=0.0) tmp10 = tl.where(tmp4, tmp5, tmp9) tl.store(out_ptr0 + x2, tmp10, xmask) @triton.jit def triton_poi_fused_add_mul_rsub_sigmoid_tanh_2(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp4 = tl.load(in_ptr1 + x0, xmask) tmp6 = tl.load(in_ptr2 + x0, xmask) tmp1 = tl.sigmoid(tmp0) tmp2 = 1.0 tmp3 = tmp2 - tmp1 tmp5 = tmp3 * tmp4 tmp7 = tmp1 * tmp6 tmp8 = tmp5 + tmp7 tmp9 = libdevice.tanh(tmp8) tl.store(out_ptr0 + x0, tmp9, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9) = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, 4), (4, 1)) assert_size_stride(primals_3, (4, 4), (4, 1)) assert_size_stride(primals_4, (4, 12), (12, 1)) assert_size_stride(primals_5, (4,), (1,)) assert_size_stride(primals_6, (4, 4), (4, 1)) assert_size_stride(primals_7, (4,), (1,)) assert_size_stride(primals_8, (4, 8), (8, 1)) assert_size_stride(primals_9, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 12), (12, 1), torch.float32) get_raw_stream(0) triton_poi_fused_cat_0[grid(48)](primals_1, primals_2, primals_3, buf0, 48, XBLOCK=64, num_warps=1, num_stages=1) buf1 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_5, buf0, reinterpret_tensor(primals_4, (12, 4), (1, 12), 0), alpha=1, beta=1, out=buf1) del primals_4 del primals_5 buf2 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_7, primals_3, reinterpret_tensor( primals_6, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf2) del primals_6 del primals_7 buf3 = empty_strided_cuda((4, 8), (8, 1), torch.float32) triton_poi_fused_cat_1[grid(32)](primals_1, primals_2, buf3, 32, XBLOCK=32, num_warps=1, num_stages=1) del primals_1 del primals_2 buf4 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_9, buf3, reinterpret_tensor(primals_8, (8, 4), (1, 8), 0), alpha=1, beta=1, out=buf4) del primals_8 del primals_9 buf5 = empty_strided_cuda((4, 4), (4, 1), torch.float32) triton_poi_fused_add_mul_rsub_sigmoid_tanh_2[grid(16)](buf1, buf4, buf2, buf5, 16, XBLOCK=16, num_warps=1, num_stages=1) return buf5, primals_3, buf0, buf1, buf2, buf3, buf4, buf5 class ContextGate(nn.Module): """ Context gate is a decoder module that takes as input the previous word embedding, the current decoder state and the attention state, and produces a gate. The gate can be used to select the input from the target side context (decoder state), from the source context (attention state) or both. """ def __init__(self, embeddings_size, decoder_size, attention_size, output_size): super(ContextGate, self).__init__() input_size = embeddings_size + decoder_size + attention_size self.gate = nn.Linear(input_size, output_size, bias=True) self.sig = nn.Sigmoid() self.source_proj = nn.Linear(attention_size, output_size) self.target_proj = nn.Linear(embeddings_size + decoder_size, output_size) def forward(self, prev_emb, dec_state, attn_state): input_tensor = torch.cat((prev_emb, dec_state, attn_state), dim=1) z = self.sig(self.gate(input_tensor)) proj_source = self.source_proj(attn_state) proj_target = self.target_proj(torch.cat((prev_emb, dec_state), dim=1)) return z, proj_source, proj_target class BothContextGateNew(nn.Module): """Apply the context gate to both contexts""" def __init__(self, embeddings_size, decoder_size, attention_size, output_size): super(BothContextGateNew, self).__init__() self.context_gate = ContextGate(embeddings_size, decoder_size, attention_size, output_size) self.tanh = nn.Tanh() def forward(self, input_0, input_1, input_2): primals_4 = self.context_gate.gate.weight primals_5 = self.context_gate.gate.bias primals_1 = self.context_gate.source_proj.weight primals_7 = self.context_gate.source_proj.bias primals_8 = self.context_gate.target_proj.weight primals_9 = self.context_gate.target_proj.bias primals_2 = input_0 primals_3 = input_1 primals_6 = input_2 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9]) return output[0]	ESCM-summarization/ESCM-summary-evaluation	BothContextGate	false	9,117	[ "MIT" ]	3780b51f0ed44cbbea3f163a871d875f1e5e9393	https://github.com/ESCM-summarization/ESCM-summary-evaluation/tree/3780b51f0ed44cbbea3f163a871d875f1e5e9393
SourceContextGate	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/nc/cnc6a3vkphurm472zdavmn3qnff4lmaezxs63jlllw2kks2e62a4.py # Topologically Sorted Source Nodes: [input_tensor], Original ATen: [aten.cat] # Source node to ATen node mapping: # input_tensor => cat # Graph fragment: # %cat : [num_users=2] = call_function[target=torch.ops.aten.cat.default](args = ([%primals_1, %primals_2, %primals_3], 1), kwargs = {}) triton_poi_fused_cat_0 = async_compile.triton('triton_poi_fused_cat_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_cat_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 3, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_cat_0(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 48 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 12 x1 = (xindex // 12) x2 = xindex tmp0 = x0 tmp1 = tl.full([1], 0, tl.int64) tmp2 = tmp0 >= tmp1 tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + ((4x1) + x0), tmp4 & xmask, eviction_policy='evict_last', other=0.0) tmp6 = tmp0 >= tmp3 tmp7 = tl.full([1], 8, tl.int64) tmp8 = tmp0 < tmp7 tmp9 = tmp6 & tmp8 tmp10 = tl.load(in_ptr1 + ((4x1) + ((-4) + x0)), tmp9 & xmask, eviction_policy='evict_last', other=0.0) tmp11 = tmp0 >= tmp7 tmp12 = tl.full([1], 12, tl.int64) tmp13 = tmp0 < tmp12 tmp14 = tl.load(in_ptr2 + ((4x1) + ((-8) + x0)), tmp11 & xmask, eviction_policy='evict_last', other=0.0) tmp15 = tl.where(tmp9, tmp10, tmp14) tmp16 = tl.where(tmp4, tmp5, tmp15) tl.store(out_ptr0 + (x2), tmp16, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/as/castj5utepsqaf7nmxz7ydwohxvblspgu7zqqkf5geoow2xnjdtg.py # Topologically Sorted Source Nodes: [cat_1], Original ATen: [aten.cat] # Source node to ATen node mapping: # cat_1 => cat_1 # Graph fragment: # %cat_1 : [num_users=2] = call_function[target=torch.ops.aten.cat.default](args = ([%primals_1, %primals_2], 1), kwargs = {}) triton_poi_fused_cat_1 = async_compile.triton('triton_poi_fused_cat_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[32], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_cat_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_cat_1(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 32 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 8 x1 = (xindex // 8) x2 = xindex tmp0 = x0 tmp1 = tl.full([1], 0, tl.int64) tmp2 = tmp0 >= tmp1 tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + ((4x1) + x0), tmp4 & xmask, eviction_policy='evict_last', other=0.0) tmp6 = tmp0 >= tmp3 tmp7 = tl.full([1], 8, tl.int64) tmp8 = tmp0 < tmp7 tmp9 = tl.load(in_ptr1 + ((4x1) + ((-4) + x0)), tmp6 & xmask, eviction_policy='evict_last', other=0.0) tmp10 = tl.where(tmp4, tmp5, tmp9) tl.store(out_ptr0 + (x2), tmp10, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/6s/c6s456zdtwmlik5mrlyh27gyo7fuehy7vzu5kdq6caawwt6hjyvr.py # Topologically Sorted Source Nodes: [z, mul, add, tanh], Original ATen: [aten.sigmoid, aten.mul, aten.add, aten.tanh] # Source node to ATen node mapping: # add => add # mul => mul # tanh => tanh # z => sigmoid # Graph fragment: # %sigmoid : [num_users=1] = call_function[target=torch.ops.aten.sigmoid.default](args = (%addmm,), kwargs = {}) # %add_tensor : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mm_default, %primals_9), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sigmoid, %addmm_1), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%add_tensor, %mul), kwargs = {}) # %tanh : [num_users=1] = call_function[target=torch.ops.aten.tanh.default](args = (%add,), kwargs = {}) triton_poi_fused_add_mul_sigmoid_tanh_2 = async_compile.triton('triton_poi_fused_add_mul_sigmoid_tanh_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_mul_sigmoid_tanh_2', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_mul_sigmoid_tanh_2(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr1 + (x2), xmask) tmp5 = tl.load(in_ptr2 + (x2), xmask) tmp2 = tmp0 + tmp1 tmp4 = tl.sigmoid(tmp3) tmp6 = tmp4 * tmp5 tmp7 = tmp2 + tmp6 tmp8 = libdevice.tanh(tmp7) tl.store(in_out_ptr0 + (x2), tmp8, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, 4), (4, 1)) assert_size_stride(primals_3, (4, 4), (4, 1)) assert_size_stride(primals_4, (4, 12), (12, 1)) assert_size_stride(primals_5, (4, ), (1, )) assert_size_stride(primals_6, (4, 4), (4, 1)) assert_size_stride(primals_7, (4, ), (1, )) assert_size_stride(primals_8, (4, 8), (8, 1)) assert_size_stride(primals_9, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 12), (12, 1), torch.float32) # Topologically Sorted Source Nodes: [input_tensor], Original ATen: [aten.cat] stream0 = get_raw_stream(0) triton_poi_fused_cat_0.run(primals_1, primals_2, primals_3, buf0, 48, grid=grid(48), stream=stream0) buf1 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [linear], Original ATen: [aten.addmm] extern_kernels.addmm(primals_5, buf0, reinterpret_tensor(primals_4, (12, 4), (1, 12), 0), alpha=1, beta=1, out=buf1) del primals_4 del primals_5 buf2 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [proj_source], Original ATen: [aten.addmm] extern_kernels.addmm(primals_7, primals_3, reinterpret_tensor(primals_6, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf2) del primals_6 del primals_7 buf3 = empty_strided_cuda((4, 8), (8, 1), torch.float32) # Topologically Sorted Source Nodes: [cat_1], Original ATen: [aten.cat] triton_poi_fused_cat_1.run(primals_1, primals_2, buf3, 32, grid=grid(32), stream=stream0) del primals_1 del primals_2 buf4 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(buf3, reinterpret_tensor(primals_8, (8, 4), (1, 8), 0), out=buf4) del primals_8 buf5 = buf4; del buf4 # reuse # Topologically Sorted Source Nodes: [z, mul, add, tanh], Original ATen: [aten.sigmoid, aten.mul, aten.add, aten.tanh] triton_poi_fused_add_mul_sigmoid_tanh_2.run(buf5, primals_9, buf1, buf2, 16, grid=grid(16), stream=stream0) del primals_9 return (buf5, primals_3, buf0, buf1, buf2, buf3, buf5, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 12), (12, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((4, 8), (8, 1), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.cuda import torch.distributed class ContextGate(nn.Module): """ Context gate is a decoder module that takes as input the previous word embedding, the current decoder state and the attention state, and produces a gate. The gate can be used to select the input from the target side context (decoder state), from the source context (attention state) or both. """ def __init__(self, embeddings_size, decoder_size, attention_size, output_size): super(ContextGate, self).__init__() input_size = embeddings_size + decoder_size + attention_size self.gate = nn.Linear(input_size, output_size, bias=True) self.sig = nn.Sigmoid() self.source_proj = nn.Linear(attention_size, output_size) self.target_proj = nn.Linear(embeddings_size + decoder_size, output_size) def forward(self, prev_emb, dec_state, attn_state): input_tensor = torch.cat((prev_emb, dec_state, attn_state), dim=1) z = self.sig(self.gate(input_tensor)) proj_source = self.source_proj(attn_state) proj_target = self.target_proj(torch.cat((prev_emb, dec_state), dim=1)) return z, proj_source, proj_target class SourceContextGate(nn.Module): """Apply the context gate only to the source context""" def __init__(self, embeddings_size, decoder_size, attention_size, output_size): super(SourceContextGate, self).__init__() self.context_gate = ContextGate(embeddings_size, decoder_size, attention_size, output_size) self.tanh = nn.Tanh() def forward(self, prev_emb, dec_state, attn_state): z, source, target = self.context_gate(prev_emb, dec_state, attn_state) return self.tanh(target + z * source) def get_inputs(): return [torch.rand([4, 4]), torch.rand([4, 4]), torch.rand([4, 4])] def get_init_inputs(): return [[], {'embeddings_size': 4, 'decoder_size': 4, 'attention_size': 4, 'output_size': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import libdevice import torch.nn as nn import torch.cuda import torch.distributed assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_cat_0(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 48 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 12 x1 = xindex // 12 x2 = xindex tmp0 = x0 tl.full([1], 0, tl.int64) tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + (4 * x1 + x0), tmp4 & xmask, eviction_policy= 'evict_last', other=0.0) tmp6 = tmp0 >= tmp3 tmp7 = tl.full([1], 8, tl.int64) tmp8 = tmp0 < tmp7 tmp9 = tmp6 & tmp8 tmp10 = tl.load(in_ptr1 + (4 * x1 + (-4 + x0)), tmp9 & xmask, eviction_policy='evict_last', other=0.0) tmp11 = tmp0 >= tmp7 tl.full([1], 12, tl.int64) tmp14 = tl.load(in_ptr2 + (4 * x1 + (-8 + x0)), tmp11 & xmask, eviction_policy='evict_last', other=0.0) tmp15 = tl.where(tmp9, tmp10, tmp14) tmp16 = tl.where(tmp4, tmp5, tmp15) tl.store(out_ptr0 + x2, tmp16, xmask) @triton.jit def triton_poi_fused_cat_1(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 32 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 8 x1 = xindex // 8 x2 = xindex tmp0 = x0 tl.full([1], 0, tl.int64) tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + (4 * x1 + x0), tmp4 & xmask, eviction_policy= 'evict_last', other=0.0) tmp6 = tmp0 >= tmp3 tl.full([1], 8, tl.int64) tmp9 = tl.load(in_ptr1 + (4 * x1 + (-4 + x0)), tmp6 & xmask, eviction_policy='evict_last', other=0.0) tmp10 = tl.where(tmp4, tmp5, tmp9) tl.store(out_ptr0 + x2, tmp10, xmask) @triton.jit def triton_poi_fused_add_mul_sigmoid_tanh_2(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr1 + x2, xmask) tmp5 = tl.load(in_ptr2 + x2, xmask) tmp2 = tmp0 + tmp1 tmp4 = tl.sigmoid(tmp3) tmp6 = tmp4 * tmp5 tmp7 = tmp2 + tmp6 tmp8 = libdevice.tanh(tmp7) tl.store(in_out_ptr0 + x2, tmp8, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9) = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, 4), (4, 1)) assert_size_stride(primals_3, (4, 4), (4, 1)) assert_size_stride(primals_4, (4, 12), (12, 1)) assert_size_stride(primals_5, (4,), (1,)) assert_size_stride(primals_6, (4, 4), (4, 1)) assert_size_stride(primals_7, (4,), (1,)) assert_size_stride(primals_8, (4, 8), (8, 1)) assert_size_stride(primals_9, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 12), (12, 1), torch.float32) get_raw_stream(0) triton_poi_fused_cat_0[grid(48)](primals_1, primals_2, primals_3, buf0, 48, XBLOCK=64, num_warps=1, num_stages=1) buf1 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_5, buf0, reinterpret_tensor(primals_4, (12, 4), (1, 12), 0), alpha=1, beta=1, out=buf1) del primals_4 del primals_5 buf2 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_7, primals_3, reinterpret_tensor( primals_6, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf2) del primals_6 del primals_7 buf3 = empty_strided_cuda((4, 8), (8, 1), torch.float32) triton_poi_fused_cat_1[grid(32)](primals_1, primals_2, buf3, 32, XBLOCK=32, num_warps=1, num_stages=1) del primals_1 del primals_2 buf4 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.mm(buf3, reinterpret_tensor(primals_8, (8, 4), (1, 8 ), 0), out=buf4) del primals_8 buf5 = buf4 del buf4 triton_poi_fused_add_mul_sigmoid_tanh_2[grid(16)](buf5, primals_9, buf1, buf2, 16, XBLOCK=16, num_warps=1, num_stages=1) del primals_9 return buf5, primals_3, buf0, buf1, buf2, buf3, buf5 class ContextGate(nn.Module): """ Context gate is a decoder module that takes as input the previous word embedding, the current decoder state and the attention state, and produces a gate. The gate can be used to select the input from the target side context (decoder state), from the source context (attention state) or both. """ def __init__(self, embeddings_size, decoder_size, attention_size, output_size): super(ContextGate, self).__init__() input_size = embeddings_size + decoder_size + attention_size self.gate = nn.Linear(input_size, output_size, bias=True) self.sig = nn.Sigmoid() self.source_proj = nn.Linear(attention_size, output_size) self.target_proj = nn.Linear(embeddings_size + decoder_size, output_size) def forward(self, prev_emb, dec_state, attn_state): input_tensor = torch.cat((prev_emb, dec_state, attn_state), dim=1) z = self.sig(self.gate(input_tensor)) proj_source = self.source_proj(attn_state) proj_target = self.target_proj(torch.cat((prev_emb, dec_state), dim=1)) return z, proj_source, proj_target class SourceContextGateNew(nn.Module): """Apply the context gate only to the source context""" def __init__(self, embeddings_size, decoder_size, attention_size, output_size): super(SourceContextGateNew, self).__init__() self.context_gate = ContextGate(embeddings_size, decoder_size, attention_size, output_size) self.tanh = nn.Tanh() def forward(self, input_0, input_1, input_2): primals_4 = self.context_gate.gate.weight primals_5 = self.context_gate.gate.bias primals_1 = self.context_gate.source_proj.weight primals_7 = self.context_gate.source_proj.bias primals_8 = self.context_gate.target_proj.weight primals_9 = self.context_gate.target_proj.bias primals_2 = input_0 primals_3 = input_1 primals_6 = input_2 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9]) return output[0]	ESCM-summarization/ESCM-summary-evaluation	SourceContextGate	false	9,118	[ "MIT" ]	3780b51f0ed44cbbea3f163a871d875f1e5e9393	https://github.com/ESCM-summarization/ESCM-summary-evaluation/tree/3780b51f0ed44cbbea3f163a871d875f1e5e9393
TargetContextGate	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/nc/cnc6a3vkphurm472zdavmn3qnff4lmaezxs63jlllw2kks2e62a4.py # Topologically Sorted Source Nodes: [input_tensor], Original ATen: [aten.cat] # Source node to ATen node mapping: # input_tensor => cat # Graph fragment: # %cat : [num_users=2] = call_function[target=torch.ops.aten.cat.default](args = ([%primals_1, %primals_2, %primals_3], 1), kwargs = {}) triton_poi_fused_cat_0 = async_compile.triton('triton_poi_fused_cat_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_cat_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 3, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_cat_0(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 48 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 12 x1 = (xindex // 12) x2 = xindex tmp0 = x0 tmp1 = tl.full([1], 0, tl.int64) tmp2 = tmp0 >= tmp1 tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + ((4x1) + x0), tmp4 & xmask, eviction_policy='evict_last', other=0.0) tmp6 = tmp0 >= tmp3 tmp7 = tl.full([1], 8, tl.int64) tmp8 = tmp0 < tmp7 tmp9 = tmp6 & tmp8 tmp10 = tl.load(in_ptr1 + ((4x1) + ((-4) + x0)), tmp9 & xmask, eviction_policy='evict_last', other=0.0) tmp11 = tmp0 >= tmp7 tmp12 = tl.full([1], 12, tl.int64) tmp13 = tmp0 < tmp12 tmp14 = tl.load(in_ptr2 + ((4x1) + ((-8) + x0)), tmp11 & xmask, eviction_policy='evict_last', other=0.0) tmp15 = tl.where(tmp9, tmp10, tmp14) tmp16 = tl.where(tmp4, tmp5, tmp15) tl.store(out_ptr0 + (x2), tmp16, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/as/castj5utepsqaf7nmxz7ydwohxvblspgu7zqqkf5geoow2xnjdtg.py # Topologically Sorted Source Nodes: [cat_1], Original ATen: [aten.cat] # Source node to ATen node mapping: # cat_1 => cat_1 # Graph fragment: # %cat_1 : [num_users=2] = call_function[target=torch.ops.aten.cat.default](args = ([%primals_1, %primals_2], 1), kwargs = {}) triton_poi_fused_cat_1 = async_compile.triton('triton_poi_fused_cat_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[32], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_cat_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_cat_1(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 32 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 8 x1 = (xindex // 8) x2 = xindex tmp0 = x0 tmp1 = tl.full([1], 0, tl.int64) tmp2 = tmp0 >= tmp1 tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + ((4x1) + x0), tmp4 & xmask, eviction_policy='evict_last', other=0.0) tmp6 = tmp0 >= tmp3 tmp7 = tl.full([1], 8, tl.int64) tmp8 = tmp0 < tmp7 tmp9 = tl.load(in_ptr1 + ((4x1) + ((-4) + x0)), tmp6 & xmask, eviction_policy='evict_last', other=0.0) tmp10 = tl.where(tmp4, tmp5, tmp9) tl.store(out_ptr0 + (x2), tmp10, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/7l/c7lf5woemwxcoeo376uvq4tswpw24vydykzmrhtxemqtbvcbg3gw.py # Topologically Sorted Source Nodes: [z, mul, add, tanh], Original ATen: [aten.sigmoid, aten.mul, aten.add, aten.tanh] # Source node to ATen node mapping: # add => add # mul => mul # tanh => tanh # z => sigmoid # Graph fragment: # %sigmoid : [num_users=1] = call_function[target=torch.ops.aten.sigmoid.default](args = (%addmm,), kwargs = {}) # %add_tensor : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mm_default, %primals_7), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sigmoid, %addmm_2), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul, %add_tensor), kwargs = {}) # %tanh : [num_users=1] = call_function[target=torch.ops.aten.tanh.default](args = (%add,), kwargs = {}) triton_poi_fused_add_mul_sigmoid_tanh_2 = async_compile.triton('triton_poi_fused_add_mul_sigmoid_tanh_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_mul_sigmoid_tanh_2', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_mul_sigmoid_tanh_2(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp2 = tl.load(in_ptr1 + (x2), xmask) tmp4 = tl.load(in_out_ptr0 + (x2), xmask) tmp5 = tl.load(in_ptr2 + (x0), xmask, eviction_policy='evict_last') tmp1 = tl.sigmoid(tmp0) tmp3 = tmp1 * tmp2 tmp6 = tmp4 + tmp5 tmp7 = tmp3 + tmp6 tmp8 = libdevice.tanh(tmp7) tl.store(in_out_ptr0 + (x2), tmp8, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, 4), (4, 1)) assert_size_stride(primals_3, (4, 4), (4, 1)) assert_size_stride(primals_4, (4, 12), (12, 1)) assert_size_stride(primals_5, (4, ), (1, )) assert_size_stride(primals_6, (4, 4), (4, 1)) assert_size_stride(primals_7, (4, ), (1, )) assert_size_stride(primals_8, (4, 8), (8, 1)) assert_size_stride(primals_9, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 12), (12, 1), torch.float32) # Topologically Sorted Source Nodes: [input_tensor], Original ATen: [aten.cat] stream0 = get_raw_stream(0) triton_poi_fused_cat_0.run(primals_1, primals_2, primals_3, buf0, 48, grid=grid(48), stream=stream0) buf1 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [linear], Original ATen: [aten.addmm] extern_kernels.addmm(primals_5, buf0, reinterpret_tensor(primals_4, (12, 4), (1, 12), 0), alpha=1, beta=1, out=buf1) del primals_4 del primals_5 buf2 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(primals_3, reinterpret_tensor(primals_6, (4, 4), (1, 4), 0), out=buf2) del primals_6 buf3 = empty_strided_cuda((4, 8), (8, 1), torch.float32) # Topologically Sorted Source Nodes: [cat_1], Original ATen: [aten.cat] triton_poi_fused_cat_1.run(primals_1, primals_2, buf3, 32, grid=grid(32), stream=stream0) del primals_1 del primals_2 buf4 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [proj_target], Original ATen: [aten.addmm] extern_kernels.addmm(primals_9, buf3, reinterpret_tensor(primals_8, (8, 4), (1, 8), 0), alpha=1, beta=1, out=buf4) del primals_8 del primals_9 buf5 = buf2; del buf2 # reuse # Topologically Sorted Source Nodes: [z, mul, add, tanh], Original ATen: [aten.sigmoid, aten.mul, aten.add, aten.tanh] triton_poi_fused_add_mul_sigmoid_tanh_2.run(buf5, buf1, buf4, primals_7, 16, grid=grid(16), stream=stream0) del primals_7 return (buf5, primals_3, buf0, buf1, buf3, buf4, buf5, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 12), (12, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((4, 8), (8, 1), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.cuda import torch.distributed class ContextGate(nn.Module): """ Context gate is a decoder module that takes as input the previous word embedding, the current decoder state and the attention state, and produces a gate. The gate can be used to select the input from the target side context (decoder state), from the source context (attention state) or both. """ def __init__(self, embeddings_size, decoder_size, attention_size, output_size): super(ContextGate, self).__init__() input_size = embeddings_size + decoder_size + attention_size self.gate = nn.Linear(input_size, output_size, bias=True) self.sig = nn.Sigmoid() self.source_proj = nn.Linear(attention_size, output_size) self.target_proj = nn.Linear(embeddings_size + decoder_size, output_size) def forward(self, prev_emb, dec_state, attn_state): input_tensor = torch.cat((prev_emb, dec_state, attn_state), dim=1) z = self.sig(self.gate(input_tensor)) proj_source = self.source_proj(attn_state) proj_target = self.target_proj(torch.cat((prev_emb, dec_state), dim=1)) return z, proj_source, proj_target class TargetContextGate(nn.Module): """Apply the context gate only to the target context""" def __init__(self, embeddings_size, decoder_size, attention_size, output_size): super(TargetContextGate, self).__init__() self.context_gate = ContextGate(embeddings_size, decoder_size, attention_size, output_size) self.tanh = nn.Tanh() def forward(self, prev_emb, dec_state, attn_state): z, source, target = self.context_gate(prev_emb, dec_state, attn_state) return self.tanh(z * target + source) def get_inputs(): return [torch.rand([4, 4]), torch.rand([4, 4]), torch.rand([4, 4])] def get_init_inputs(): return [[], {'embeddings_size': 4, 'decoder_size': 4, 'attention_size': 4, 'output_size': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import libdevice import torch.nn as nn import torch.cuda import torch.distributed assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_cat_0(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 48 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 12 x1 = xindex // 12 x2 = xindex tmp0 = x0 tl.full([1], 0, tl.int64) tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + (4 * x1 + x0), tmp4 & xmask, eviction_policy= 'evict_last', other=0.0) tmp6 = tmp0 >= tmp3 tmp7 = tl.full([1], 8, tl.int64) tmp8 = tmp0 < tmp7 tmp9 = tmp6 & tmp8 tmp10 = tl.load(in_ptr1 + (4 * x1 + (-4 + x0)), tmp9 & xmask, eviction_policy='evict_last', other=0.0) tmp11 = tmp0 >= tmp7 tl.full([1], 12, tl.int64) tmp14 = tl.load(in_ptr2 + (4 * x1 + (-8 + x0)), tmp11 & xmask, eviction_policy='evict_last', other=0.0) tmp15 = tl.where(tmp9, tmp10, tmp14) tmp16 = tl.where(tmp4, tmp5, tmp15) tl.store(out_ptr0 + x2, tmp16, xmask) @triton.jit def triton_poi_fused_cat_1(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 32 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 8 x1 = xindex // 8 x2 = xindex tmp0 = x0 tl.full([1], 0, tl.int64) tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + (4 * x1 + x0), tmp4 & xmask, eviction_policy= 'evict_last', other=0.0) tmp6 = tmp0 >= tmp3 tl.full([1], 8, tl.int64) tmp9 = tl.load(in_ptr1 + (4 * x1 + (-4 + x0)), tmp6 & xmask, eviction_policy='evict_last', other=0.0) tmp10 = tl.where(tmp4, tmp5, tmp9) tl.store(out_ptr0 + x2, tmp10, xmask) @triton.jit def triton_poi_fused_add_mul_sigmoid_tanh_2(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp2 = tl.load(in_ptr1 + x2, xmask) tmp4 = tl.load(in_out_ptr0 + x2, xmask) tmp5 = tl.load(in_ptr2 + x0, xmask, eviction_policy='evict_last') tmp1 = tl.sigmoid(tmp0) tmp3 = tmp1 * tmp2 tmp6 = tmp4 + tmp5 tmp7 = tmp3 + tmp6 tmp8 = libdevice.tanh(tmp7) tl.store(in_out_ptr0 + x2, tmp8, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9) = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, 4), (4, 1)) assert_size_stride(primals_3, (4, 4), (4, 1)) assert_size_stride(primals_4, (4, 12), (12, 1)) assert_size_stride(primals_5, (4,), (1,)) assert_size_stride(primals_6, (4, 4), (4, 1)) assert_size_stride(primals_7, (4,), (1,)) assert_size_stride(primals_8, (4, 8), (8, 1)) assert_size_stride(primals_9, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 12), (12, 1), torch.float32) get_raw_stream(0) triton_poi_fused_cat_0[grid(48)](primals_1, primals_2, primals_3, buf0, 48, XBLOCK=64, num_warps=1, num_stages=1) buf1 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_5, buf0, reinterpret_tensor(primals_4, (12, 4), (1, 12), 0), alpha=1, beta=1, out=buf1) del primals_4 del primals_5 buf2 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.mm(primals_3, reinterpret_tensor(primals_6, (4, 4), (1, 4), 0), out=buf2) del primals_6 buf3 = empty_strided_cuda((4, 8), (8, 1), torch.float32) triton_poi_fused_cat_1[grid(32)](primals_1, primals_2, buf3, 32, XBLOCK=32, num_warps=1, num_stages=1) del primals_1 del primals_2 buf4 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_9, buf3, reinterpret_tensor(primals_8, (8, 4), (1, 8), 0), alpha=1, beta=1, out=buf4) del primals_8 del primals_9 buf5 = buf2 del buf2 triton_poi_fused_add_mul_sigmoid_tanh_2[grid(16)](buf5, buf1, buf4, primals_7, 16, XBLOCK=16, num_warps=1, num_stages=1) del primals_7 return buf5, primals_3, buf0, buf1, buf3, buf4, buf5 class ContextGate(nn.Module): """ Context gate is a decoder module that takes as input the previous word embedding, the current decoder state and the attention state, and produces a gate. The gate can be used to select the input from the target side context (decoder state), from the source context (attention state) or both. """ def __init__(self, embeddings_size, decoder_size, attention_size, output_size): super(ContextGate, self).__init__() input_size = embeddings_size + decoder_size + attention_size self.gate = nn.Linear(input_size, output_size, bias=True) self.sig = nn.Sigmoid() self.source_proj = nn.Linear(attention_size, output_size) self.target_proj = nn.Linear(embeddings_size + decoder_size, output_size) def forward(self, prev_emb, dec_state, attn_state): input_tensor = torch.cat((prev_emb, dec_state, attn_state), dim=1) z = self.sig(self.gate(input_tensor)) proj_source = self.source_proj(attn_state) proj_target = self.target_proj(torch.cat((prev_emb, dec_state), dim=1)) return z, proj_source, proj_target class TargetContextGateNew(nn.Module): """Apply the context gate only to the target context""" def __init__(self, embeddings_size, decoder_size, attention_size, output_size): super(TargetContextGateNew, self).__init__() self.context_gate = ContextGate(embeddings_size, decoder_size, attention_size, output_size) self.tanh = nn.Tanh() def forward(self, input_0, input_1, input_2): primals_4 = self.context_gate.gate.weight primals_5 = self.context_gate.gate.bias primals_1 = self.context_gate.source_proj.weight primals_7 = self.context_gate.source_proj.bias primals_8 = self.context_gate.target_proj.weight primals_9 = self.context_gate.target_proj.bias primals_2 = input_0 primals_3 = input_1 primals_6 = input_2 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9]) return output[0]	ESCM-summarization/ESCM-summary-evaluation	TargetContextGate	false	9,119	[ "MIT" ]	3780b51f0ed44cbbea3f163a871d875f1e5e9393	https://github.com/ESCM-summarization/ESCM-summary-evaluation/tree/3780b51f0ed44cbbea3f163a871d875f1e5e9393
GlobalAttention	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/r6/cr6neze6yovkog6kjrk5k2db63h47ozkojywfys6karxe7dlumrz.py # Topologically Sorted Source Nodes: [align_vectors], Original ATen: [aten._softmax] # Source node to ATen node mapping: # align_vectors => amax, exp, sub # Graph fragment: # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%view, [-1], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%view, %amax), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub,), kwargs = {}) triton_poi_fused__softmax_0 = async_compile.triton('triton_poi_fused__softmax_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (4x1), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + (4x1)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + (4x1)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + (4x1)), xmask, eviction_policy='evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + (x2), tmp9, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/kj/ckjtlefzavjukjsytvkak6ek26zmzexpcbnlwelx4k5kascjxlf3.py # Topologically Sorted Source Nodes: [align_vectors], Original ATen: [aten._softmax] # Source node to ATen node mapping: # align_vectors => div, sum_1 # Graph fragment: # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp, [-1], True), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp, %sum_1), kwargs = {}) triton_poi_fused__softmax_1 = async_compile.triton('triton_poi_fused__softmax_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_1(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (4x1), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + (4x1)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + (4x1)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + (4x1)), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + (x2), tmp8, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/ip/cip3p4ibqio6uu76ccsemd7wjusq5ptlow3dt2zxzouyuz2sqywf.py # Topologically Sorted Source Nodes: [cat], Original ATen: [aten.cat] # Source node to ATen node mapping: # cat => cat # Graph fragment: # %cat : [num_users=1] = call_function[target=torch.ops.aten.cat.default](args = ([%bmm_1, %primals_1], 2), kwargs = {}) triton_poi_fused_cat_2 = async_compile.triton('triton_poi_fused_cat_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[128], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_cat_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_cat_2(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 128 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 8 x1 = (xindex // 8) x2 = xindex tmp0 = x0 tmp1 = tl.full([1], 0, tl.int64) tmp2 = tmp0 >= tmp1 tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + ((4x1) + x0), tmp4 & xmask, eviction_policy='evict_last', other=0.0) tmp6 = tmp0 >= tmp3 tmp7 = tl.full([1], 8, tl.int64) tmp8 = tmp0 < tmp7 tmp9 = tl.load(in_ptr1 + ((4x1) + ((-4) + x0)), tmp6 & xmask, eviction_policy='evict_last', other=0.0) tmp10 = tl.where(tmp4, tmp5, tmp9) tl.store(out_ptr0 + (x2), tmp10, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/f5/cf5pnuv5il7avsmzck3quom7r6zvcfuulsdwpzlv2epzfmcgqgwb.py # Topologically Sorted Source Nodes: [attn_h_2], Original ATen: [aten.clone] # Source node to ATen node mapping: # attn_h_2 => clone # Graph fragment: # %clone : [num_users=1] = call_function[target=torch.ops.aten.clone.default](args = (%permute_2,), kwargs = {memory_format: torch.contiguous_format}) triton_poi_fused_clone_3 = async_compile.triton('triton_poi_fused_clone_3', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_clone_3', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_clone_3(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = (xindex // 4) % 4 x2 = (xindex // 16) x3 = xindex tmp0 = tl.load(in_ptr0 + (x0 + (4x2) + (16x1)), xmask) tmp1 = libdevice.tanh(tmp0) tl.store(out_ptr0 + (x3), tmp1, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/u4/cu4fypgfipklcxtitafatnyqdaatx5tws6qfndqotcy4qivcph6d.py # Topologically Sorted Source Nodes: [align_vectors_2], Original ATen: [aten.clone] # Source node to ATen node mapping: # align_vectors_2 => clone_1 # Graph fragment: # %clone_1 : [num_users=1] = call_function[target=torch.ops.aten.clone.default](args = (%permute_3,), kwargs = {memory_format: torch.contiguous_format}) triton_poi_fused_clone_4 = async_compile.triton('triton_poi_fused_clone_4', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_clone_4', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_clone_4(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = (xindex // 4) % 4 x2 = (xindex // 16) x3 = xindex tmp0 = tl.load(in_ptr0 + (x0 + (4x2) + (16x1)), xmask) tl.store(out_ptr0 + (x3), tmp0, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_2, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_3, (4, 8), (8, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [align], Original ATen: [aten.bmm] extern_kernels.bmm(primals_1, reinterpret_tensor(primals_2, (4, 4, 4), (16, 1, 4), 0), out=buf0) buf1 = empty_strided_cuda((16, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [align_vectors], Original ATen: [aten._softmax] stream0 = get_raw_stream(0) triton_poi_fused__softmax_0.run(buf0, buf1, 64, grid=grid(64), stream=stream0) buf2 = reinterpret_tensor(buf0, (16, 4), (4, 1), 0); del buf0 # reuse # Topologically Sorted Source Nodes: [align_vectors], Original ATen: [aten._softmax] triton_poi_fused__softmax_1.run(buf1, buf2, 64, grid=grid(64), stream=stream0) buf3 = reinterpret_tensor(buf1, (4, 4, 4), (16, 4, 1), 0); del buf1 # reuse # Topologically Sorted Source Nodes: [c], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf2, (4, 4, 4), (16, 4, 1), 0), primals_2, out=buf3) del primals_2 buf4 = empty_strided_cuda((4, 4, 8), (32, 8, 1), torch.float32) # Topologically Sorted Source Nodes: [cat], Original ATen: [aten.cat] triton_poi_fused_cat_2.run(buf3, primals_1, buf4, 128, grid=grid(128), stream=stream0) del primals_1 buf5 = reinterpret_tensor(buf3, (16, 4), (4, 1), 0); del buf3 # reuse # Topologically Sorted Source Nodes: [linear], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(buf4, (16, 8), (8, 1), 0), reinterpret_tensor(primals_3, (8, 4), (1, 8), 0), out=buf5) del primals_3 buf6 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [attn_h_2], Original ATen: [aten.clone] triton_poi_fused_clone_3.run(buf5, buf6, 64, grid=grid(64), stream=stream0) buf7 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [align_vectors_2], Original ATen: [aten.clone] triton_poi_fused_clone_4.run(buf2, buf7, 64, grid=grid(64), stream=stream0) del buf2 return (buf6, buf7, reinterpret_tensor(buf4, (16, 8), (8, 1), 0), buf5, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 8), (8, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.nn.functional as F import torch.cuda import torch.distributed def aeq(args): """ Assert all arguments have the same value """ arguments = (arg for arg in args) first = next(arguments) assert all(arg == first for arg in arguments ), 'Not all arguments have the same value: ' + str(args) def sequence_mask(lengths, max_len=None): """ Creates a boolean mask from sequence lengths. """ batch_size = lengths.numel() max_len = max_len or lengths.max() return torch.arange(0, max_len).type_as(lengths).repeat(batch_size, 1).lt( lengths.unsqueeze(1)) class GlobalAttention(nn.Module): """ Global attention takes a matrix and a query vector. It then computes a parameterized convex combination of the matrix based on the input query. Constructs a unit mapping a query `q` of size `dim` and a source matrix `H` of size `n x dim`, to an output of size `dim`. .. mermaid:: graph BT A[Query] subgraph RNN C[H 1] D[H 2] E[H N] end F[Attn] G[Output] A --> F C --> F D --> F E --> F C -.-> G D -.-> G E -.-> G F --> G All models compute the output as :math:`c = sum_{j=1}^{SeqLength} a_j H_j` where :math:`a_j` is the softmax of a score function. Then then apply a projection layer to [q, c]. However they differ on how they compute the attention score. Luong Attention (dot, general): * dot: :math:`score(H_j,q) = H_j^T q` * general: :math:`score(H_j, q) = H_j^T W_a q` * Bahdanau Attention (mlp): * :math:`score(H_j, q) = v_a^T tanh(W_a q + U_a h_j)` Args: dim (int): dimensionality of query and key coverage (bool): use coverage term attn_type (str): type of attention to use, options [dot,general,mlp] """ def __init__(self, dim, coverage=False, attn_type='dot', attn_func= 'softmax'): super(GlobalAttention, self).__init__() self.dim = dim assert attn_type in ['dot', 'general', 'mlp' ], 'Please select a valid attention type.' self.attn_type = attn_type assert attn_func in ['softmax', 'sparsemax' ], 'Please select a valid attention function.' self.attn_func = attn_func if self.attn_type == 'general': self.linear_in = nn.Linear(dim, dim, bias=False) elif self.attn_type == 'mlp': self.linear_context = nn.Linear(dim, dim, bias=False) self.linear_query = nn.Linear(dim, dim, bias=True) self.v = nn.Linear(dim, 1, bias=False) out_bias = self.attn_type == 'mlp' self.linear_out = nn.Linear(dim * 2, dim, bias=out_bias) if coverage: self.linear_cover = nn.Linear(1, dim, bias=False) def score(self, h_t, h_s): """ Args: h_t (`FloatTensor`): sequence of queries `[batch x tgt_len x dim]` h_s (`FloatTensor`): sequence of sources `[batch x src_len x dim]` Returns: :obj:`FloatTensor`: raw attention scores (unnormalized) for each src index `[batch x tgt_len x src_len]` """ src_batch, src_len, src_dim = h_s.size() tgt_batch, tgt_len, tgt_dim = h_t.size() aeq(src_batch, tgt_batch) aeq(src_dim, tgt_dim) aeq(self.dim, src_dim) if self.attn_type in ['general', 'dot']: if self.attn_type == 'general': h_t_ = h_t.view(tgt_batch * tgt_len, tgt_dim) h_t_ = self.linear_in(h_t_) h_t = h_t_.view(tgt_batch, tgt_len, tgt_dim) h_s_ = h_s.transpose(1, 2) return torch.bmm(h_t, h_s_) else: dim = self.dim wq = self.linear_query(h_t.view(-1, dim)) wq = wq.view(tgt_batch, tgt_len, 1, dim) wq = wq.expand(tgt_batch, tgt_len, src_len, dim) uh = self.linear_context(h_s.contiguous().view(-1, dim)) uh = uh.view(src_batch, 1, src_len, dim) uh = uh.expand(src_batch, tgt_len, src_len, dim) wquh = torch.tanh(wq + uh) return self.v(wquh.view(-1, dim)).view(tgt_batch, tgt_len, src_len) def forward(self, source, memory_bank, memory_lengths=None, coverage=None): """ Args: source (`FloatTensor`): query vectors `[batch x tgt_len x dim]` memory_bank (`FloatTensor`): source vectors `[batch x src_len x dim]` memory_lengths (`LongTensor`): the source context lengths `[batch]` coverage (`FloatTensor`): None (not supported yet) Returns: (`FloatTensor`, `FloatTensor`): * Computed vector `[tgt_len x batch x dim]` * Attention distribtutions for each query `[tgt_len x batch x src_len]` """ if source.dim() == 2: one_step = True source = source.unsqueeze(1) else: one_step = False batch, source_l, dim = memory_bank.size() batch_, target_l, dim_ = source.size() aeq(batch, batch_) aeq(dim, dim_) aeq(self.dim, dim) if coverage is not None: batch_, source_l_ = coverage.size() aeq(batch, batch_) aeq(source_l, source_l_) if coverage is not None: cover = coverage.view(-1).unsqueeze(1) memory_bank += self.linear_cover(cover).view_as(memory_bank) memory_bank = torch.tanh(memory_bank) align = self.score(source, memory_bank) if memory_lengths is not None: mask = sequence_mask(memory_lengths, max_len=align.size(-1)) mask = mask.unsqueeze(1) align.masked_fill_(1 - mask, -float('inf')) if self.attn_func == 'softmax': align_vectors = F.softmax(align.view(batch * target_l, source_l ), -1) else: align_vectors = sparsemax(align.view(batch * target_l, source_l ), -1) align_vectors = align_vectors.view(batch, target_l, source_l) c = torch.bmm(align_vectors, memory_bank) concat_c = torch.cat([c, source], 2).view(batch * target_l, dim * 2) attn_h = self.linear_out(concat_c).view(batch, target_l, dim) if self.attn_type in ['general', 'dot']: attn_h = torch.tanh(attn_h) if one_step: attn_h = attn_h.squeeze(1) align_vectors = align_vectors.squeeze(1) batch_, dim_ = attn_h.size() aeq(batch, batch_) aeq(dim, dim_) batch_, source_l_ = align_vectors.size() aeq(batch, batch_) aeq(source_l, source_l_) else: attn_h = attn_h.transpose(0, 1).contiguous() align_vectors = align_vectors.transpose(0, 1).contiguous() target_l_, batch_, dim_ = attn_h.size() aeq(target_l, target_l_) aeq(batch, batch_) aeq(dim, dim_) target_l_, batch_, source_l_ = align_vectors.size() aeq(target_l, target_l_) aeq(batch, batch_) aeq(source_l, source_l_) return attn_h, align_vectors def get_inputs(): return [torch.rand([4, 4, 4]), torch.rand([4, 4, 4])] def get_init_inputs(): return [[], {'dim': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math import torch.nn as nn import torch.cuda import torch.distributed assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused__softmax_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + 4 * x1, xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + 4 * x1), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + 4 * x1), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + 4 * x1), xmask, eviction_policy='evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + x2, tmp9, xmask) @triton.jit def triton_poi_fused__softmax_1(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + 4 * x1, xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + 4 * x1), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + 4 * x1), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + 4 * x1), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + x2, tmp8, xmask) @triton.jit def triton_poi_fused_cat_2(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 128 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 8 x1 = xindex // 8 x2 = xindex tmp0 = x0 tl.full([1], 0, tl.int64) tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + (4 * x1 + x0), tmp4 & xmask, eviction_policy= 'evict_last', other=0.0) tmp6 = tmp0 >= tmp3 tl.full([1], 8, tl.int64) tmp9 = tl.load(in_ptr1 + (4 * x1 + (-4 + x0)), tmp6 & xmask, eviction_policy='evict_last', other=0.0) tmp10 = tl.where(tmp4, tmp5, tmp9) tl.store(out_ptr0 + x2, tmp10, xmask) @triton.jit def triton_poi_fused_clone_3(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = xindex // 4 % 4 x2 = xindex // 16 x3 = xindex tmp0 = tl.load(in_ptr0 + (x0 + 4 * x2 + 16 * x1), xmask) tmp1 = libdevice.tanh(tmp0) tl.store(out_ptr0 + x3, tmp1, xmask) @triton.jit def triton_poi_fused_clone_4(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = xindex // 4 % 4 x2 = xindex // 16 x3 = xindex tmp0 = tl.load(in_ptr0 + (x0 + 4 * x2 + 16 * x1), xmask) tl.store(out_ptr0 + x3, tmp0, xmask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_2, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_3, (4, 8), (8, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) extern_kernels.bmm(primals_1, reinterpret_tensor(primals_2, (4, 4, 4), (16, 1, 4), 0), out=buf0) buf1 = empty_strided_cuda((16, 4), (4, 1), torch.float32) get_raw_stream(0) triton_poi_fused__softmax_0[grid(64)](buf0, buf1, 64, XBLOCK=64, num_warps=1, num_stages=1) buf2 = reinterpret_tensor(buf0, (16, 4), (4, 1), 0) del buf0 triton_poi_fused__softmax_1[grid(64)](buf1, buf2, 64, XBLOCK=64, num_warps=1, num_stages=1) buf3 = reinterpret_tensor(buf1, (4, 4, 4), (16, 4, 1), 0) del buf1 extern_kernels.bmm(reinterpret_tensor(buf2, (4, 4, 4), (16, 4, 1), 0), primals_2, out=buf3) del primals_2 buf4 = empty_strided_cuda((4, 4, 8), (32, 8, 1), torch.float32) triton_poi_fused_cat_2[grid(128)](buf3, primals_1, buf4, 128, XBLOCK=128, num_warps=4, num_stages=1) del primals_1 buf5 = reinterpret_tensor(buf3, (16, 4), (4, 1), 0) del buf3 extern_kernels.mm(reinterpret_tensor(buf4, (16, 8), (8, 1), 0), reinterpret_tensor(primals_3, (8, 4), (1, 8), 0), out=buf5) del primals_3 buf6 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) triton_poi_fused_clone_3[grid(64)](buf5, buf6, 64, XBLOCK=64, num_warps=1, num_stages=1) buf7 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) triton_poi_fused_clone_4[grid(64)](buf2, buf7, 64, XBLOCK=64, num_warps=1, num_stages=1) del buf2 return buf6, buf7, reinterpret_tensor(buf4, (16, 8), (8, 1), 0), buf5 def aeq(args): """ Assert all arguments have the same value """ arguments = (arg for arg in args) first = next(arguments) assert all(arg == first for arg in arguments ), 'Not all arguments have the same value: ' + str(args) def sequence_mask(lengths, max_len=None): """ Creates a boolean mask from sequence lengths. """ batch_size = lengths.numel() max_len = max_len or lengths.max() return torch.arange(0, max_len).type_as(lengths).repeat(batch_size, 1).lt( lengths.unsqueeze(1)) class GlobalAttentionNew(nn.Module): """ Global attention takes a matrix and a query vector. It then computes a parameterized convex combination of the matrix based on the input query. Constructs a unit mapping a query `q` of size `dim` and a source matrix `H` of size `n x dim`, to an output of size `dim`. .. mermaid:: graph BT A[Query] subgraph RNN C[H 1] D[H 2] E[H N] end F[Attn] G[Output] A --> F C --> F D --> F E --> F C -.-> G D -.-> G E -.-> G F --> G All models compute the output as :math:`c = sum_{j=1}^{SeqLength} a_j H_j` where :math:`a_j` is the softmax of a score function. Then then apply a projection layer to [q, c]. However they differ on how they compute the attention score. Luong Attention (dot, general): * dot: :math:`score(H_j,q) = H_j^T q` * general: :math:`score(H_j, q) = H_j^T W_a q` * Bahdanau Attention (mlp): * :math:`score(H_j, q) = v_a^T tanh(W_a q + U_a h_j)` Args: dim (int): dimensionality of query and key coverage (bool): use coverage term attn_type (str): type of attention to use, options [dot,general,mlp] """ def __init__(self, dim, coverage=False, attn_type='dot', attn_func= 'softmax'): super(GlobalAttentionNew, self).__init__() self.dim = dim assert attn_type in ['dot', 'general', 'mlp' ], 'Please select a valid attention type.' self.attn_type = attn_type assert attn_func in ['softmax', 'sparsemax' ], 'Please select a valid attention function.' self.attn_func = attn_func if self.attn_type == 'general': self.linear_in = nn.Linear(dim, dim, bias=False) elif self.attn_type == 'mlp': self.linear_context = nn.Linear(dim, dim, bias=False) self.linear_query = nn.Linear(dim, dim, bias=True) self.v = nn.Linear(dim, 1, bias=False) out_bias = self.attn_type == 'mlp' self.linear_out = nn.Linear(dim * 2, dim, bias=out_bias) if coverage: self.linear_cover = nn.Linear(1, dim, bias=False) def score(self, h_t, h_s): """ Args: h_t (`FloatTensor`): sequence of queries `[batch x tgt_len x dim]` h_s (`FloatTensor`): sequence of sources `[batch x src_len x dim]` Returns: :obj:`FloatTensor`: raw attention scores (unnormalized) for each src index `[batch x tgt_len x src_len]` """ src_batch, src_len, src_dim = h_s.size() tgt_batch, tgt_len, tgt_dim = h_t.size() aeq(src_batch, tgt_batch) aeq(src_dim, tgt_dim) aeq(self.dim, src_dim) if self.attn_type in ['general', 'dot']: if self.attn_type == 'general': h_t_ = h_t.view(tgt_batch * tgt_len, tgt_dim) h_t_ = self.linear_in(h_t_) h_t = h_t_.view(tgt_batch, tgt_len, tgt_dim) h_s_ = h_s.transpose(1, 2) return torch.bmm(h_t, h_s_) else: dim = self.dim wq = self.linear_query(h_t.view(-1, dim)) wq = wq.view(tgt_batch, tgt_len, 1, dim) wq = wq.expand(tgt_batch, tgt_len, src_len, dim) uh = self.linear_context(h_s.contiguous().view(-1, dim)) uh = uh.view(src_batch, 1, src_len, dim) uh = uh.expand(src_batch, tgt_len, src_len, dim) wquh = torch.tanh(wq + uh) return self.v(wquh.view(-1, dim)).view(tgt_batch, tgt_len, src_len) def forward(self, input_0, input_1): primals_3 = self.linear_out.weight primals_1 = input_0 primals_2 = input_1 output = call([primals_1, primals_2, primals_3]) return output[0], output[1]	ESCM-summarization/ESCM-summary-evaluation	GlobalAttention	false	9,120	[ "MIT" ]	3780b51f0ed44cbbea3f163a871d875f1e5e9393	https://github.com/ESCM-summarization/ESCM-summary-evaluation/tree/3780b51f0ed44cbbea3f163a871d875f1e5e9393
ContextGate	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/nc/cnc6a3vkphurm472zdavmn3qnff4lmaezxs63jlllw2kks2e62a4.py # Topologically Sorted Source Nodes: [input_tensor], Original ATen: [aten.cat] # Source node to ATen node mapping: # input_tensor => cat # Graph fragment: # %cat : [num_users=2] = call_function[target=torch.ops.aten.cat.default](args = ([%primals_1, %primals_2, %primals_3], 1), kwargs = {}) triton_poi_fused_cat_0 = async_compile.triton('triton_poi_fused_cat_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_cat_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 3, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_cat_0(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 48 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 12 x1 = (xindex // 12) x2 = xindex tmp0 = x0 tmp1 = tl.full([1], 0, tl.int64) tmp2 = tmp0 >= tmp1 tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + ((4x1) + x0), tmp4 & xmask, eviction_policy='evict_last', other=0.0) tmp6 = tmp0 >= tmp3 tmp7 = tl.full([1], 8, tl.int64) tmp8 = tmp0 < tmp7 tmp9 = tmp6 & tmp8 tmp10 = tl.load(in_ptr1 + ((4x1) + ((-4) + x0)), tmp9 & xmask, eviction_policy='evict_last', other=0.0) tmp11 = tmp0 >= tmp7 tmp12 = tl.full([1], 12, tl.int64) tmp13 = tmp0 < tmp12 tmp14 = tl.load(in_ptr2 + ((4x1) + ((-8) + x0)), tmp11 & xmask, eviction_policy='evict_last', other=0.0) tmp15 = tl.where(tmp9, tmp10, tmp14) tmp16 = tl.where(tmp4, tmp5, tmp15) tl.store(out_ptr0 + (x2), tmp16, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/x7/cx7xziu4lpr42gzh3hblzhyhhr2agimvsluvyrub77hqbwauajw5.py # Topologically Sorted Source Nodes: [z], Original ATen: [aten.sigmoid] # Source node to ATen node mapping: # z => sigmoid # Graph fragment: # %add_tensor : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mm_default, %primals_5), kwargs = {}) # %sigmoid : [num_users=1] = call_function[target=torch.ops.aten.sigmoid.default](args = (%add_tensor,), kwargs = {}) triton_poi_fused_sigmoid_1 = async_compile.triton('triton_poi_fused_sigmoid_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_sigmoid_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_sigmoid_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.sigmoid(tmp2) tl.store(in_out_ptr0 + (x2), tmp3, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/zd/czdeq2ohbgubcyeps2ukquvfhigxtyega57i24ketclusfgmyedi.py # Topologically Sorted Source Nodes: [cat_1], Original ATen: [aten.cat] # Source node to ATen node mapping: # cat_1 => cat_1 # Graph fragment: # %cat_1 : [num_users=2] = call_function[target=torch.ops.aten.cat.default](args = ([%primals_1, %primals_2], 1), kwargs = {}) triton_poi_fused_cat_2 = async_compile.triton('triton_poi_fused_cat_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[32], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_cat_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_cat_2(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 32 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 8 x1 = (xindex // 8) x2 = xindex tmp0 = x0 tmp1 = tl.full([1], 0, tl.int64) tmp2 = tmp0 >= tmp1 tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + ((4x1) + x0), tmp4 & xmask, eviction_policy='evict_last', other=0.0) tmp6 = tmp0 >= tmp3 tmp7 = tl.full([1], 8, tl.int64) tmp8 = tmp0 < tmp7 tmp9 = tl.load(in_ptr1 + ((4x1) + ((-4) + x0)), tmp6 & xmask, eviction_policy='evict_last', other=0.0) tmp10 = tl.where(tmp4, tmp5, tmp9) tl.store(out_ptr0 + (x2), tmp10, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, 4), (4, 1)) assert_size_stride(primals_3, (4, 4), (4, 1)) assert_size_stride(primals_4, (4, 12), (12, 1)) assert_size_stride(primals_5, (4, ), (1, )) assert_size_stride(primals_6, (4, 4), (4, 1)) assert_size_stride(primals_7, (4, ), (1, )) assert_size_stride(primals_8, (4, 8), (8, 1)) assert_size_stride(primals_9, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 12), (12, 1), torch.float32) # Topologically Sorted Source Nodes: [input_tensor], Original ATen: [aten.cat] stream0 = get_raw_stream(0) triton_poi_fused_cat_0.run(primals_1, primals_2, primals_3, buf0, 48, grid=grid(48), stream=stream0) buf1 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(buf0, reinterpret_tensor(primals_4, (12, 4), (1, 12), 0), out=buf1) del primals_4 buf2 = buf1; del buf1 # reuse # Topologically Sorted Source Nodes: [z], Original ATen: [aten.sigmoid] triton_poi_fused_sigmoid_1.run(buf2, primals_5, 16, grid=grid(16), stream=stream0) del primals_5 buf3 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [proj_source], Original ATen: [aten.addmm] extern_kernels.addmm(primals_7, primals_3, reinterpret_tensor(primals_6, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf3) del primals_6 del primals_7 buf4 = empty_strided_cuda((4, 8), (8, 1), torch.float32) # Topologically Sorted Source Nodes: [cat_1], Original ATen: [aten.cat] triton_poi_fused_cat_2.run(primals_1, primals_2, buf4, 32, grid=grid(32), stream=stream0) del primals_1 del primals_2 buf5 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [proj_target], Original ATen: [aten.addmm] extern_kernels.addmm(primals_9, buf4, reinterpret_tensor(primals_8, (8, 4), (1, 8), 0), alpha=1, beta=1, out=buf5) del primals_8 del primals_9 return (buf2, buf3, buf5, primals_3, buf0, buf2, buf4, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 12), (12, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((4, 8), (8, 1), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.cuda import torch.distributed class ContextGate(nn.Module): """ Context gate is a decoder module that takes as input the previous word embedding, the current decoder state and the attention state, and produces a gate. The gate can be used to select the input from the target side context (decoder state), from the source context (attention state) or both. """ def __init__(self, embeddings_size, decoder_size, attention_size, output_size): super(ContextGate, self).__init__() input_size = embeddings_size + decoder_size + attention_size self.gate = nn.Linear(input_size, output_size, bias=True) self.sig = nn.Sigmoid() self.source_proj = nn.Linear(attention_size, output_size) self.target_proj = nn.Linear(embeddings_size + decoder_size, output_size) def forward(self, prev_emb, dec_state, attn_state): input_tensor = torch.cat((prev_emb, dec_state, attn_state), dim=1) z = self.sig(self.gate(input_tensor)) proj_source = self.source_proj(attn_state) proj_target = self.target_proj(torch.cat((prev_emb, dec_state), dim=1)) return z, proj_source, proj_target def get_inputs(): return [torch.rand([4, 4]), torch.rand([4, 4]), torch.rand([4, 4])] def get_init_inputs(): return [[], {'embeddings_size': 4, 'decoder_size': 4, 'attention_size': 4, 'output_size': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.nn as nn import torch.cuda import torch.distributed assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_cat_0(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 48 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 12 x1 = xindex // 12 x2 = xindex tmp0 = x0 tl.full([1], 0, tl.int64) tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + (4 * x1 + x0), tmp4 & xmask, eviction_policy= 'evict_last', other=0.0) tmp6 = tmp0 >= tmp3 tmp7 = tl.full([1], 8, tl.int64) tmp8 = tmp0 < tmp7 tmp9 = tmp6 & tmp8 tmp10 = tl.load(in_ptr1 + (4 * x1 + (-4 + x0)), tmp9 & xmask, eviction_policy='evict_last', other=0.0) tmp11 = tmp0 >= tmp7 tl.full([1], 12, tl.int64) tmp14 = tl.load(in_ptr2 + (4 * x1 + (-8 + x0)), tmp11 & xmask, eviction_policy='evict_last', other=0.0) tmp15 = tl.where(tmp9, tmp10, tmp14) tmp16 = tl.where(tmp4, tmp5, tmp15) tl.store(out_ptr0 + x2, tmp16, xmask) @triton.jit def triton_poi_fused_sigmoid_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.sigmoid(tmp2) tl.store(in_out_ptr0 + x2, tmp3, xmask) @triton.jit def triton_poi_fused_cat_2(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 32 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 8 x1 = xindex // 8 x2 = xindex tmp0 = x0 tl.full([1], 0, tl.int64) tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + (4 * x1 + x0), tmp4 & xmask, eviction_policy= 'evict_last', other=0.0) tmp6 = tmp0 >= tmp3 tl.full([1], 8, tl.int64) tmp9 = tl.load(in_ptr1 + (4 * x1 + (-4 + x0)), tmp6 & xmask, eviction_policy='evict_last', other=0.0) tmp10 = tl.where(tmp4, tmp5, tmp9) tl.store(out_ptr0 + x2, tmp10, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9) = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, 4), (4, 1)) assert_size_stride(primals_3, (4, 4), (4, 1)) assert_size_stride(primals_4, (4, 12), (12, 1)) assert_size_stride(primals_5, (4,), (1,)) assert_size_stride(primals_6, (4, 4), (4, 1)) assert_size_stride(primals_7, (4,), (1,)) assert_size_stride(primals_8, (4, 8), (8, 1)) assert_size_stride(primals_9, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 12), (12, 1), torch.float32) get_raw_stream(0) triton_poi_fused_cat_0[grid(48)](primals_1, primals_2, primals_3, buf0, 48, XBLOCK=64, num_warps=1, num_stages=1) buf1 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.mm(buf0, reinterpret_tensor(primals_4, (12, 4), (1, 12), 0), out=buf1) del primals_4 buf2 = buf1 del buf1 triton_poi_fused_sigmoid_1[grid(16)](buf2, primals_5, 16, XBLOCK=16, num_warps=1, num_stages=1) del primals_5 buf3 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_7, primals_3, reinterpret_tensor( primals_6, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf3) del primals_6 del primals_7 buf4 = empty_strided_cuda((4, 8), (8, 1), torch.float32) triton_poi_fused_cat_2[grid(32)](primals_1, primals_2, buf4, 32, XBLOCK=32, num_warps=1, num_stages=1) del primals_1 del primals_2 buf5 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_9, buf4, reinterpret_tensor(primals_8, (8, 4), (1, 8), 0), alpha=1, beta=1, out=buf5) del primals_8 del primals_9 return buf2, buf3, buf5, primals_3, buf0, buf2, buf4 class ContextGateNew(nn.Module): """ Context gate is a decoder module that takes as input the previous word embedding, the current decoder state and the attention state, and produces a gate. The gate can be used to select the input from the target side context (decoder state), from the source context (attention state) or both. """ def __init__(self, embeddings_size, decoder_size, attention_size, output_size): super(ContextGateNew, self).__init__() input_size = embeddings_size + decoder_size + attention_size self.gate = nn.Linear(input_size, output_size, bias=True) self.sig = nn.Sigmoid() self.source_proj = nn.Linear(attention_size, output_size) self.target_proj = nn.Linear(embeddings_size + decoder_size, output_size) def forward(self, input_0, input_1, input_2): primals_4 = self.gate.weight primals_5 = self.gate.bias primals_1 = self.source_proj.weight primals_7 = self.source_proj.bias primals_8 = self.target_proj.weight primals_9 = self.target_proj.bias primals_2 = input_0 primals_3 = input_1 primals_6 = input_2 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9]) return output[0], output[1], output[2]	ESCM-summarization/ESCM-summary-evaluation	ContextGate	false	9,121	[ "MIT" ]	3780b51f0ed44cbbea3f163a871d875f1e5e9393	https://github.com/ESCM-summarization/ESCM-summary-evaluation/tree/3780b51f0ed44cbbea3f163a871d875f1e5e9393
MaxPoolBlock	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/tw/ctwvjh3sk72wvpvfe6qttbbnuv7go7omfvhyfpoli3k62h5jasad.py # Topologically Sorted Source Nodes: [img_out], Original ATen: [aten.max_pool2d_with_indices] # Source node to ATen node mapping: # img_out => getitem # Graph fragment: # %getitem : [num_users=1] = call_function[target=operator.getitem](args = (%_low_memory_max_pool2d_with_offsets, 0), kwargs = {}) triton_poi_fused_max_pool2d_with_indices_0 = async_compile.triton('triton_poi_fused_max_pool2d_with_indices_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_max_pool2d_with_indices_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_max_pool2d_with_indices_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 2 x1 = (xindex // 2) x2 = xindex tmp0 = tl.load(in_ptr0 + ((2x0) + (8x1)), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + (2x0) + (8x1)), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (4 + (2x0) + (8x1)), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (5 + (2x0) + (8x1)), xmask, eviction_policy='evict_last') tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp6 = triton_helpers.maximum(tmp5, tmp4) tl.store(out_ptr0 + (x2), tmp6, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 2, 2), (16, 4, 2, 1), torch.float32) # Topologically Sorted Source Nodes: [img_out], Original ATen: [aten.max_pool2d_with_indices] stream0 = get_raw_stream(0) triton_poi_fused_max_pool2d_with_indices_0.run(arg0_1, buf0, 64, grid=grid(64), stream=stream0) del arg0_1 return (buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class Block(nn.Module): def __init__(self): """Initialisation for a lower-level DeepLPF conv block :returns: N/A :rtype: N/A """ super(Block, self).__init__() def conv3x3(self, in_channels, out_channels, stride=1): """Represents a convolution of shape 3x3 :param in_channels: number of input channels :param out_channels: number of output channels :param stride: the convolution stride :returns: convolution function with the specified parameterisation :rtype: function """ return nn.Conv2d(in_channels, out_channels, kernel_size=3, stride= stride, padding=1, bias=True) class MaxPoolBlock(Block, nn.Module): def __init__(self): """Initialise function for the max pooling block :returns: N/A :rtype: N/A """ super(Block, self).__init__() self.max_pool = nn.MaxPool2d(kernel_size=2, stride=2) def forward(self, x): """ Forward function for the max pooling block :param x: Tensor representing the input BxCxWxH, where B is the batch size, C is the number of channels, W and H are the width and image height :returns: Tensor representing the output of the block :rtype: Tensor """ img_out = self.max_pool(x) return img_out def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_max_pool2d_with_indices_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 2 x1 = xindex // 2 x2 = xindex tmp0 = tl.load(in_ptr0 + (2 * x0 + 8 * x1), xmask, eviction_policy= 'evict_last') tmp1 = tl.load(in_ptr0 + (1 + 2 * x0 + 8 * x1), xmask, eviction_policy= 'evict_last') tmp3 = tl.load(in_ptr0 + (4 + 2 * x0 + 8 * x1), xmask, eviction_policy= 'evict_last') tmp5 = tl.load(in_ptr0 + (5 + 2 * x0 + 8 * x1), xmask, eviction_policy= 'evict_last') tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp6 = triton_helpers.maximum(tmp5, tmp4) tl.store(out_ptr0 + x2, tmp6, xmask) def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 2, 2), (16, 4, 2, 1), torch.float32) get_raw_stream(0) triton_poi_fused_max_pool2d_with_indices_0[grid(64)](arg0_1, buf0, 64, XBLOCK=64, num_warps=1, num_stages=1) del arg0_1 return buf0, class Block(nn.Module): def __init__(self): """Initialisation for a lower-level DeepLPF conv block :returns: N/A :rtype: N/A """ super(Block, self).__init__() def conv3x3(self, in_channels, out_channels, stride=1): """Represents a convolution of shape 3x3 :param in_channels: number of input channels :param out_channels: number of output channels :param stride: the convolution stride :returns: convolution function with the specified parameterisation :rtype: function """ return nn.Conv2d(in_channels, out_channels, kernel_size=3, stride= stride, padding=1, bias=True) class MaxPoolBlockNew(Block, nn.Module): def __init__(self): """Initialise function for the max pooling block :returns: N/A :rtype: N/A """ super(Block, self).__init__() self.max_pool = nn.MaxPool2d(kernel_size=2, stride=2) def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	DevilMayNotCry/My_curl	MaxPoolBlock	false	9,122	[ "BSD-3-Clause" ]	a8f65a3e58cbdeefb4679aa2f0c3d9d800b67381	https://github.com/DevilMayNotCry/My_curl/tree/a8f65a3e58cbdeefb4679aa2f0c3d9d800b67381
GlobalPoolingBlock	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/l3/cl35tzbhrd24dhunkbb6gjs54aklpyr46oikqhoylcgmkcmhujil.py # Topologically Sorted Source Nodes: [out], Original ATen: [aten.mean] # Source node to ATen node mapping: # out => mean # Graph fragment: # %mean : [num_users=1] = call_function[target=torch.ops.aten.mean.dim](args = (%arg0_1, [-1, -2], True), kwargs = {}) triton_per_fused_mean_0 = async_compile.triton('triton_per_fused_mean_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[16, 16], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_mean_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 1, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_mean_0(in_out_ptr0, in_ptr0, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 16 rnumel = 16 RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) r1 = rindex x0 = xindex tmp0 = tl.load(in_ptr0 + (r1 + (16*x0)), xmask, other=0.0) tmp1 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp3 = tl.where(xmask, tmp1, 0) tmp4 = tl.sum(tmp3, 1)[:, None] tmp5 = 16.0 tmp6 = tmp4 / tmp5 tl.debug_barrier() tl.store(in_out_ptr0 + (x0), tmp6, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 16, 16), torch.float32) buf1 = reinterpret_tensor(buf0, (4, 4, 1, 1), (4, 1, 1, 1), 0); del buf0 # reuse # Topologically Sorted Source Nodes: [out], Original ATen: [aten.mean] stream0 = get_raw_stream(0) triton_per_fused_mean_0.run(buf1, arg0_1, 16, 16, grid=grid(16), stream=stream0) del arg0_1 return (buf1, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class Block(nn.Module): def __init__(self): """Initialisation for a lower-level DeepLPF conv block :returns: N/A :rtype: N/A """ super(Block, self).__init__() def conv3x3(self, in_channels, out_channels, stride=1): """Represents a convolution of shape 3x3 :param in_channels: number of input channels :param out_channels: number of output channels :param stride: the convolution stride :returns: convolution function with the specified parameterisation :rtype: function """ return nn.Conv2d(in_channels, out_channels, kernel_size=3, stride= stride, padding=1, bias=True) class GlobalPoolingBlock(Block, nn.Module): def __init__(self, receptive_field): """Implementation of the global pooling block. Takes the average over a 2D receptive field. :param receptive_field: :returns: N/A :rtype: N/A """ super(Block, self).__init__() self.avg_pool = nn.AdaptiveAvgPool2d(1) def forward(self, x): """Forward function for the high-level global pooling block :param x: Tensor of shape BxCxAxA :returns: Tensor of shape BxCx1x1, where B is the batch size :rtype: Tensor """ out = self.avg_pool(x) return out def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'receptive_field': 4}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_per_fused_mean_0(in_out_ptr0, in_ptr0, xnumel, rnumel, XBLOCK: tl.constexpr): xnumel = 16 RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] tl.full([XBLOCK, RBLOCK], True, tl.int1) r1 = rindex x0 = xindex tmp0 = tl.load(in_ptr0 + (r1 + 16 * x0), xmask, other=0.0) tmp1 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp3 = tl.where(xmask, tmp1, 0) tmp4 = tl.sum(tmp3, 1)[:, None] tmp5 = 16.0 tmp6 = tmp4 / tmp5 tl.debug_barrier() tl.store(in_out_ptr0 + x0, tmp6, xmask) def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 16, 16), torch.float32) buf1 = reinterpret_tensor(buf0, (4, 4, 1, 1), (4, 1, 1, 1), 0) del buf0 get_raw_stream(0) triton_per_fused_mean_0[grid(16)](buf1, arg0_1, 16, 16, XBLOCK=8, num_warps=2, num_stages=1) del arg0_1 return buf1, class Block(nn.Module): def __init__(self): """Initialisation for a lower-level DeepLPF conv block :returns: N/A :rtype: N/A """ super(Block, self).__init__() def conv3x3(self, in_channels, out_channels, stride=1): """Represents a convolution of shape 3x3 :param in_channels: number of input channels :param out_channels: number of output channels :param stride: the convolution stride :returns: convolution function with the specified parameterisation :rtype: function """ return nn.Conv2d(in_channels, out_channels, kernel_size=3, stride= stride, padding=1, bias=True) class GlobalPoolingBlockNew(Block, nn.Module): def __init__(self, receptive_field): """Implementation of the global pooling block. Takes the average over a 2D receptive field. :param receptive_field: :returns: N/A :rtype: N/A """ super(Block, self).__init__() self.avg_pool = nn.AdaptiveAvgPool2d(1) def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	DevilMayNotCry/My_curl	GlobalPoolingBlock	false	9,123	[ "BSD-3-Clause" ]	a8f65a3e58cbdeefb4679aa2f0c3d9d800b67381	https://github.com/DevilMayNotCry/My_curl/tree/a8f65a3e58cbdeefb4679aa2f0c3d9d800b67381
AddNorm	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/2z/c2zkvxx2bap6rkrvu5u2ypibpze2q2ydbjc6qyfqciinjgpzs57e.py # Topologically Sorted Source Nodes: [sigmoid, mul, skip, add, output], Original ATen: [aten.sigmoid, aten.mul, aten.add, aten.native_layer_norm] # Source node to ATen node mapping: # add => add # mul => mul # output => var_mean # sigmoid => sigmoid # skip => mul_1 # Graph fragment: # %sigmoid : [num_users=1] = call_function[target=torch.ops.aten.sigmoid.default](args = (%primals_1,), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%primals_2, %sigmoid), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul, 2.0), kwargs = {}) # %add : [num_users=2] = call_function[target=torch.ops.aten.add.Tensor](args = (%primals_3, %mul_1), kwargs = {}) # %var_mean : [num_users=2] = call_function[target=torch.ops.aten.var_mean.correction](args = (%add, [3]), kwargs = {correction: 0, keepdim: True}) triton_poi_fused_add_mul_native_layer_norm_sigmoid_0 = async_compile.triton('triton_poi_fused_add_mul_native_layer_norm_sigmoid_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_mul_native_layer_norm_sigmoid_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 12, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_mul_native_layer_norm_sigmoid_0(in_ptr0, in_ptr1, in_ptr2, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (4x0), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (4x0), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr2 + (0)) tmp3 = tl.broadcast_to(tmp2, [XBLOCK]) tmp9 = tl.load(in_ptr0 + (1 + (4x0)), xmask, eviction_policy='evict_last') tmp10 = tl.load(in_ptr1 + (1 + (4x0)), xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr2 + (1)) tmp12 = tl.broadcast_to(tmp11, [XBLOCK]) tmp18 = tl.load(in_ptr0 + (2 + (4x0)), xmask, eviction_policy='evict_last') tmp19 = tl.load(in_ptr1 + (2 + (4x0)), xmask, eviction_policy='evict_last') tmp20 = tl.load(in_ptr2 + (2)) tmp21 = tl.broadcast_to(tmp20, [XBLOCK]) tmp27 = tl.load(in_ptr0 + (3 + (4x0)), xmask, eviction_policy='evict_last') tmp28 = tl.load(in_ptr1 + (3 + (4x0)), xmask, eviction_policy='evict_last') tmp29 = tl.load(in_ptr2 + (3)) tmp30 = tl.broadcast_to(tmp29, [XBLOCK]) tmp4 = tl.sigmoid(tmp3) tmp5 = tmp1 * tmp4 tmp6 = 2.0 tmp7 = tmp5 * tmp6 tmp8 = tmp0 + tmp7 tmp13 = tl.sigmoid(tmp12) tmp14 = tmp10 * tmp13 tmp15 = tmp14 * tmp6 tmp16 = tmp9 + tmp15 tmp17 = tmp8 + tmp16 tmp22 = tl.sigmoid(tmp21) tmp23 = tmp19 * tmp22 tmp24 = tmp23 * tmp6 tmp25 = tmp18 + tmp24 tmp26 = tmp17 + tmp25 tmp31 = tl.sigmoid(tmp30) tmp32 = tmp28 * tmp31 tmp33 = tmp32 * tmp6 tmp34 = tmp27 + tmp33 tmp35 = tmp26 + tmp34 tmp36 = 4.0 tmp37 = tmp35 / tmp36 tmp38 = tmp8 - tmp37 tmp39 = tmp38 * tmp38 tmp40 = tmp16 - tmp37 tmp41 = tmp40 * tmp40 tmp42 = tmp39 + tmp41 tmp43 = tmp25 - tmp37 tmp44 = tmp43 * tmp43 tmp45 = tmp42 + tmp44 tmp46 = tmp34 - tmp37 tmp47 = tmp46 * tmp46 tmp48 = tmp45 + tmp47 tmp49 = tmp48 / tmp36 tl.store(out_ptr0 + (x0), tmp37, xmask) tl.store(out_ptr1 + (x0), tmp49, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/sj/csj2kjzhnbru45opn7vpbebkenbpwwfmi66xlyyx5mjua6j72k6i.py # Topologically Sorted Source Nodes: [sigmoid, mul, skip, add, output], Original ATen: [aten.sigmoid, aten.mul, aten.add, aten.native_layer_norm] # Source node to ATen node mapping: # add => add # mul => mul # output => add_1, add_2, mul_2, mul_3, rsqrt, sub # sigmoid => sigmoid # skip => mul_1 # Graph fragment: # %sigmoid : [num_users=1] = call_function[target=torch.ops.aten.sigmoid.default](args = (%primals_1,), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%primals_2, %sigmoid), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul, 2.0), kwargs = {}) # %add : [num_users=2] = call_function[target=torch.ops.aten.add.Tensor](args = (%primals_3, %mul_1), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%getitem, 1e-05), kwargs = {}) # %rsqrt : [num_users=1] = call_function[target=torch.ops.aten.rsqrt.default](args = (%add_1,), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%add, %getitem_1), kwargs = {}) # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub, %rsqrt), kwargs = {}) # %mul_3 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul_2, %primals_4), kwargs = {}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_3, %primals_5), kwargs = {}) triton_poi_fused_add_mul_native_layer_norm_sigmoid_1 = async_compile.triton('triton_poi_fused_add_mul_native_layer_norm_sigmoid_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'fp32', 6: 'fp32', 7: 'fp32', 8: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6, 7, 8), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_mul_native_layer_norm_sigmoid_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 7, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_mul_native_layer_norm_sigmoid_1(in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, in_ptr5, in_ptr6, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 x1 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr1 + (x2), xmask) tmp2 = tl.load(in_ptr2 + (x0), xmask, eviction_policy='evict_last') tmp8 = tl.load(in_ptr3 + (x1), xmask, eviction_policy='evict_last') tmp10 = tl.load(in_ptr4 + (x1), xmask, eviction_policy='evict_last') tmp15 = tl.load(in_ptr5 + (x0), xmask, eviction_policy='evict_last') tmp17 = tl.load(in_ptr6 + (x0), xmask, eviction_policy='evict_last') tmp3 = tl.sigmoid(tmp2) tmp4 = tmp1 * tmp3 tmp5 = 2.0 tmp6 = tmp4 * tmp5 tmp7 = tmp0 + tmp6 tmp9 = tmp7 - tmp8 tmp11 = 1e-05 tmp12 = tmp10 + tmp11 tmp13 = libdevice.rsqrt(tmp12) tmp14 = tmp9 * tmp13 tmp16 = tmp14 * tmp15 tmp18 = tmp16 + tmp17 tl.store(out_ptr0 + (x2), tmp18, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (4, ), (1, )) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, ), (1, )) assert_size_stride(primals_5, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 64), torch.float32) buf1 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 64), torch.float32) # Topologically Sorted Source Nodes: [sigmoid, mul, skip, add, output], Original ATen: [aten.sigmoid, aten.mul, aten.add, aten.native_layer_norm] stream0 = get_raw_stream(0) triton_poi_fused_add_mul_native_layer_norm_sigmoid_0.run(primals_3, primals_2, primals_1, buf0, buf1, 64, grid=grid(64), stream=stream0) buf2 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [sigmoid, mul, skip, add, output], Original ATen: [aten.sigmoid, aten.mul, aten.add, aten.native_layer_norm] triton_poi_fused_add_mul_native_layer_norm_sigmoid_1.run(primals_3, primals_2, primals_1, buf0, buf1, primals_4, primals_5, buf2, 256, grid=grid(256), stream=stream0) del buf0 del buf1 del primals_5 return (buf2, primals_1, primals_2, primals_3, primals_4, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn.functional as F import torch.nn as nn class TimeDistributedInterpolation(nn.Module): def __init__(self, output_size: 'int', batch_first: 'bool'=False, trainable: 'bool'=False): super().__init__() self.output_size = output_size self.batch_first = batch_first self.trainable = trainable if self.trainable: self.mask = nn.Parameter(torch.zeros(self.output_size, dtype= torch.float32)) self.gate = nn.Sigmoid() def interpolate(self, x): upsampled = F.interpolate(x.unsqueeze(1), self.output_size, mode= 'linear', align_corners=True).squeeze(1) if self.trainable: upsampled = upsampled * self.gate(self.mask.unsqueeze(0)) * 2.0 return upsampled def forward(self, x): if len(x.size()) <= 2: return self.interpolate(x) x_reshape = x.contiguous().view(-1, x.size(-1)) y = self.interpolate(x_reshape) if self.batch_first: y = y.contiguous().view(x.size(0), -1, y.size(-1)) else: y = y.view(-1, x.size(1), y.size(-1)) return y class AddNorm(nn.Module): def __init__(self, input_size: 'int', skip_size: 'int'=None, trainable_add: 'bool'=True): super().__init__() self.input_size = input_size self.trainable_add = trainable_add self.skip_size = skip_size or input_size if self.input_size != self.skip_size: self.resample = TimeDistributedInterpolation(self.input_size, batch_first=True, trainable=False) if self.trainable_add: self.mask = nn.Parameter(torch.zeros(self.input_size, dtype= torch.float)) self.gate = nn.Sigmoid() self.norm = nn.LayerNorm(self.input_size) def forward(self, x: 'torch.Tensor', skip: 'torch.Tensor'): if self.input_size != self.skip_size: skip = self.resample(skip) if self.trainable_add: skip = skip * self.gate(self.mask) * 2.0 output = self.norm(x + skip) return output def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'input_size': 4}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import libdevice import torch.nn.functional as F import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_add_mul_native_layer_norm_sigmoid_0(in_ptr0, in_ptr1, in_ptr2, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + 4 * x0, xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + 4 * x0, xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr2 + 0) tmp3 = tl.broadcast_to(tmp2, [XBLOCK]) tmp9 = tl.load(in_ptr0 + (1 + 4 * x0), xmask, eviction_policy='evict_last') tmp10 = tl.load(in_ptr1 + (1 + 4 * x0), xmask, eviction_policy='evict_last' ) tmp11 = tl.load(in_ptr2 + 1) tmp12 = tl.broadcast_to(tmp11, [XBLOCK]) tmp18 = tl.load(in_ptr0 + (2 + 4 * x0), xmask, eviction_policy='evict_last' ) tmp19 = tl.load(in_ptr1 + (2 + 4 * x0), xmask, eviction_policy='evict_last' ) tmp20 = tl.load(in_ptr2 + 2) tmp21 = tl.broadcast_to(tmp20, [XBLOCK]) tmp27 = tl.load(in_ptr0 + (3 + 4 * x0), xmask, eviction_policy='evict_last' ) tmp28 = tl.load(in_ptr1 + (3 + 4 * x0), xmask, eviction_policy='evict_last' ) tmp29 = tl.load(in_ptr2 + 3) tmp30 = tl.broadcast_to(tmp29, [XBLOCK]) tmp4 = tl.sigmoid(tmp3) tmp5 = tmp1 * tmp4 tmp6 = 2.0 tmp7 = tmp5 * tmp6 tmp8 = tmp0 + tmp7 tmp13 = tl.sigmoid(tmp12) tmp14 = tmp10 * tmp13 tmp15 = tmp14 * tmp6 tmp16 = tmp9 + tmp15 tmp17 = tmp8 + tmp16 tmp22 = tl.sigmoid(tmp21) tmp23 = tmp19 * tmp22 tmp24 = tmp23 * tmp6 tmp25 = tmp18 + tmp24 tmp26 = tmp17 + tmp25 tmp31 = tl.sigmoid(tmp30) tmp32 = tmp28 * tmp31 tmp33 = tmp32 * tmp6 tmp34 = tmp27 + tmp33 tmp35 = tmp26 + tmp34 tmp36 = 4.0 tmp37 = tmp35 / tmp36 tmp38 = tmp8 - tmp37 tmp39 = tmp38 * tmp38 tmp40 = tmp16 - tmp37 tmp41 = tmp40 * tmp40 tmp42 = tmp39 + tmp41 tmp43 = tmp25 - tmp37 tmp44 = tmp43 * tmp43 tmp45 = tmp42 + tmp44 tmp46 = tmp34 - tmp37 tmp47 = tmp46 * tmp46 tmp48 = tmp45 + tmp47 tmp49 = tmp48 / tmp36 tl.store(out_ptr0 + x0, tmp37, xmask) tl.store(out_ptr1 + x0, tmp49, xmask) @triton.jit def triton_poi_fused_add_mul_native_layer_norm_sigmoid_1(in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, in_ptr5, in_ptr6, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 x1 = xindex // 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr1 + x2, xmask) tmp2 = tl.load(in_ptr2 + x0, xmask, eviction_policy='evict_last') tmp8 = tl.load(in_ptr3 + x1, xmask, eviction_policy='evict_last') tmp10 = tl.load(in_ptr4 + x1, xmask, eviction_policy='evict_last') tmp15 = tl.load(in_ptr5 + x0, xmask, eviction_policy='evict_last') tmp17 = tl.load(in_ptr6 + x0, xmask, eviction_policy='evict_last') tmp3 = tl.sigmoid(tmp2) tmp4 = tmp1 * tmp3 tmp5 = 2.0 tmp6 = tmp4 * tmp5 tmp7 = tmp0 + tmp6 tmp9 = tmp7 - tmp8 tmp11 = 1e-05 tmp12 = tmp10 + tmp11 tmp13 = libdevice.rsqrt(tmp12) tmp14 = tmp9 * tmp13 tmp16 = tmp14 * tmp15 tmp18 = tmp16 + tmp17 tl.store(out_ptr0 + x2, tmp18, xmask) def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (4,), (1,)) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4,), (1,)) assert_size_stride(primals_5, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 64), torch.float32) buf1 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 64), torch.float32) get_raw_stream(0) triton_poi_fused_add_mul_native_layer_norm_sigmoid_0[grid(64)]( primals_3, primals_2, primals_1, buf0, buf1, 64, XBLOCK=64, num_warps=1, num_stages=1) buf2 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) triton_poi_fused_add_mul_native_layer_norm_sigmoid_1[grid(256)]( primals_3, primals_2, primals_1, buf0, buf1, primals_4, primals_5, buf2, 256, XBLOCK=256, num_warps=4, num_stages=1) del buf0 del buf1 del primals_5 return buf2, primals_1, primals_2, primals_3, primals_4 class TimeDistributedInterpolation(nn.Module): def __init__(self, output_size: 'int', batch_first: 'bool'=False, trainable: 'bool'=False): super().__init__() self.output_size = output_size self.batch_first = batch_first self.trainable = trainable if self.trainable: self.mask = nn.Parameter(torch.zeros(self.output_size, dtype= torch.float32)) self.gate = nn.Sigmoid() def interpolate(self, x): upsampled = F.interpolate(x.unsqueeze(1), self.output_size, mode= 'linear', align_corners=True).squeeze(1) if self.trainable: upsampled = upsampled * self.gate(self.mask.unsqueeze(0)) * 2.0 return upsampled def forward(self, x): if len(x.size()) <= 2: return self.interpolate(x) x_reshape = x.contiguous().view(-1, x.size(-1)) y = self.interpolate(x_reshape) if self.batch_first: y = y.contiguous().view(x.size(0), -1, y.size(-1)) else: y = y.view(-1, x.size(1), y.size(-1)) return y class AddNormNew(nn.Module): def __init__(self, input_size: 'int', skip_size: 'int'=None, trainable_add: 'bool'=True): super().__init__() self.input_size = input_size self.trainable_add = trainable_add self.skip_size = skip_size or input_size if self.input_size != self.skip_size: self.resample = TimeDistributedInterpolation(self.input_size, batch_first=True, trainable=False) if self.trainable_add: self.mask = nn.Parameter(torch.zeros(self.input_size, dtype= torch.float)) self.gate = nn.Sigmoid() self.norm = nn.LayerNorm(self.input_size) def forward(self, input_0, input_1): primals_1 = self.mask primals_4 = self.norm.weight primals_5 = self.norm.bias primals_2 = input_0 primals_3 = input_1 output = call([primals_1, primals_2, primals_3, primals_4, primals_5]) return output[0]	JakeForsey/pytorch-forecasting	AddNorm	false	9,124	[ "MIT" ]	e5291df3dd8f8d72ecd2b21869f69cebf9456028	https://github.com/JakeForsey/pytorch-forecasting/tree/e5291df3dd8f8d72ecd2b21869f69cebf9456028
h_swish	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/4n/c4n4t4ob46tjofubvbx7kuypv4fkq77j7kjunchukdfb6wpttdx6.py # Topologically Sorted Source Nodes: [add, hardtanh, truediv, mul], Original ATen: [aten.add, aten.hardtanh, aten.div, aten.mul] # Source node to ATen node mapping: # add => add # hardtanh => clamp_max, clamp_min # mul => mul # truediv => div # Graph fragment: # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%arg0_1, 3), kwargs = {}) # %clamp_min : [num_users=1] = call_function[target=torch.ops.aten.clamp_min.default](args = (%add, 0.0), kwargs = {}) # %clamp_max : [num_users=1] = call_function[target=torch.ops.aten.clamp_max.default](args = (%clamp_min, 6.0), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%clamp_max, 6), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%arg0_1, %div), kwargs = {}) triton_poi_fused_add_div_hardtanh_mul_0 = async_compile.triton('triton_poi_fused_add_div_hardtanh_mul_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_div_hardtanh_mul_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_div_hardtanh_mul_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = 3.0 tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = triton_helpers.maximum(tmp2, tmp3) tmp5 = 6.0 tmp6 = triton_helpers.minimum(tmp4, tmp5) tmp7 = 0.16666666666666666 tmp8 = tmp6 * tmp7 tmp9 = tmp0 * tmp8 tl.store(out_ptr0 + (x0), tmp9, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [add, hardtanh, truediv, mul], Original ATen: [aten.add, aten.hardtanh, aten.div, aten.mul] stream0 = get_raw_stream(0) triton_poi_fused_add_div_hardtanh_mul_0.run(arg0_1, buf0, 256, grid=grid(256), stream=stream0) del arg0_1 return (buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.utils.data import torch.nn as nn class h_sigmoid(nn.Module): def __init__(self, inplace=True): super(h_sigmoid, self).__init__() self.relu = nn.ReLU6(inplace=inplace) def forward(self, x): return self.relu(x + 3) / 6 class h_swish(nn.Module): def __init__(self, inplace=True): super(h_swish, self).__init__() self.sigmoid = h_sigmoid(inplace=inplace) def forward(self, x): return x * self.sigmoid(x) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers import torch.utils.data import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_add_div_hardtanh_mul_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = 3.0 tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = triton_helpers.maximum(tmp2, tmp3) tmp5 = 6.0 tmp6 = triton_helpers.minimum(tmp4, tmp5) tmp7 = 0.16666666666666666 tmp8 = tmp6 * tmp7 tmp9 = tmp0 * tmp8 tl.store(out_ptr0 + x0, tmp9, xmask) def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_add_div_hardtanh_mul_0[grid(256)](arg0_1, buf0, 256, XBLOCK=256, num_warps=4, num_stages=1) del arg0_1 return buf0, class h_sigmoid(nn.Module): def __init__(self, inplace=True): super(h_sigmoid, self).__init__() self.relu = nn.ReLU6(inplace=inplace) def forward(self, x): return self.relu(x + 3) / 6 class h_swishNew(nn.Module): def __init__(self, inplace=True): super(h_swishNew, self).__init__() self.sigmoid = h_sigmoid(inplace=inplace) def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	Ghaust/SSD	h_swish	false	9,125	[ "MIT" ]	2bf14a48795d20ad2177f622e84d62b3ff81183f	https://github.com/Ghaust/SSD/tree/2bf14a48795d20ad2177f622e84d62b3ff81183f
ClassificationModel	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/cb/ccbgymnr2fvk43axzcuowohjalipdfn2nc4qqvidfjzuqhtxsj6g.py # Unsorted Source Nodes: [], Original ATen: [] # Source node to ATen node mapping: triton_poi_fused_0 = async_compile.triton('triton_poi_fused_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[1024, 16], tile_hint=TileHint.SQUARE, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_0(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 1024 xnumel = 9 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = tl.full([XBLOCK, YBLOCK], True, tl.int1) xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 4 y1 = (yindex // 4) tmp0 = tl.load(in_ptr0 + (x2 + (9y3)), xmask, eviction_policy='evict_last') tl.store(out_ptr0 + (y0 + (4x2) + (36y1)), tmp0, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/j5/cj5nf2owtsdm2zwcezqxpyn63iwddjyadpotkhm2ua52inoqxdcl.py # Unsorted Source Nodes: [], Original ATen: [] # Source node to ATen node mapping: triton_poi_fused_1 = async_compile.triton('triton_poi_fused_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16, 16], tile_hint=TileHint.SQUARE, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_1(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 16 xnumel = 16 yoffset = tl.program_id(1) YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 4 y1 = (yindex // 4) tmp0 = tl.load(in_ptr0 + (x2 + (16y3)), xmask & ymask) tl.store(out_ptr0 + (y0 + (4x2) + (64y1)), tmp0, xmask & ymask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/co/ccosum7u5lx5fx5hf5opofiygxj2ntiq67yo5gfegevmhtkaru4r.py # Unsorted Source Nodes: [], Original ATen: [] # Source node to ATen node mapping: triton_poi_fused_2 = async_compile.triton('triton_poi_fused_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[65536, 16], tile_hint=TileHint.SQUARE, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_2(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 65536 xnumel = 9 yoffset = (tl.program_id(1) + tl.program_id(2) tl.num_programs(1)) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = tl.full([XBLOCK, YBLOCK], True, tl.int1) xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 256 y1 = (yindex // 256) tmp0 = tl.load(in_ptr0 + (x2 + (9y3)), xmask, eviction_policy='evict_last') tl.store(out_ptr0 + (y0 + (256x2) + (2304y1)), tmp0, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/p3/cp33bmog7mdvma26wbwnvftsvjwcndpskou63smgnwsl6nvmvuxd.py # Unsorted Source Nodes: [], Original ATen: [] # Source node to ATen node mapping: triton_poi_fused_3 = async_compile.triton('triton_poi_fused_3', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[131072, 16], tile_hint=TileHint.SQUARE, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_3', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_3(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 80640 xnumel = 9 yoffset = (tl.program_id(1) + tl.program_id(2) tl.num_programs(1)) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 256 y1 = (yindex // 256) tmp0 = tl.load(in_ptr0 + (x2 + (9y3)), xmask & ymask, eviction_policy='evict_last') tl.store(out_ptr0 + (y0 + (256x2) + (2304y1)), tmp0, xmask & ymask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/wj/cwjii5g7vcokiqucazdgsrvnsqad3q7z4gbxiwezolbw7o6ilfmr.py # Topologically Sorted Source Nodes: [out, out_1], Original ATen: [aten.convolution, aten.relu] # Source node to ATen node mapping: # out => convolution # out_1 => relu # Graph fragment: # %convolution : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_3, %primals_1, %primals_2, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution,), kwargs = {}) triton_poi_fused_convolution_relu_4 = async_compile.triton('triton_poi_fused_convolution_relu_4', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16384], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_relu_4', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_relu_4(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16384 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x2 = xindex x0 = xindex % 256 tmp0 = tl.load(in_out_ptr0 + (x2), None) tmp1 = tl.load(in_ptr0 + (x0), None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + (x2), tmp4, None) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/7h/c7hmpuoon6lfljvubavwqzp36yhrqrbl4g5ktudkaq56jxhzzcmy.py # Topologically Sorted Source Nodes: [out_8, contiguous], Original ATen: [aten.convolution, aten.clone] # Source node to ATen node mapping: # contiguous => clone # out_8 => convolution_4 # Graph fragment: # %convolution_4 : [num_users=2] = call_function[target=torch.ops.aten.convolution.default](args = (%relu_3, %primals_10, %primals_11, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %clone : [num_users=1] = call_function[target=torch.ops.aten.clone.default](args = (%view,), kwargs = {memory_format: torch.contiguous_format}) triton_poi_fused_clone_convolution_5 = async_compile.triton('triton_poi_fused_clone_convolution_5', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[32768], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_clone_convolution_5', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_clone_convolution_5(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 20160 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 315 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.sigmoid(tmp2) tl.store(in_out_ptr0 + (x2), tmp2, xmask) tl.store(out_ptr0 + (x2), tmp3, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11 = args args.clear() assert_size_stride(primals_1, (256, 4, 3, 3), (36, 9, 3, 1)) assert_size_stride(primals_2, (256, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (256, 256, 3, 3), (2304, 9, 3, 1)) assert_size_stride(primals_5, (256, ), (1, )) assert_size_stride(primals_6, (256, 256, 3, 3), (2304, 9, 3, 1)) assert_size_stride(primals_7, (256, ), (1, )) assert_size_stride(primals_8, (256, 256, 3, 3), (2304, 9, 3, 1)) assert_size_stride(primals_9, (256, ), (1, )) assert_size_stride(primals_10, (315, 256, 3, 3), (2304, 9, 3, 1)) assert_size_stride(primals_11, (315, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((256, 4, 3, 3), (36, 1, 12, 4), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] stream0 = get_raw_stream(0) triton_poi_fused_0.run(primals_1, buf0, 1024, 9, grid=grid(1024, 9), stream=stream0) del primals_1 buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 1, 16, 4), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] triton_poi_fused_1.run(primals_3, buf1, 16, 16, grid=grid(16, 16), stream=stream0) del primals_3 buf2 = empty_strided_cuda((256, 256, 3, 3), (2304, 1, 768, 256), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] triton_poi_fused_2.run(primals_4, buf2, 65536, 9, grid=grid(65536, 9), stream=stream0) del primals_4 buf3 = empty_strided_cuda((256, 256, 3, 3), (2304, 1, 768, 256), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] triton_poi_fused_2.run(primals_6, buf3, 65536, 9, grid=grid(65536, 9), stream=stream0) del primals_6 buf4 = empty_strided_cuda((256, 256, 3, 3), (2304, 1, 768, 256), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] triton_poi_fused_2.run(primals_8, buf4, 65536, 9, grid=grid(65536, 9), stream=stream0) del primals_8 buf5 = empty_strided_cuda((315, 256, 3, 3), (2304, 1, 768, 256), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] triton_poi_fused_3.run(primals_10, buf5, 80640, 9, grid=grid(80640, 9), stream=stream0) del primals_10 # Topologically Sorted Source Nodes: [out], Original ATen: [aten.convolution] buf6 = extern_kernels.convolution(buf1, buf0, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf6, (4, 256, 4, 4), (4096, 1, 1024, 256)) buf7 = buf6; del buf6 # reuse # Topologically Sorted Source Nodes: [out, out_1], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_4.run(buf7, primals_2, 16384, grid=grid(16384), stream=stream0) del primals_2 # Topologically Sorted Source Nodes: [out_2], Original ATen: [aten.convolution] buf8 = extern_kernels.convolution(buf7, buf2, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf8, (4, 256, 4, 4), (4096, 1, 1024, 256)) buf9 = buf8; del buf8 # reuse # Topologically Sorted Source Nodes: [out_2, out_3], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_4.run(buf9, primals_5, 16384, grid=grid(16384), stream=stream0) del primals_5 # Topologically Sorted Source Nodes: [out_4], Original ATen: [aten.convolution] buf10 = extern_kernels.convolution(buf9, buf3, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf10, (4, 256, 4, 4), (4096, 1, 1024, 256)) buf11 = buf10; del buf10 # reuse # Topologically Sorted Source Nodes: [out_4, out_5], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_4.run(buf11, primals_7, 16384, grid=grid(16384), stream=stream0) del primals_7 # Topologically Sorted Source Nodes: [out_6], Original ATen: [aten.convolution] buf12 = extern_kernels.convolution(buf11, buf4, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf12, (4, 256, 4, 4), (4096, 1, 1024, 256)) buf13 = buf12; del buf12 # reuse # Topologically Sorted Source Nodes: [out_6, out_7], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_4.run(buf13, primals_9, 16384, grid=grid(16384), stream=stream0) del primals_9 # Topologically Sorted Source Nodes: [out_8], Original ATen: [aten.convolution] buf14 = extern_kernels.convolution(buf13, buf5, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf14, (4, 315, 4, 4), (5040, 1, 1260, 315)) buf15 = buf14; del buf14 # reuse buf16 = empty_strided_cuda((4, 4, 4, 21, 15), (5040, 1260, 315, 15, 1), torch.float32) # Topologically Sorted Source Nodes: [out_8, contiguous], Original ATen: [aten.convolution, aten.clone] triton_poi_fused_clone_convolution_5.run(buf15, primals_11, buf16, 20160, grid=grid(20160), stream=stream0) del primals_11 return (reinterpret_tensor(buf16, (4, 336, 15), (5040, 15, 1), 0), buf0, buf1, buf2, buf3, buf4, buf5, buf7, buf9, buf11, buf13, buf15, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((256, 4, 3, 3), (36, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((256, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((256, 256, 3, 3), (2304, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((256, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((256, 256, 3, 3), (2304, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((256, ), (1, ), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((256, 256, 3, 3), (2304, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((256, ), (1, ), device='cuda:0', dtype=torch.float32) primals_10 = rand_strided((315, 256, 3, 3), (2304, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_11 = rand_strided((315, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class ClassificationModel(nn.Module): def __init__(self, num_features_in, num_anchors=21, num_classes=15, prior=0.01, feature_size=256): super(ClassificationModel, self).__init__() self.num_classes = num_classes self.num_anchors = num_anchors self.conv1 = nn.Conv2d(num_features_in, feature_size, kernel_size=( 3, 3), padding=1) self.act1 = nn.ReLU() self.conv2 = nn.Conv2d(feature_size, feature_size, kernel_size=(3, 3), padding=1) self.act2 = nn.ReLU() self.conv3 = nn.Conv2d(feature_size, feature_size, kernel_size=(3, 3), padding=1) self.act3 = nn.ReLU() self.conv4 = nn.Conv2d(feature_size, feature_size, kernel_size=(3, 3), padding=1) self.act4 = nn.ReLU() self.output = nn.Conv2d(feature_size, num_anchors * num_classes, kernel_size=(3, 3), padding=1) self.output_act = nn.Sigmoid() def forward(self, x): out = self.conv1(x) out = self.act1(out) out = self.conv2(out) out = self.act2(out) out = self.conv3(out) out = self.act3(out) out = self.conv4(out) out = self.act4(out) out = self.output(out) out = self.output_act(out) out1 = out.permute(0, 2, 3, 1) batch_size, width, height, _channels = out1.shape out2 = out1.view(batch_size, width, height, self.num_anchors, self. num_classes) out3 = out2.contiguous().view(x.shape[0], -1, self.num_classes) return out3 def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'num_features_in': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_0(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK: tl. constexpr, XBLOCK: tl.constexpr): xnumel = 9 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] tl.full([XBLOCK, YBLOCK], True, tl.int1) xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 4 y1 = yindex // 4 tmp0 = tl.load(in_ptr0 + (x2 + 9 * y3), xmask, eviction_policy='evict_last' ) tl.store(out_ptr0 + (y0 + 4 * x2 + 36 * y1), tmp0, xmask) @triton.jit def triton_poi_fused_1(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK: tl. constexpr, XBLOCK: tl.constexpr): ynumel = 16 xnumel = 16 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 4 y1 = yindex // 4 tmp0 = tl.load(in_ptr0 + (x2 + 16 * y3), xmask & ymask) tl.store(out_ptr0 + (y0 + 4 * x2 + 64 * y1), tmp0, xmask & ymask) @triton.jit def triton_poi_fused_2(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK: tl. constexpr, XBLOCK: tl.constexpr): xnumel = 9 yoffset = (tl.program_id(1) + tl.program_id(2) * tl.num_programs(1) ) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] tl.full([XBLOCK, YBLOCK], True, tl.int1) xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 256 y1 = yindex // 256 tmp0 = tl.load(in_ptr0 + (x2 + 9 * y3), xmask, eviction_policy='evict_last' ) tl.store(out_ptr0 + (y0 + 256 * x2 + 2304 * y1), tmp0, xmask) @triton.jit def triton_poi_fused_3(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK: tl. constexpr, XBLOCK: tl.constexpr): ynumel = 80640 xnumel = 9 yoffset = (tl.program_id(1) + tl.program_id(2) * tl.num_programs(1) ) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 256 y1 = yindex // 256 tmp0 = tl.load(in_ptr0 + (x2 + 9 * y3), xmask & ymask, eviction_policy= 'evict_last') tl.store(out_ptr0 + (y0 + 256 * x2 + 2304 * y1), tmp0, xmask & ymask) @triton.jit def triton_poi_fused_convolution_relu_4(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x2 = xindex x0 = xindex % 256 tmp0 = tl.load(in_out_ptr0 + x2, None) tmp1 = tl.load(in_ptr0 + x0, None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + x2, tmp4, None) @triton.jit def triton_poi_fused_clone_convolution_5(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 20160 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 315 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.sigmoid(tmp2) tl.store(in_out_ptr0 + x2, tmp2, xmask) tl.store(out_ptr0 + x2, tmp3, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11) = args args.clear() assert_size_stride(primals_1, (256, 4, 3, 3), (36, 9, 3, 1)) assert_size_stride(primals_2, (256,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (256, 256, 3, 3), (2304, 9, 3, 1)) assert_size_stride(primals_5, (256,), (1,)) assert_size_stride(primals_6, (256, 256, 3, 3), (2304, 9, 3, 1)) assert_size_stride(primals_7, (256,), (1,)) assert_size_stride(primals_8, (256, 256, 3, 3), (2304, 9, 3, 1)) assert_size_stride(primals_9, (256,), (1,)) assert_size_stride(primals_10, (315, 256, 3, 3), (2304, 9, 3, 1)) assert_size_stride(primals_11, (315,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((256, 4, 3, 3), (36, 1, 12, 4), torch.float32 ) get_raw_stream(0) triton_poi_fused_0[grid(1024, 9)](primals_1, buf0, 1024, 9, XBLOCK= 16, YBLOCK=64, num_warps=4, num_stages=1) del primals_1 buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 1, 16, 4), torch.float32) triton_poi_fused_1[grid(16, 16)](primals_3, buf1, 16, 16, XBLOCK=16, YBLOCK=16, num_warps=4, num_stages=1) del primals_3 buf2 = empty_strided_cuda((256, 256, 3, 3), (2304, 1, 768, 256), torch.float32) triton_poi_fused_2[grid(65536, 9)](primals_4, buf2, 65536, 9, XBLOCK=16, YBLOCK=64, num_warps=4, num_stages=1) del primals_4 buf3 = empty_strided_cuda((256, 256, 3, 3), (2304, 1, 768, 256), torch.float32) triton_poi_fused_2[grid(65536, 9)](primals_6, buf3, 65536, 9, XBLOCK=16, YBLOCK=64, num_warps=4, num_stages=1) del primals_6 buf4 = empty_strided_cuda((256, 256, 3, 3), (2304, 1, 768, 256), torch.float32) triton_poi_fused_2[grid(65536, 9)](primals_8, buf4, 65536, 9, XBLOCK=16, YBLOCK=64, num_warps=4, num_stages=1) del primals_8 buf5 = empty_strided_cuda((315, 256, 3, 3), (2304, 1, 768, 256), torch.float32) triton_poi_fused_3[grid(80640, 9)](primals_10, buf5, 80640, 9, XBLOCK=16, YBLOCK=64, num_warps=4, num_stages=1) del primals_10 buf6 = extern_kernels.convolution(buf1, buf0, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf6, (4, 256, 4, 4), (4096, 1, 1024, 256)) buf7 = buf6 del buf6 triton_poi_fused_convolution_relu_4[grid(16384)](buf7, primals_2, 16384, XBLOCK=256, num_warps=4, num_stages=1) del primals_2 buf8 = extern_kernels.convolution(buf7, buf2, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf8, (4, 256, 4, 4), (4096, 1, 1024, 256)) buf9 = buf8 del buf8 triton_poi_fused_convolution_relu_4[grid(16384)](buf9, primals_5, 16384, XBLOCK=256, num_warps=4, num_stages=1) del primals_5 buf10 = extern_kernels.convolution(buf9, buf3, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf10, (4, 256, 4, 4), (4096, 1, 1024, 256)) buf11 = buf10 del buf10 triton_poi_fused_convolution_relu_4[grid(16384)](buf11, primals_7, 16384, XBLOCK=256, num_warps=4, num_stages=1) del primals_7 buf12 = extern_kernels.convolution(buf11, buf4, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf12, (4, 256, 4, 4), (4096, 1, 1024, 256)) buf13 = buf12 del buf12 triton_poi_fused_convolution_relu_4[grid(16384)](buf13, primals_9, 16384, XBLOCK=256, num_warps=4, num_stages=1) del primals_9 buf14 = extern_kernels.convolution(buf13, buf5, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf14, (4, 315, 4, 4), (5040, 1, 1260, 315)) buf15 = buf14 del buf14 buf16 = empty_strided_cuda((4, 4, 4, 21, 15), (5040, 1260, 315, 15, 1), torch.float32) triton_poi_fused_clone_convolution_5[grid(20160)](buf15, primals_11, buf16, 20160, XBLOCK=128, num_warps=4, num_stages=1) del primals_11 return reinterpret_tensor(buf16, (4, 336, 15), (5040, 15, 1), 0 ), buf0, buf1, buf2, buf3, buf4, buf5, buf7, buf9, buf11, buf13, buf15 class ClassificationModelNew(nn.Module): def __init__(self, num_features_in, num_anchors=21, num_classes=15, prior=0.01, feature_size=256): super(ClassificationModelNew, self).__init__() self.num_classes = num_classes self.num_anchors = num_anchors self.conv1 = nn.Conv2d(num_features_in, feature_size, kernel_size=( 3, 3), padding=1) self.act1 = nn.ReLU() self.conv2 = nn.Conv2d(feature_size, feature_size, kernel_size=(3, 3), padding=1) self.act2 = nn.ReLU() self.conv3 = nn.Conv2d(feature_size, feature_size, kernel_size=(3, 3), padding=1) self.act3 = nn.ReLU() self.conv4 = nn.Conv2d(feature_size, feature_size, kernel_size=(3, 3), padding=1) self.act4 = nn.ReLU() self.output = nn.Conv2d(feature_size, num_anchors * num_classes, kernel_size=(3, 3), padding=1) self.output_act = nn.Sigmoid() def forward(self, input_0): primals_1 = self.conv1.weight primals_2 = self.conv1.bias primals_4 = self.conv2.weight primals_5 = self.conv2.bias primals_6 = self.conv3.weight primals_7 = self.conv3.bias primals_8 = self.conv4.weight primals_9 = self.conv4.bias primals_10 = self.output.weight primals_11 = self.output.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11]) return output[0]	HenryOsborne/Rotation	ClassificationModel	false	9,126	[ "Apache-2.0" ]	417fa90bcbb2a144f0c1d2ce5d9fc110f6617bf2	https://github.com/HenryOsborne/Rotation/tree/417fa90bcbb2a144f0c1d2ce5d9fc110f6617bf2
ConvBlock	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/zx/czxlhx4s6te5f22sga2xc2brf4uagtr2xkl46odyfqb25nksyekm.py # Topologically Sorted Source Nodes: [conv2d, img_out], Original ATen: [aten.convolution, aten.leaky_relu] # Source node to ATen node mapping: # conv2d => convolution # img_out => gt, mul, where # Graph fragment: # %convolution : [num_users=3] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_3, %primals_1, %primals_2, [2, 2], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %gt : [num_users=2] = call_function[target=torch.ops.aten.gt.Scalar](args = (%convolution, 0), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%convolution, 0.01), kwargs = {}) # %where : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%gt, %convolution, %mul), kwargs = {}) triton_poi_fused_convolution_leaky_relu_0 = async_compile.triton('triton_poi_fused_convolution_leaky_relu_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i1', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_leaky_relu_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_leaky_relu_0(in_ptr0, in_ptr1, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 4) % 4 tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr1 + (x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = tmp2 > tmp3 tmp5 = 0.01 tmp6 = tmp2 * tmp5 tmp7 = tl.where(tmp4, tmp2, tmp6) tl.store(out_ptr0 + (x3), tmp4, xmask) tl.store(out_ptr1 + (x3), tmp7, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 3, 3), (36, 9, 3, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [conv2d], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(2, 2), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 2, 2), (16, 4, 2, 1)) buf1 = empty_strided_cuda((4, 4, 2, 2), (16, 4, 2, 1), torch.bool) buf2 = empty_strided_cuda((4, 4, 2, 2), (16, 4, 2, 1), torch.float32) # Topologically Sorted Source Nodes: [conv2d, img_out], Original ATen: [aten.convolution, aten.leaky_relu] stream0 = get_raw_stream(0) triton_poi_fused_convolution_leaky_relu_0.run(buf0, primals_2, buf1, buf2, 64, grid=grid(64), stream=stream0) del buf0 del primals_2 return (buf2, primals_1, primals_3, buf1, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 3, 3), (36, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class Block(nn.Module): def __init__(self): """Initialisation for a lower-level DeepLPF conv block :returns: N/A :rtype: N/A """ super(Block, self).__init__() def conv3x3(self, in_channels, out_channels, stride=1): """Represents a convolution of shape 3x3 :param in_channels: number of input channels :param out_channels: number of output channels :param stride: the convolution stride :returns: convolution function with the specified parameterisation :rtype: function """ return nn.Conv2d(in_channels, out_channels, kernel_size=3, stride= stride, padding=1, bias=True) class ConvBlock(Block, nn.Module): def __init__(self, num_in_channels, num_out_channels, stride=1): """Initialise function for the higher level convolution block :param in_channels: :param out_channels: :param stride: :param padding: :returns: :rtype: """ super(Block, self).__init__() self.conv = self.conv3x3(num_in_channels, num_out_channels, stride=2) self.lrelu = nn.LeakyReLU() def forward(self, x): """ Forward function for the higher level convolution block :param x: Tensor representing the input BxCxWxH, where B is the batch size, C is the number of channels, W and H are the width and image height :returns: Tensor representing the output of the block :rtype: Tensor """ img_out = self.lrelu(self.conv(x)) return img_out def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'num_in_channels': 4, 'num_out_channels': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_convolution_leaky_relu_0(in_ptr0, in_ptr1, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = xindex // 4 % 4 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr1 + x1, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = tmp2 > tmp3 tmp5 = 0.01 tmp6 = tmp2 * tmp5 tmp7 = tl.where(tmp4, tmp2, tmp6) tl.store(out_ptr0 + x3, tmp4, xmask) tl.store(out_ptr1 + x3, tmp7, xmask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 3, 3), (36, 9, 3, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(2, 2), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 2, 2), (16, 4, 2, 1)) buf1 = empty_strided_cuda((4, 4, 2, 2), (16, 4, 2, 1), torch.bool) buf2 = empty_strided_cuda((4, 4, 2, 2), (16, 4, 2, 1), torch.float32) get_raw_stream(0) triton_poi_fused_convolution_leaky_relu_0[grid(64)](buf0, primals_2, buf1, buf2, 64, XBLOCK=64, num_warps=1, num_stages=1) del buf0 del primals_2 return buf2, primals_1, primals_3, buf1 class Block(nn.Module): def __init__(self): """Initialisation for a lower-level DeepLPF conv block :returns: N/A :rtype: N/A """ super(Block, self).__init__() def conv3x3(self, in_channels, out_channels, stride=1): """Represents a convolution of shape 3x3 :param in_channels: number of input channels :param out_channels: number of output channels :param stride: the convolution stride :returns: convolution function with the specified parameterisation :rtype: function """ return nn.Conv2d(in_channels, out_channels, kernel_size=3, stride= stride, padding=1, bias=True) class ConvBlockNew(Block, nn.Module): def __init__(self, num_in_channels, num_out_channels, stride=1): """Initialise function for the higher level convolution block :param in_channels: :param out_channels: :param stride: :param padding: :returns: :rtype: """ super(Block, self).__init__() self.conv = self.conv3x3(num_in_channels, num_out_channels, stride=2) self.lrelu = nn.LeakyReLU() def forward(self, input_0): primals_1 = self.conv.weight primals_2 = self.conv.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	DevilMayNotCry/My_curl	ConvBlock	false	9,127	[ "BSD-3-Clause" ]	a8f65a3e58cbdeefb4679aa2f0c3d9d800b67381	https://github.com/DevilMayNotCry/My_curl/tree/a8f65a3e58cbdeefb4679aa2f0c3d9d800b67381
MidNet2	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/dl/cdl5lse44xdzrizubj67ug5s3wmtva33w7qokf7z6zcm6xxeepcr.py # Topologically Sorted Source Nodes: [conv2d, x], Original ATen: [aten.convolution, aten.leaky_relu] # Source node to ATen node mapping: # conv2d => convolution # x => gt, mul, where # Graph fragment: # %convolution : [num_users=3] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_3, %primals_1, %primals_2, [1, 1], [2, 2], [2, 2], False, [0, 0], 1), kwargs = {}) # %gt : [num_users=2] = call_function[target=torch.ops.aten.gt.Scalar](args = (%convolution, 0), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%convolution, 0.01), kwargs = {}) # %where : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%gt, %convolution, %mul), kwargs = {}) triton_poi_fused_convolution_leaky_relu_0 = async_compile.triton('triton_poi_fused_convolution_leaky_relu_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[1048576], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i1', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_leaky_relu_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_leaky_relu_0(in_ptr0, in_ptr1, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 1048576 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x3 = xindex x1 = (xindex // 4096) % 64 tmp0 = tl.load(in_ptr0 + (x3), None) tmp1 = tl.load(in_ptr1 + (x1), None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = tmp2 > tmp3 tmp5 = 0.01 tmp6 = tmp2 * tmp5 tmp7 = tl.where(tmp4, tmp2, tmp6) tl.store(out_ptr0 + (x3), tmp4, None) tl.store(out_ptr1 + (x3), tmp7, None) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/rl/crlihktcxlelztj3nlaeiylpet5sp6oio26pbfd7oslmyooxhgan.py # Topologically Sorted Source Nodes: [x_3], Original ATen: [aten.convolution] # Source node to ATen node mapping: # x_3 => convolution_3 # Graph fragment: # %convolution_3 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%where_2, %primals_8, %primals_9, [1, 1], [2, 2], [2, 2], False, [0, 0], 1), kwargs = {}) triton_poi_fused_convolution_1 = async_compile.triton('triton_poi_fused_convolution_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[1048576], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 1048576 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x3 = xindex x1 = (xindex // 4096) % 64 tmp0 = tl.load(in_out_ptr0 + (x3), None) tmp1 = tl.load(in_ptr0 + (x1), None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + (x3), tmp2, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9 = args args.clear() assert_size_stride(primals_1, (64, 16, 3, 3), (144, 9, 3, 1)) assert_size_stride(primals_2, (64, ), (1, )) assert_size_stride(primals_3, (4, 16, 64, 64), (65536, 4096, 64, 1)) assert_size_stride(primals_4, (64, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_5, (64, ), (1, )) assert_size_stride(primals_6, (64, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_7, (64, ), (1, )) assert_size_stride(primals_8, (64, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_9, (64, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [conv2d], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1, 1), padding=(2, 2), dilation=(2, 2), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 64, 64, 64), (262144, 4096, 64, 1)) buf1 = empty_strided_cuda((4, 64, 64, 64), (262144, 4096, 64, 1), torch.bool) buf2 = empty_strided_cuda((4, 64, 64, 64), (262144, 4096, 64, 1), torch.float32) # Topologically Sorted Source Nodes: [conv2d, x], Original ATen: [aten.convolution, aten.leaky_relu] stream0 = get_raw_stream(0) triton_poi_fused_convolution_leaky_relu_0.run(buf0, primals_2, buf1, buf2, 1048576, grid=grid(1048576), stream=stream0) del primals_2 # Topologically Sorted Source Nodes: [conv2d_1], Original ATen: [aten.convolution] buf3 = extern_kernels.convolution(buf2, primals_4, stride=(1, 1), padding=(2, 2), dilation=(2, 2), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf3, (4, 64, 64, 64), (262144, 4096, 64, 1)) buf4 = empty_strided_cuda((4, 64, 64, 64), (262144, 4096, 64, 1), torch.bool) buf5 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [conv2d_1, x_1], Original ATen: [aten.convolution, aten.leaky_relu] triton_poi_fused_convolution_leaky_relu_0.run(buf3, primals_5, buf4, buf5, 1048576, grid=grid(1048576), stream=stream0) del primals_5 # Topologically Sorted Source Nodes: [conv2d_2], Original ATen: [aten.convolution] buf6 = extern_kernels.convolution(buf5, primals_6, stride=(1, 1), padding=(2, 2), dilation=(2, 2), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf6, (4, 64, 64, 64), (262144, 4096, 64, 1)) buf7 = empty_strided_cuda((4, 64, 64, 64), (262144, 4096, 64, 1), torch.bool) buf8 = buf3; del buf3 # reuse # Topologically Sorted Source Nodes: [conv2d_2, x_2], Original ATen: [aten.convolution, aten.leaky_relu] triton_poi_fused_convolution_leaky_relu_0.run(buf6, primals_7, buf7, buf8, 1048576, grid=grid(1048576), stream=stream0) del buf6 del primals_7 # Topologically Sorted Source Nodes: [x_3], Original ATen: [aten.convolution] buf9 = extern_kernels.convolution(buf8, primals_8, stride=(1, 1), padding=(2, 2), dilation=(2, 2), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf9, (4, 64, 64, 64), (262144, 4096, 64, 1)) buf10 = buf9; del buf9 # reuse # Topologically Sorted Source Nodes: [x_3], Original ATen: [aten.convolution] triton_poi_fused_convolution_1.run(buf10, primals_9, 1048576, grid=grid(1048576), stream=stream0) del primals_9 return (buf10, primals_1, primals_3, primals_4, primals_6, primals_8, buf1, buf2, buf4, buf5, buf7, buf8, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((64, 16, 3, 3), (144, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((64, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 16, 64, 64), (65536, 4096, 64, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((64, 64, 3, 3), (576, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((64, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((64, 64, 3, 3), (576, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((64, ), (1, ), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((64, 64, 3, 3), (576, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((64, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class MidNet2(nn.Module): def forward(self, x_in): """Network with dilation rate 2 :param x_in: input convolutional features :returns: processed convolutional features :rtype: Tensor """ x = self.lrelu(self.conv1(x_in)) x = self.lrelu(self.conv2(x)) x = self.lrelu(self.conv3(x)) x = self.conv4(x) return x def __init__(self, in_channels=16): """FIXME! briefly describe function :param in_channels: Input channels :returns: N/A :rtype: N/A """ super(MidNet2, self).__init__() self.lrelu = nn.LeakyReLU() self.conv1 = nn.Conv2d(in_channels, 64, 3, 1, 2, 2) self.conv2 = nn.Conv2d(64, 64, 3, 1, 2, 2) self.conv3 = nn.Conv2d(64, 64, 3, 1, 2, 2) self.conv4 = nn.Conv2d(64, 64, 3, 1, 2, 2) def get_inputs(): return [torch.rand([4, 16, 64, 64])] def get_init_inputs(): return [[], {}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_convolution_leaky_relu_0(in_ptr0, in_ptr1, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x3 = xindex x1 = xindex // 4096 % 64 tmp0 = tl.load(in_ptr0 + x3, None) tmp1 = tl.load(in_ptr1 + x1, None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = tmp2 > tmp3 tmp5 = 0.01 tmp6 = tmp2 * tmp5 tmp7 = tl.where(tmp4, tmp2, tmp6) tl.store(out_ptr0 + x3, tmp4, None) tl.store(out_ptr1 + x3, tmp7, None) @triton.jit def triton_poi_fused_convolution_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl .constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x3 = xindex x1 = xindex // 4096 % 64 tmp0 = tl.load(in_out_ptr0 + x3, None) tmp1 = tl.load(in_ptr0 + x1, None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + x3, tmp2, None) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9) = args args.clear() assert_size_stride(primals_1, (64, 16, 3, 3), (144, 9, 3, 1)) assert_size_stride(primals_2, (64,), (1,)) assert_size_stride(primals_3, (4, 16, 64, 64), (65536, 4096, 64, 1)) assert_size_stride(primals_4, (64, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_5, (64,), (1,)) assert_size_stride(primals_6, (64, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_7, (64,), (1,)) assert_size_stride(primals_8, (64, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_9, (64,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1, 1), padding=(2, 2), dilation=(2, 2), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 64, 64, 64), (262144, 4096, 64, 1)) buf1 = empty_strided_cuda((4, 64, 64, 64), (262144, 4096, 64, 1), torch.bool) buf2 = empty_strided_cuda((4, 64, 64, 64), (262144, 4096, 64, 1), torch.float32) get_raw_stream(0) triton_poi_fused_convolution_leaky_relu_0[grid(1048576)](buf0, primals_2, buf1, buf2, 1048576, XBLOCK=1024, num_warps=4, num_stages=1) del primals_2 buf3 = extern_kernels.convolution(buf2, primals_4, stride=(1, 1), padding=(2, 2), dilation=(2, 2), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf3, (4, 64, 64, 64), (262144, 4096, 64, 1)) buf4 = empty_strided_cuda((4, 64, 64, 64), (262144, 4096, 64, 1), torch.bool) buf5 = buf0 del buf0 triton_poi_fused_convolution_leaky_relu_0[grid(1048576)](buf3, primals_5, buf4, buf5, 1048576, XBLOCK=1024, num_warps=4, num_stages=1) del primals_5 buf6 = extern_kernels.convolution(buf5, primals_6, stride=(1, 1), padding=(2, 2), dilation=(2, 2), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf6, (4, 64, 64, 64), (262144, 4096, 64, 1)) buf7 = empty_strided_cuda((4, 64, 64, 64), (262144, 4096, 64, 1), torch.bool) buf8 = buf3 del buf3 triton_poi_fused_convolution_leaky_relu_0[grid(1048576)](buf6, primals_7, buf7, buf8, 1048576, XBLOCK=1024, num_warps=4, num_stages=1) del buf6 del primals_7 buf9 = extern_kernels.convolution(buf8, primals_8, stride=(1, 1), padding=(2, 2), dilation=(2, 2), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf9, (4, 64, 64, 64), (262144, 4096, 64, 1)) buf10 = buf9 del buf9 triton_poi_fused_convolution_1[grid(1048576)](buf10, primals_9, 1048576, XBLOCK=1024, num_warps=4, num_stages=1) del primals_9 return (buf10, primals_1, primals_3, primals_4, primals_6, primals_8, buf1, buf2, buf4, buf5, buf7, buf8) class MidNet2New(nn.Module): def __init__(self, in_channels=16): """FIXME! briefly describe function :param in_channels: Input channels :returns: N/A :rtype: N/A """ super(MidNet2New, self).__init__() self.lrelu = nn.LeakyReLU() self.conv1 = nn.Conv2d(in_channels, 64, 3, 1, 2, 2) self.conv2 = nn.Conv2d(64, 64, 3, 1, 2, 2) self.conv3 = nn.Conv2d(64, 64, 3, 1, 2, 2) self.conv4 = nn.Conv2d(64, 64, 3, 1, 2, 2) def forward(self, input_0): primals_1 = self.conv1.weight primals_2 = self.conv1.bias primals_4 = self.conv2.weight primals_5 = self.conv2.bias primals_6 = self.conv3.weight primals_7 = self.conv3.bias primals_8 = self.conv4.weight primals_9 = self.conv4.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9]) return output[0]	DevilMayNotCry/My_curl	MidNet2	false	9,128	[ "BSD-3-Clause" ]	a8f65a3e58cbdeefb4679aa2f0c3d9d800b67381	https://github.com/DevilMayNotCry/My_curl/tree/a8f65a3e58cbdeefb4679aa2f0c3d9d800b67381
AffineLayer	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/wh/cwhiqmxs6jarebbowg7sybonilbiobgdiwbw3bqoqnzgcchqkxol.py # Topologically Sorted Source Nodes: [out], Original ATen: [aten.mul] # Source node to ATen node mapping: # out => mul # Graph fragment: # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%primals_2, %expand), kwargs = {}) triton_poi_fused_mul_0 = async_compile.triton('triton_poi_fused_mul_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_mul_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_mul_0(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 16) % 4 tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr1 + (x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 * tmp1 tl.store(out_ptr0 + (x3), tmp2, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2 = args args.clear() assert_size_stride(primals_1, (1, 4, 1, 1), (4, 1, 1, 1)) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [out], Original ATen: [aten.mul] stream0 = get_raw_stream(0) triton_poi_fused_mul_0.run(primals_2, primals_1, buf0, 256, grid=grid(256), stream=stream0) del primals_1 return (buf0, primals_2, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((1, 4, 1, 1), (4, 1, 1, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.utils.data import torch import torch.nn as nn class AffineLayer(nn.Module): def __init__(self, num_channels, bias=False): super(AffineLayer, self).__init__() weight = torch.FloatTensor(1, num_channels, 1, 1).fill_(1) self.weight = nn.Parameter(weight, requires_grad=True) self.bias = None if bias: bias = torch.FloatTensor(1, num_channels, 1, 1).fill_(0) self.bias = nn.Parameter(bias, requires_grad=True) def forward(self, X): out = X * self.weight.expand_as(X) if self.bias is not None: out = out + self.bias.expand_as(X) return out def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'num_channels': 4}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.utils.data import torch import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_mul_0(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = xindex // 16 % 4 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr1 + x1, xmask, eviction_policy='evict_last') tmp2 = tmp0 * tmp1 tl.store(out_ptr0 + x3, tmp2, xmask) def call(args): primals_1, primals_2 = args args.clear() assert_size_stride(primals_1, (1, 4, 1, 1), (4, 1, 1, 1)) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_mul_0[grid(256)](primals_2, primals_1, buf0, 256, XBLOCK=256, num_warps=4, num_stages=1) del primals_1 return buf0, primals_2 class AffineLayerNew(nn.Module): def __init__(self, num_channels, bias=False): super(AffineLayerNew, self).__init__() weight = torch.FloatTensor(1, num_channels, 1, 1).fill_(1) self.weight = nn.Parameter(weight, requires_grad=True) self.bias = None if bias: bias = torch.FloatTensor(1, num_channels, 1, 1).fill_(0) self.bias = nn.Parameter(bias, requires_grad=True) def forward(self, input_0): primals_1 = self.weight primals_2 = input_0 output = call([primals_1, primals_2]) return output[0]	JeyesHan/DeFRCN_Custom	AffineLayer	false	9,129	[ "MIT" ]	6a536408a61bb10a5ef84ce6683b6278e6e01f43	https://github.com/JeyesHan/DeFRCN_Custom/tree/6a536408a61bb10a5ef84ce6683b6278e6e01f43
LR	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/7x/c7xd5qhs3mv4tuuayy52bxybp2wk2jfubnhph5rvzx2n6vsoyam3.py # Topologically Sorted Source Nodes: [sum_1, out], Original ATen: [aten.sum, aten.add] # Source node to ATen node mapping: # out => add # sum_1 => sum_1 # Graph fragment: # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%view_1, [1]), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%primals_1, %sum_1), kwargs = {}) triton_poi_fused_add_sum_0 = async_compile.triton('triton_poi_fused_add_sum_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_sum_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_sum_0(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = (xindex // 4) x2 = xindex tmp0 = tl.load(in_ptr0 + (0)) tmp1 = tl.broadcast_to(tmp0, [XBLOCK]) tmp2 = tl.load(in_ptr1 + (x0 + (16x1)), xmask) tmp3 = tl.load(in_ptr1 + (4 + x0 + (16x1)), xmask) tmp5 = tl.load(in_ptr1 + (8 + x0 + (16x1)), xmask) tmp7 = tl.load(in_ptr1 + (12 + x0 + (16x1)), xmask) tmp4 = tmp2 + tmp3 tmp6 = tmp4 + tmp5 tmp8 = tmp6 + tmp7 tmp9 = tmp1 + tmp8 tl.store(out_ptr0 + (x2), tmp9, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4 = args args.clear() assert_size_stride(primals_1, (1, ), (1, )) assert_size_stride(primals_2, (1, 4), (4, 1)) assert_size_stride(primals_3, (1, ), (1, )) assert_size_stride(primals_4, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf1 = empty_strided_cuda((64, 1), (1, 1), torch.float32) # Topologically Sorted Source Nodes: [linear], Original ATen: [aten.addmm] extern_kernels.addmm(primals_3, reinterpret_tensor(primals_4, (64, 4), (4, 1), 0), reinterpret_tensor(primals_2, (4, 1), (1, 4), 0), alpha=1, beta=1, out=buf1) del primals_2 del primals_3 buf2 = empty_strided_cuda((4, 4, 1), (4, 1, 1), torch.float32) # Topologically Sorted Source Nodes: [sum_1, out], Original ATen: [aten.sum, aten.add] stream0 = get_raw_stream(0) triton_poi_fused_add_sum_0.run(primals_1, buf1, buf2, 16, grid=grid(16), stream=stream0) del buf1 del primals_1 return (reinterpret_tensor(buf2, (4, 1, 4, 1), (4, 4, 1, 1), 0), reinterpret_tensor(primals_4, (64, 4), (4, 1), 0), ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((1, ), (1, ), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((1, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((1, ), (1, ), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.utils.data class LR(nn.Module): def __init__(self, feature_nums, output_dim=1): super(LR, self).__init__() self.linear = nn.Linear(feature_nums, output_dim) self.bias = nn.Parameter(torch.zeros((output_dim,))) def forward(self, x): """ :param x: Int tensor of size (batch_size, feature_nums, latent_nums) :return: pctrs """ out = self.bias + torch.sum(self.linear(x), dim=1) return out.unsqueeze(1) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'feature_nums': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.nn as nn import torch.utils.data assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_add_sum_0(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = xindex // 4 x2 = xindex tmp0 = tl.load(in_ptr0 + 0) tmp1 = tl.broadcast_to(tmp0, [XBLOCK]) tmp2 = tl.load(in_ptr1 + (x0 + 16 * x1), xmask) tmp3 = tl.load(in_ptr1 + (4 + x0 + 16 * x1), xmask) tmp5 = tl.load(in_ptr1 + (8 + x0 + 16 * x1), xmask) tmp7 = tl.load(in_ptr1 + (12 + x0 + 16 * x1), xmask) tmp4 = tmp2 + tmp3 tmp6 = tmp4 + tmp5 tmp8 = tmp6 + tmp7 tmp9 = tmp1 + tmp8 tl.store(out_ptr0 + x2, tmp9, xmask) def call(args): primals_1, primals_2, primals_3, primals_4 = args args.clear() assert_size_stride(primals_1, (1,), (1,)) assert_size_stride(primals_2, (1, 4), (4, 1)) assert_size_stride(primals_3, (1,), (1,)) assert_size_stride(primals_4, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf1 = empty_strided_cuda((64, 1), (1, 1), torch.float32) extern_kernels.addmm(primals_3, reinterpret_tensor(primals_4, (64, 4), (4, 1), 0), reinterpret_tensor(primals_2, (4, 1), (1, 4), 0 ), alpha=1, beta=1, out=buf1) del primals_2 del primals_3 buf2 = empty_strided_cuda((4, 4, 1), (4, 1, 1), torch.float32) get_raw_stream(0) triton_poi_fused_add_sum_0[grid(16)](primals_1, buf1, buf2, 16, XBLOCK=16, num_warps=1, num_stages=1) del buf1 del primals_1 return reinterpret_tensor(buf2, (4, 1, 4, 1), (4, 4, 1, 1), 0 ), reinterpret_tensor(primals_4, (64, 4), (4, 1), 0) class LRNew(nn.Module): def __init__(self, feature_nums, output_dim=1): super(LRNew, self).__init__() self.linear = nn.Linear(feature_nums, output_dim) self.bias = nn.Parameter(torch.zeros((output_dim,))) def forward(self, input_0): primals_1 = self.bias primals_2 = self.linear.weight primals_3 = self.linear.bias primals_4 = input_0 output = call([primals_1, primals_2, primals_3, primals_4]) return output[0]	JiaXingBinggan/LSTM_Project	LR	false	9,130	[ "Apache-2.0" ]	9d84fb96951f2f6036cb58e9c839bb879a09cbcc	https://github.com/JiaXingBinggan/LSTM_Project/tree/9d84fb96951f2f6036cb58e9c839bb879a09cbcc
MidNet4	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/dl/cdl5lse44xdzrizubj67ug5s3wmtva33w7qokf7z6zcm6xxeepcr.py # Topologically Sorted Source Nodes: [conv2d, x], Original ATen: [aten.convolution, aten.leaky_relu] # Source node to ATen node mapping: # conv2d => convolution # x => gt, mul, where # Graph fragment: # %convolution : [num_users=3] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_3, %primals_1, %primals_2, [1, 1], [4, 4], [4, 4], False, [0, 0], 1), kwargs = {}) # %gt : [num_users=2] = call_function[target=torch.ops.aten.gt.Scalar](args = (%convolution, 0), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%convolution, 0.01), kwargs = {}) # %where : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%gt, %convolution, %mul), kwargs = {}) triton_poi_fused_convolution_leaky_relu_0 = async_compile.triton('triton_poi_fused_convolution_leaky_relu_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[1048576], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i1', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_leaky_relu_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_leaky_relu_0(in_ptr0, in_ptr1, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 1048576 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x3 = xindex x1 = (xindex // 4096) % 64 tmp0 = tl.load(in_ptr0 + (x3), None) tmp1 = tl.load(in_ptr1 + (x1), None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = tmp2 > tmp3 tmp5 = 0.01 tmp6 = tmp2 * tmp5 tmp7 = tl.where(tmp4, tmp2, tmp6) tl.store(out_ptr0 + (x3), tmp4, None) tl.store(out_ptr1 + (x3), tmp7, None) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/rl/crlihktcxlelztj3nlaeiylpet5sp6oio26pbfd7oslmyooxhgan.py # Topologically Sorted Source Nodes: [x_3], Original ATen: [aten.convolution] # Source node to ATen node mapping: # x_3 => convolution_3 # Graph fragment: # %convolution_3 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%where_2, %primals_8, %primals_9, [1, 1], [4, 4], [4, 4], False, [0, 0], 1), kwargs = {}) triton_poi_fused_convolution_1 = async_compile.triton('triton_poi_fused_convolution_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[1048576], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 1048576 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x3 = xindex x1 = (xindex // 4096) % 64 tmp0 = tl.load(in_out_ptr0 + (x3), None) tmp1 = tl.load(in_ptr0 + (x1), None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + (x3), tmp2, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9 = args args.clear() assert_size_stride(primals_1, (64, 16, 3, 3), (144, 9, 3, 1)) assert_size_stride(primals_2, (64, ), (1, )) assert_size_stride(primals_3, (4, 16, 64, 64), (65536, 4096, 64, 1)) assert_size_stride(primals_4, (64, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_5, (64, ), (1, )) assert_size_stride(primals_6, (64, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_7, (64, ), (1, )) assert_size_stride(primals_8, (64, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_9, (64, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [conv2d], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1, 1), padding=(4, 4), dilation=(4, 4), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 64, 64, 64), (262144, 4096, 64, 1)) buf1 = empty_strided_cuda((4, 64, 64, 64), (262144, 4096, 64, 1), torch.bool) buf2 = empty_strided_cuda((4, 64, 64, 64), (262144, 4096, 64, 1), torch.float32) # Topologically Sorted Source Nodes: [conv2d, x], Original ATen: [aten.convolution, aten.leaky_relu] stream0 = get_raw_stream(0) triton_poi_fused_convolution_leaky_relu_0.run(buf0, primals_2, buf1, buf2, 1048576, grid=grid(1048576), stream=stream0) del primals_2 # Topologically Sorted Source Nodes: [conv2d_1], Original ATen: [aten.convolution] buf3 = extern_kernels.convolution(buf2, primals_4, stride=(1, 1), padding=(4, 4), dilation=(4, 4), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf3, (4, 64, 64, 64), (262144, 4096, 64, 1)) buf4 = empty_strided_cuda((4, 64, 64, 64), (262144, 4096, 64, 1), torch.bool) buf5 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [conv2d_1, x_1], Original ATen: [aten.convolution, aten.leaky_relu] triton_poi_fused_convolution_leaky_relu_0.run(buf3, primals_5, buf4, buf5, 1048576, grid=grid(1048576), stream=stream0) del primals_5 # Topologically Sorted Source Nodes: [conv2d_2], Original ATen: [aten.convolution] buf6 = extern_kernels.convolution(buf5, primals_6, stride=(1, 1), padding=(4, 4), dilation=(4, 4), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf6, (4, 64, 64, 64), (262144, 4096, 64, 1)) buf7 = empty_strided_cuda((4, 64, 64, 64), (262144, 4096, 64, 1), torch.bool) buf8 = buf3; del buf3 # reuse # Topologically Sorted Source Nodes: [conv2d_2, x_2], Original ATen: [aten.convolution, aten.leaky_relu] triton_poi_fused_convolution_leaky_relu_0.run(buf6, primals_7, buf7, buf8, 1048576, grid=grid(1048576), stream=stream0) del buf6 del primals_7 # Topologically Sorted Source Nodes: [x_3], Original ATen: [aten.convolution] buf9 = extern_kernels.convolution(buf8, primals_8, stride=(1, 1), padding=(4, 4), dilation=(4, 4), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf9, (4, 64, 64, 64), (262144, 4096, 64, 1)) buf10 = buf9; del buf9 # reuse # Topologically Sorted Source Nodes: [x_3], Original ATen: [aten.convolution] triton_poi_fused_convolution_1.run(buf10, primals_9, 1048576, grid=grid(1048576), stream=stream0) del primals_9 return (buf10, primals_1, primals_3, primals_4, primals_6, primals_8, buf1, buf2, buf4, buf5, buf7, buf8, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((64, 16, 3, 3), (144, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((64, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 16, 64, 64), (65536, 4096, 64, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((64, 64, 3, 3), (576, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((64, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((64, 64, 3, 3), (576, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((64, ), (1, ), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((64, 64, 3, 3), (576, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((64, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class MidNet4(nn.Module): def forward(self, x_in): """Network with dilation rate 4 :param x_in: input convolutional features :returns: processed convolutional features :rtype: Tensor """ x = self.lrelu(self.conv1(x_in)) x = self.lrelu(self.conv2(x)) x = self.lrelu(self.conv3(x)) x = self.conv4(x) return x def __init__(self, in_channels=16): """FIXME! briefly describe function :param in_channels: Input channels :returns: N/A :rtype: N/A """ super(MidNet4, self).__init__() self.lrelu = nn.LeakyReLU() self.conv1 = nn.Conv2d(in_channels, 64, 3, 1, 4, 4) self.conv2 = nn.Conv2d(64, 64, 3, 1, 4, 4) self.conv3 = nn.Conv2d(64, 64, 3, 1, 4, 4) self.conv4 = nn.Conv2d(64, 64, 3, 1, 4, 4) def get_inputs(): return [torch.rand([4, 16, 64, 64])] def get_init_inputs(): return [[], {}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_convolution_leaky_relu_0(in_ptr0, in_ptr1, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x3 = xindex x1 = xindex // 4096 % 64 tmp0 = tl.load(in_ptr0 + x3, None) tmp1 = tl.load(in_ptr1 + x1, None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = tmp2 > tmp3 tmp5 = 0.01 tmp6 = tmp2 * tmp5 tmp7 = tl.where(tmp4, tmp2, tmp6) tl.store(out_ptr0 + x3, tmp4, None) tl.store(out_ptr1 + x3, tmp7, None) @triton.jit def triton_poi_fused_convolution_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl .constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x3 = xindex x1 = xindex // 4096 % 64 tmp0 = tl.load(in_out_ptr0 + x3, None) tmp1 = tl.load(in_ptr0 + x1, None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + x3, tmp2, None) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9) = args args.clear() assert_size_stride(primals_1, (64, 16, 3, 3), (144, 9, 3, 1)) assert_size_stride(primals_2, (64,), (1,)) assert_size_stride(primals_3, (4, 16, 64, 64), (65536, 4096, 64, 1)) assert_size_stride(primals_4, (64, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_5, (64,), (1,)) assert_size_stride(primals_6, (64, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_7, (64,), (1,)) assert_size_stride(primals_8, (64, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_9, (64,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1, 1), padding=(4, 4), dilation=(4, 4), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 64, 64, 64), (262144, 4096, 64, 1)) buf1 = empty_strided_cuda((4, 64, 64, 64), (262144, 4096, 64, 1), torch.bool) buf2 = empty_strided_cuda((4, 64, 64, 64), (262144, 4096, 64, 1), torch.float32) get_raw_stream(0) triton_poi_fused_convolution_leaky_relu_0[grid(1048576)](buf0, primals_2, buf1, buf2, 1048576, XBLOCK=1024, num_warps=4, num_stages=1) del primals_2 buf3 = extern_kernels.convolution(buf2, primals_4, stride=(1, 1), padding=(4, 4), dilation=(4, 4), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf3, (4, 64, 64, 64), (262144, 4096, 64, 1)) buf4 = empty_strided_cuda((4, 64, 64, 64), (262144, 4096, 64, 1), torch.bool) buf5 = buf0 del buf0 triton_poi_fused_convolution_leaky_relu_0[grid(1048576)](buf3, primals_5, buf4, buf5, 1048576, XBLOCK=1024, num_warps=4, num_stages=1) del primals_5 buf6 = extern_kernels.convolution(buf5, primals_6, stride=(1, 1), padding=(4, 4), dilation=(4, 4), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf6, (4, 64, 64, 64), (262144, 4096, 64, 1)) buf7 = empty_strided_cuda((4, 64, 64, 64), (262144, 4096, 64, 1), torch.bool) buf8 = buf3 del buf3 triton_poi_fused_convolution_leaky_relu_0[grid(1048576)](buf6, primals_7, buf7, buf8, 1048576, XBLOCK=1024, num_warps=4, num_stages=1) del buf6 del primals_7 buf9 = extern_kernels.convolution(buf8, primals_8, stride=(1, 1), padding=(4, 4), dilation=(4, 4), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf9, (4, 64, 64, 64), (262144, 4096, 64, 1)) buf10 = buf9 del buf9 triton_poi_fused_convolution_1[grid(1048576)](buf10, primals_9, 1048576, XBLOCK=1024, num_warps=4, num_stages=1) del primals_9 return (buf10, primals_1, primals_3, primals_4, primals_6, primals_8, buf1, buf2, buf4, buf5, buf7, buf8) class MidNet4New(nn.Module): def __init__(self, in_channels=16): """FIXME! briefly describe function :param in_channels: Input channels :returns: N/A :rtype: N/A """ super(MidNet4New, self).__init__() self.lrelu = nn.LeakyReLU() self.conv1 = nn.Conv2d(in_channels, 64, 3, 1, 4, 4) self.conv2 = nn.Conv2d(64, 64, 3, 1, 4, 4) self.conv3 = nn.Conv2d(64, 64, 3, 1, 4, 4) self.conv4 = nn.Conv2d(64, 64, 3, 1, 4, 4) def forward(self, input_0): primals_1 = self.conv1.weight primals_2 = self.conv1.bias primals_4 = self.conv2.weight primals_5 = self.conv2.bias primals_6 = self.conv3.weight primals_7 = self.conv3.bias primals_8 = self.conv4.weight primals_9 = self.conv4.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9]) return output[0]	DevilMayNotCry/My_curl	MidNet4	false	9,131	[ "BSD-3-Clause" ]	a8f65a3e58cbdeefb4679aa2f0c3d9d800b67381	https://github.com/DevilMayNotCry/My_curl/tree/a8f65a3e58cbdeefb4679aa2f0c3d9d800b67381
NetVLAD	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/pw/cpw5jgywzg5ntkknxkt5orxsrrr5zq7a6eoteboi3ba7zrcxj2p7.py # Topologically Sorted Source Nodes: [conv2d], Original ATen: [aten.convolution] # Source node to ATen node mapping: # conv2d => convolution # Graph fragment: # %convolution : [num_users=2] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_1, %primals_2, %primals_3, [1, 1], [0, 0], [1, 1], False, [0, 0], 1), kwargs = {}) triton_poi_fused_convolution_0 = async_compile.triton('triton_poi_fused_convolution_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 16) % 4 tmp0 = tl.load(in_out_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + (x3), tmp2, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/xk/cxkugsynlmnyrjhah42fewrhwovuvurnuv2qimo2qhxq27wjmq7q.py # Topologically Sorted Source Nodes: [soft_assign_1], Original ATen: [aten._softmax] # Source node to ATen node mapping: # soft_assign_1 => amax, exp, sub # Graph fragment: # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%view, [1], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%view, %amax), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub,), kwargs = {}) triton_poi_fused__softmax_1 = async_compile.triton('triton_poi_fused__softmax_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_1(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 16 x2 = (xindex // 64) tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x0 + (64x2)), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (16 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (32 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (48 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + (x3), tmp9, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/jf/cjfzp64ny4hf7wdw5wptah3hqv5fcsh5rrw4brz7uxcy6ad57n7h.py # Topologically Sorted Source Nodes: [soft_assign_1], Original ATen: [aten._softmax] # Source node to ATen node mapping: # soft_assign_1 => div, sum_1 # Graph fragment: # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp, [1], True), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp, %sum_1), kwargs = {}) triton_poi_fused__softmax_2 = async_compile.triton('triton_poi_fused__softmax_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_2(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 16 x2 = (xindex // 64) tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x0 + (64x2)), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (16 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (32 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (48 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + (x3), tmp8, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/cm/ccm64w5nve7224ehrf2t7nmb3423xa5ailauyt5jrsvlr34i747m.py # Topologically Sorted Source Nodes: [residual, residual_1, vlad], Original ATen: [aten.sub, aten.mul, aten.sum] # Source node to ATen node mapping: # residual => sub_1 # residual_1 => mul # vlad => sum_2 # Graph fragment: # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%permute, %unsqueeze), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub_1, %unsqueeze_1), kwargs = {}) # %sum_2 : [num_users=3] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%mul, [-1]), kwargs = {}) triton_per_fused_mul_sub_sum_3 = async_compile.triton('triton_per_fused_mul_sub_sum_3', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[64, 16], reduction_hint=ReductionHint.DEFAULT, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32', 5: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_mul_sub_sum_3', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 3, 'num_reduction': 1, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_mul_sub_sum_3(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 64 rnumel = 16 RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) r3 = rindex x0 = xindex % 4 x2 = (xindex // 16) x4 = xindex % 16 x5 = (xindex // 4) x6 = xindex tmp0 = tl.load(in_ptr0 + (r3 + (16x0) + (64x2)), xmask, eviction_policy='evict_last', other=0.0) tmp1 = tl.load(in_ptr1 + (x4), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + (r3 + (16x5)), xmask, eviction_policy='evict_last', other=0.0) tmp2 = tmp0 - tmp1 tmp4 = tmp2 tmp3 tmp5 = tl.broadcast_to(tmp4, [XBLOCK, RBLOCK]) tmp7 = tl.where(xmask, tmp5, 0) tmp8 = tl.sum(tmp7, 1)[:, None] tl.store(out_ptr0 + (x6), tmp8, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/3a/c3ag4bxbcjywctbh7nvk2d6zv6x4t26e2pgpjjvdppwcaamf5j5j.py # Topologically Sorted Source Nodes: [vlad_1], Original ATen: [aten.div] # Source node to ATen node mapping: # vlad_1 => div_1 # Graph fragment: # %div_1 : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%sum_2, %expand_2), kwargs = {}) triton_poi_fused_div_4 = async_compile.triton('triton_poi_fused_div_4', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_div_4', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_div_4(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (4x1), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (1 + (4x1)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (2 + (4x1)), xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr0 + (3 + (4x1)), xmask, eviction_policy='evict_last') tmp2 = tmp1 * tmp1 tmp4 = tmp3 * tmp3 tmp5 = tmp2 + tmp4 tmp7 = tmp6 * tmp6 tmp8 = tmp5 + tmp7 tmp10 = tmp9 * tmp9 tmp11 = tmp8 + tmp10 tmp12 = libdevice.sqrt(tmp11) tmp13 = 1e-12 tmp14 = triton_helpers.maximum(tmp12, tmp13) tmp15 = tmp0 / tmp14 tl.store(out_ptr0 + (x2), tmp15, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4, 4, 1, 1), (4, 1, 1, 1)) assert_size_stride(primals_3, (4, ), (1, )) assert_size_stride(primals_4, (4, 4), (4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [conv2d], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(primals_1, primals_2, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 4, 4), (64, 16, 4, 1)) buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [conv2d], Original ATen: [aten.convolution] stream0 = get_raw_stream(0) triton_poi_fused_convolution_0.run(buf1, primals_3, 256, grid=grid(256), stream=stream0) del primals_3 buf2 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) # Topologically Sorted Source Nodes: [soft_assign_1], Original ATen: [aten._softmax] triton_poi_fused__softmax_1.run(buf1, buf2, 256, grid=grid(256), stream=stream0) buf3 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) # Topologically Sorted Source Nodes: [soft_assign_1], Original ATen: [aten._softmax] triton_poi_fused__softmax_2.run(buf2, buf3, 256, grid=grid(256), stream=stream0) del buf2 buf4 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [residual, residual_1, vlad], Original ATen: [aten.sub, aten.mul, aten.sum] triton_per_fused_mul_sub_sum_3.run(primals_1, primals_4, buf3, buf4, 64, 16, grid=grid(64), stream=stream0) del buf3 buf5 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [vlad_1], Original ATen: [aten.div] triton_poi_fused_div_4.run(buf4, buf5, 64, grid=grid(64), stream=stream0) return (reinterpret_tensor(buf5, (4, 16), (16, 1), 0), primals_1, primals_2, primals_4, buf1, buf4, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4, 1, 1), (4, 1, 1, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.nn.functional as F class NetVLAD(nn.Module): """NetVLAD layer implementation""" def __init__(self, num_clusters, dim, alpha=1.0): """ Args: num_clusters : int The number of clusters dim : int Dimension of descriptors alpha : float Parameter of initialization. Larger value is harder assignment. """ super(NetVLAD, self).__init__() self.num_clusters = num_clusters self.dim = dim self.alpha = alpha self.conv = nn.Conv2d(dim, num_clusters, kernel_size=(1, 1), bias=True) self.centroids = nn.Parameter(torch.rand(num_clusters, dim)) self._init_params() def _init_params(self): self.conv.weight = nn.Parameter((2.0 * self.alpha * self.centroids) .unsqueeze(-1).unsqueeze(-1)) self.conv.bias = nn.Parameter(-self.alpha * self.centroids.norm(dim=1)) def forward(self, x): N, C = x.shape[:2] soft_assign = self.conv(x).view(N, self.num_clusters, -1) soft_assign = F.softmax(soft_assign, dim=1) x_flatten = x.view(N, C, -1) residual = x_flatten.expand(self.num_clusters, -1, -1, -1).permute( 1, 0, 2, 3) - self.centroids.expand(x_flatten.size(-1), -1, -1 ).permute(1, 2, 0).unsqueeze(0) residual *= soft_assign.unsqueeze(2) vlad = residual.sum(dim=-1) vlad = F.normalize(vlad, p=2, dim=2) vlad = vlad.view(x.size(0), -1) return vlad def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'num_clusters': 4, 'dim': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_convolution_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl .constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = xindex // 16 % 4 tmp0 = tl.load(in_out_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + x1, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + x3, tmp2, xmask) @triton.jit def triton_poi_fused__softmax_1(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 16 x2 = xindex // 64 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + (x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp2 = tl.load(in_ptr0 + (16 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp4 = tl.load(in_ptr0 + (32 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp6 = tl.load(in_ptr0 + (48 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + x3, tmp9, xmask) @triton.jit def triton_poi_fused__softmax_2(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 16 x2 = xindex // 64 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + (x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp2 = tl.load(in_ptr0 + (16 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp4 = tl.load(in_ptr0 + (32 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp6 = tl.load(in_ptr0 + (48 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + x3, tmp8, xmask) @triton.jit def triton_per_fused_mul_sub_sum_3(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, rnumel, XBLOCK: tl.constexpr): xnumel = 64 RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] tl.full([XBLOCK, RBLOCK], True, tl.int1) r3 = rindex x0 = xindex % 4 x2 = xindex // 16 x4 = xindex % 16 x5 = xindex // 4 x6 = xindex tmp0 = tl.load(in_ptr0 + (r3 + 16 * x0 + 64 * x2), xmask, eviction_policy='evict_last', other=0.0) tmp1 = tl.load(in_ptr1 + x4, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + (r3 + 16 * x5), xmask, eviction_policy= 'evict_last', other=0.0) tmp2 = tmp0 - tmp1 tmp4 = tmp2 * tmp3 tmp5 = tl.broadcast_to(tmp4, [XBLOCK, RBLOCK]) tmp7 = tl.where(xmask, tmp5, 0) tmp8 = tl.sum(tmp7, 1)[:, None] tl.store(out_ptr0 + x6, tmp8, xmask) @triton.jit def triton_poi_fused_div_4(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + 4 * x1, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (1 + 4 * x1), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (2 + 4 * x1), xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr0 + (3 + 4 * x1), xmask, eviction_policy='evict_last') tmp2 = tmp1 * tmp1 tmp4 = tmp3 * tmp3 tmp5 = tmp2 + tmp4 tmp7 = tmp6 * tmp6 tmp8 = tmp5 + tmp7 tmp10 = tmp9 * tmp9 tmp11 = tmp8 + tmp10 tmp12 = libdevice.sqrt(tmp11) tmp13 = 1e-12 tmp14 = triton_helpers.maximum(tmp12, tmp13) tmp15 = tmp0 / tmp14 tl.store(out_ptr0 + x2, tmp15, xmask) def call(args): primals_1, primals_2, primals_3, primals_4 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4, 4, 1, 1), (4, 1, 1, 1)) assert_size_stride(primals_3, (4,), (1,)) assert_size_stride(primals_4, (4, 4), (4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(primals_1, primals_2, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 4, 4), (64, 16, 4, 1)) buf1 = buf0 del buf0 get_raw_stream(0) triton_poi_fused_convolution_0[grid(256)](buf1, primals_3, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_3 buf2 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) triton_poi_fused__softmax_1[grid(256)](buf1, buf2, 256, XBLOCK=256, num_warps=4, num_stages=1) buf3 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) triton_poi_fused__softmax_2[grid(256)](buf2, buf3, 256, XBLOCK=128, num_warps=4, num_stages=1) del buf2 buf4 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) triton_per_fused_mul_sub_sum_3[grid(64)](primals_1, primals_4, buf3, buf4, 64, 16, XBLOCK=1, num_warps=2, num_stages=1) del buf3 buf5 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) triton_poi_fused_div_4[grid(64)](buf4, buf5, 64, XBLOCK=64, num_warps=1, num_stages=1) return reinterpret_tensor(buf5, (4, 16), (16, 1), 0 ), primals_1, primals_2, primals_4, buf1, buf4 class NetVLADNew(nn.Module): """NetVLAD layer implementation""" def __init__(self, num_clusters, dim, alpha=1.0): """ Args: num_clusters : int The number of clusters dim : int Dimension of descriptors alpha : float Parameter of initialization. Larger value is harder assignment. """ super(NetVLADNew, self).__init__() self.num_clusters = num_clusters self.dim = dim self.alpha = alpha self.conv = nn.Conv2d(dim, num_clusters, kernel_size=(1, 1), bias=True) self.centroids = nn.Parameter(torch.rand(num_clusters, dim)) self._init_params() def _init_params(self): self.conv.weight = nn.Parameter((2.0 * self.alpha * self.centroids) .unsqueeze(-1).unsqueeze(-1)) self.conv.bias = nn.Parameter(-self.alpha * self.centroids.norm(dim=1)) def forward(self, input_0): primals_4 = self.centroids primals_2 = self.conv.weight primals_3 = self.conv.bias primals_1 = input_0 output = call([primals_1, primals_2, primals_3, primals_4]) return output[0]	Guido27/project_vg	NetVLAD	false	9,132	[ "MIT" ]	3322fc355742929f43f3d97204398035645d968c	https://github.com/Guido27/project_vg/tree/3322fc355742929f43f3d97204398035645d968c
LocalNet	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/we/cwerb6bh4wkw66tuuogvvdhshhz6u3cw5s3a4jqb23ftxyfx5pg2.py # Topologically Sorted Source Nodes: [pad], Original ATen: [aten.reflection_pad2d] # Source node to ATen node mapping: # pad => _unsafe_index, _unsafe_index_1 # Graph fragment: # %_unsafe_index : [num_users=1] = call_function[target=torch.ops.aten._unsafe_index.Tensor](args = (%primals_1, [None, None, %sub_1, None]), kwargs = {}) # %_unsafe_index_1 : [num_users=2] = call_function[target=torch.ops.aten._unsafe_index.Tensor](args = (%_unsafe_index, [None, None, None, %sub_1]), kwargs = {}) triton_poi_fused_reflection_pad2d_0 = async_compile.triton('triton_poi_fused_reflection_pad2d_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[4096], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_reflection_pad2d_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_reflection_pad2d_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 2304 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 6 x1 = (xindex // 6) % 6 x2 = (xindex // 36) x3 = xindex tmp0 = tl.load(in_ptr0 + (15 + ((-1)(tl_math.abs((-3) + (tl_math.abs((-1) + x0))))) + ((-4)(tl_math.abs((-3) + (tl_math.abs((-1) + x1))))) + (16x2)), xmask, eviction_policy='evict_last') tl.store(out_ptr0 + (x3), tmp0, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/gd/cgdqnufkmolkhmahgpirghlilfdhf2tzbnkmaswr2jaio34ke2tp.py # Topologically Sorted Source Nodes: [conv2d, x], Original ATen: [aten.convolution, aten.leaky_relu] # Source node to ATen node mapping: # conv2d => convolution # x => gt # Graph fragment: # %convolution : [num_users=3] = call_function[target=torch.ops.aten.convolution.default](args = (%_unsafe_index_1, %primals_2, %primals_3, [1, 1], [0, 0], [1, 1], False, [0, 0], 1), kwargs = {}) # %gt : [num_users=2] = call_function[target=torch.ops.aten.gt.Scalar](args = (%convolution, 0), kwargs = {}) triton_poi_fused_convolution_leaky_relu_1 = async_compile.triton('triton_poi_fused_convolution_leaky_relu_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[4096], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i1', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_leaky_relu_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_leaky_relu_1(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 4096 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x3 = xindex x1 = (xindex // 16) % 64 tmp0 = tl.load(in_ptr0 + (x3), None) tmp1 = tl.load(in_ptr1 + (x1), None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = tmp2 > tmp3 tl.store(out_ptr0 + (x3), tmp4, None) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/4h/c4hp7y3t3avb7y4kdpd3qny63wnyjqlzzqqpgqgesca5dwxpwjbq.py # Topologically Sorted Source Nodes: [conv2d, x, pad_1], Original ATen: [aten.convolution, aten.leaky_relu, aten.reflection_pad2d] # Source node to ATen node mapping: # conv2d => convolution # pad_1 => _unsafe_index_2, _unsafe_index_3 # x => mul, where # Graph fragment: # %convolution : [num_users=3] = call_function[target=torch.ops.aten.convolution.default](args = (%_unsafe_index_1, %primals_2, %primals_3, [1, 1], [0, 0], [1, 1], False, [0, 0], 1), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%convolution, 0.01), kwargs = {}) # %where : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%gt, %convolution, %mul), kwargs = {}) # %_unsafe_index_2 : [num_users=1] = call_function[target=torch.ops.aten._unsafe_index.Tensor](args = (%where, [None, None, %sub_1, None]), kwargs = {}) # %_unsafe_index_3 : [num_users=2] = call_function[target=torch.ops.aten._unsafe_index.Tensor](args = (%_unsafe_index_2, [None, None, None, %sub_1]), kwargs = {}) triton_poi_fused_convolution_leaky_relu_reflection_pad2d_2 = async_compile.triton('triton_poi_fused_convolution_leaky_relu_reflection_pad2d_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16384], filename=__file__, triton_meta={'signature': {0: 'i1', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_leaky_relu_reflection_pad2d_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 3, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_leaky_relu_reflection_pad2d_2(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 9216 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 6 x1 = (xindex // 6) % 6 x4 = (xindex // 36) x2 = (xindex // 36) % 64 x5 = xindex tmp0 = tl.load(in_ptr0 + (15 + ((-1)(tl_math.abs((-3) + (tl_math.abs((-1) + x0))))) + ((-4)(tl_math.abs((-3) + (tl_math.abs((-1) + x1))))) + (16x4)), xmask, eviction_policy='evict_last').to(tl.int1) tmp1 = tl.load(in_ptr1 + (15 + ((-1)(tl_math.abs((-3) + (tl_math.abs((-1) + x0))))) + ((-4)(tl_math.abs((-3) + (tl_math.abs((-1) + x1))))) + (16x4)), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr2 + (x2), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp4 = 0.01 tmp5 = tmp3 * tmp4 tmp6 = tl.where(tmp0, tmp3, tmp5) tl.store(out_ptr0 + (x5), tmp6, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/tz/ctz2qoenjoyo6tyt4vbajmakep7el2x5bm5bjwz5dxrqesj5uyf2.py # Topologically Sorted Source Nodes: [conv2d_1, x_1], Original ATen: [aten.convolution, aten.leaky_relu] # Source node to ATen node mapping: # conv2d_1 => convolution_1 # x_1 => gt_1, mul_1, where_1 # Graph fragment: # %convolution_1 : [num_users=3] = call_function[target=torch.ops.aten.convolution.default](args = (%_unsafe_index_3, %primals_4, %primals_5, [1, 1], [0, 0], [1, 1], False, [0, 0], 1), kwargs = {}) # %gt_1 : [num_users=2] = call_function[target=torch.ops.aten.gt.Scalar](args = (%convolution_1, 0), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%convolution_1, 0.01), kwargs = {}) # %where_1 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%gt_1, %convolution_1, %mul_1), kwargs = {}) triton_poi_fused_convolution_leaky_relu_3 = async_compile.triton('triton_poi_fused_convolution_leaky_relu_3', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[4096], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i1', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_leaky_relu_3', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_leaky_relu_3(in_ptr0, in_ptr1, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 4096 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x3 = xindex x1 = (xindex // 16) % 64 tmp0 = tl.load(in_ptr0 + (x3), None) tmp1 = tl.load(in_ptr1 + (x1), None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = tmp2 > tmp3 tmp5 = 0.01 tmp6 = tmp2 * tmp5 tmp7 = tl.where(tmp4, tmp2, tmp6) tl.store(out_ptr0 + (x3), tmp4, None) tl.store(out_ptr1 + (x3), tmp7, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (4, 16, 4, 4), (256, 16, 4, 1)) assert_size_stride(primals_2, (64, 16, 3, 3), (144, 9, 3, 1)) assert_size_stride(primals_3, (64, ), (1, )) assert_size_stride(primals_4, (64, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_5, (64, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 16, 6, 6), (576, 36, 6, 1), torch.float32) # Topologically Sorted Source Nodes: [pad], Original ATen: [aten.reflection_pad2d] stream0 = get_raw_stream(0) triton_poi_fused_reflection_pad2d_0.run(primals_1, buf0, 2304, grid=grid(2304), stream=stream0) del primals_1 # Topologically Sorted Source Nodes: [conv2d], Original ATen: [aten.convolution] buf1 = extern_kernels.convolution(buf0, primals_2, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf1, (4, 64, 4, 4), (1024, 16, 4, 1)) buf2 = empty_strided_cuda((4, 64, 4, 4), (1024, 16, 4, 1), torch.bool) # Topologically Sorted Source Nodes: [conv2d, x], Original ATen: [aten.convolution, aten.leaky_relu] triton_poi_fused_convolution_leaky_relu_1.run(buf1, primals_3, buf2, 4096, grid=grid(4096), stream=stream0) buf3 = empty_strided_cuda((4, 64, 6, 6), (2304, 36, 6, 1), torch.float32) # Topologically Sorted Source Nodes: [conv2d, x, pad_1], Original ATen: [aten.convolution, aten.leaky_relu, aten.reflection_pad2d] triton_poi_fused_convolution_leaky_relu_reflection_pad2d_2.run(buf2, buf1, primals_3, buf3, 9216, grid=grid(9216), stream=stream0) del primals_3 # Topologically Sorted Source Nodes: [conv2d_1], Original ATen: [aten.convolution] buf4 = extern_kernels.convolution(buf3, primals_4, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf4, (4, 64, 4, 4), (1024, 16, 4, 1)) buf5 = empty_strided_cuda((4, 64, 4, 4), (1024, 16, 4, 1), torch.bool) buf6 = buf1; del buf1 # reuse # Topologically Sorted Source Nodes: [conv2d_1, x_1], Original ATen: [aten.convolution, aten.leaky_relu] triton_poi_fused_convolution_leaky_relu_3.run(buf4, primals_5, buf5, buf6, 4096, grid=grid(4096), stream=stream0) del buf4 del primals_5 return (buf6, primals_2, primals_4, buf0, buf2, buf3, buf5, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 16, 4, 4), (256, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((64, 16, 3, 3), (144, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((64, ), (1, ), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((64, 64, 3, 3), (576, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((64, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class LocalNet(nn.Module): def forward(self, x_in): """Defines a double convolution :param x_in: input convolutional features :returns: convolutional features :rtype: Tensor """ x = self.lrelu(self.conv1(self.refpad(x_in))) x = self.lrelu(self.conv2(self.refpad(x))) return x def __init__(self, in_channels=16, out_channels=64): """Initialisation function :param in_channels: number of input channels :param out_channels: number of output channels :returns: N/A :rtype: N/A """ super(LocalNet, self).__init__() self.conv1 = nn.Conv2d(in_channels, out_channels, 3, 1, 0, 1) self.conv2 = nn.Conv2d(out_channels, out_channels, 3, 1, 0, 1) self.lrelu = nn.LeakyReLU() self.refpad = nn.ReflectionPad2d(1) def get_inputs(): return [torch.rand([4, 16, 4, 4])] def get_init_inputs(): return [[], {}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import math as tl_math import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_reflection_pad2d_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 2304 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 6 x1 = xindex // 6 % 6 x2 = xindex // 36 x3 = xindex tmp0 = tl.load(in_ptr0 + (15 + -1 * tl_math.abs(-3 + tl_math.abs(-1 + x0)) + -4 * tl_math.abs(-3 + tl_math.abs(-1 + x1)) + 16 * x2), xmask, eviction_policy='evict_last') tl.store(out_ptr0 + x3, tmp0, xmask) @triton.jit def triton_poi_fused_convolution_leaky_relu_1(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x3 = xindex x1 = xindex // 16 % 64 tmp0 = tl.load(in_ptr0 + x3, None) tmp1 = tl.load(in_ptr1 + x1, None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = tmp2 > tmp3 tl.store(out_ptr0 + x3, tmp4, None) @triton.jit def triton_poi_fused_convolution_leaky_relu_reflection_pad2d_2(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 9216 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 6 x1 = xindex // 6 % 6 x4 = xindex // 36 x2 = xindex // 36 % 64 x5 = xindex tmp0 = tl.load(in_ptr0 + (15 + -1 * tl_math.abs(-3 + tl_math.abs(-1 + x0)) + -4 * tl_math.abs(-3 + tl_math.abs(-1 + x1)) + 16 * x4), xmask, eviction_policy='evict_last').to(tl.int1) tmp1 = tl.load(in_ptr1 + (15 + -1 * tl_math.abs(-3 + tl_math.abs(-1 + x0)) + -4 * tl_math.abs(-3 + tl_math.abs(-1 + x1)) + 16 * x4), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr2 + x2, xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp4 = 0.01 tmp5 = tmp3 * tmp4 tmp6 = tl.where(tmp0, tmp3, tmp5) tl.store(out_ptr0 + x5, tmp6, xmask) @triton.jit def triton_poi_fused_convolution_leaky_relu_3(in_ptr0, in_ptr1, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x3 = xindex x1 = xindex // 16 % 64 tmp0 = tl.load(in_ptr0 + x3, None) tmp1 = tl.load(in_ptr1 + x1, None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = tmp2 > tmp3 tmp5 = 0.01 tmp6 = tmp2 * tmp5 tmp7 = tl.where(tmp4, tmp2, tmp6) tl.store(out_ptr0 + x3, tmp4, None) tl.store(out_ptr1 + x3, tmp7, None) def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (4, 16, 4, 4), (256, 16, 4, 1)) assert_size_stride(primals_2, (64, 16, 3, 3), (144, 9, 3, 1)) assert_size_stride(primals_3, (64,), (1,)) assert_size_stride(primals_4, (64, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_5, (64,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 16, 6, 6), (576, 36, 6, 1), torch.float32 ) get_raw_stream(0) triton_poi_fused_reflection_pad2d_0[grid(2304)](primals_1, buf0, 2304, XBLOCK=256, num_warps=4, num_stages=1) del primals_1 buf1 = extern_kernels.convolution(buf0, primals_2, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf1, (4, 64, 4, 4), (1024, 16, 4, 1)) buf2 = empty_strided_cuda((4, 64, 4, 4), (1024, 16, 4, 1), torch.bool) triton_poi_fused_convolution_leaky_relu_1[grid(4096)](buf1, primals_3, buf2, 4096, XBLOCK=256, num_warps=4, num_stages=1) buf3 = empty_strided_cuda((4, 64, 6, 6), (2304, 36, 6, 1), torch. float32) triton_poi_fused_convolution_leaky_relu_reflection_pad2d_2[grid(9216)]( buf2, buf1, primals_3, buf3, 9216, XBLOCK=256, num_warps=4, num_stages=1) del primals_3 buf4 = extern_kernels.convolution(buf3, primals_4, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf4, (4, 64, 4, 4), (1024, 16, 4, 1)) buf5 = empty_strided_cuda((4, 64, 4, 4), (1024, 16, 4, 1), torch.bool) buf6 = buf1 del buf1 triton_poi_fused_convolution_leaky_relu_3[grid(4096)](buf4, primals_5, buf5, buf6, 4096, XBLOCK=128, num_warps=4, num_stages=1) del buf4 del primals_5 return buf6, primals_2, primals_4, buf0, buf2, buf3, buf5 class LocalNetNew(nn.Module): def __init__(self, in_channels=16, out_channels=64): """Initialisation function :param in_channels: number of input channels :param out_channels: number of output channels :returns: N/A :rtype: N/A """ super(LocalNetNew, self).__init__() self.conv1 = nn.Conv2d(in_channels, out_channels, 3, 1, 0, 1) self.conv2 = nn.Conv2d(out_channels, out_channels, 3, 1, 0, 1) self.lrelu = nn.LeakyReLU() self.refpad = nn.ReflectionPad2d(1) def forward(self, input_0): primals_2 = self.conv1.weight primals_3 = self.conv1.bias primals_4 = self.conv2.weight primals_5 = self.conv2.bias primals_1 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5]) return output[0]	DevilMayNotCry/My_curl	LocalNet	false	9,133	[ "BSD-3-Clause" ]	a8f65a3e58cbdeefb4679aa2f0c3d9d800b67381	https://github.com/DevilMayNotCry/My_curl/tree/a8f65a3e58cbdeefb4679aa2f0c3d9d800b67381
TReLU	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/py/cpyzadjwmhrswle2fe2xnqc4ovcx6ej5wf6x5qrio2i2w7v2ppfk.py # Topologically Sorted Source Nodes: [sub, relu, x], Original ATen: [aten.sub, aten.relu, aten.add, aten.threshold_backward] # Source node to ATen node mapping: # relu => relu # sub => sub # x => add # Graph fragment: # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%primals_2, %primals_1), kwargs = {}) # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%sub,), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%relu, %primals_1), kwargs = {}) # %le : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu, 0), kwargs = {}) triton_poi_fused_add_relu_sub_threshold_backward_0 = async_compile.triton('triton_poi_fused_add_relu_sub_threshold_backward_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i1', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_relu_sub_threshold_backward_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_relu_sub_threshold_backward_0(in_ptr0, in_ptr1, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = tl.load(in_ptr1 + (0)) tmp2 = tl.broadcast_to(tmp1, [XBLOCK]) tmp3 = tmp0 - tmp2 tmp4 = tl.full([1], 0, tl.int32) tmp5 = triton_helpers.maximum(tmp4, tmp3) tmp6 = tmp5 + tmp2 tmp7 = 0.0 tmp8 = tmp5 <= tmp7 tl.store(out_ptr0 + (x0), tmp6, xmask) tl.store(out_ptr1 + (x0), tmp8, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2 = args args.clear() assert_size_stride(primals_1, (1, ), (1, )) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) # Topologically Sorted Source Nodes: [sub, relu, x], Original ATen: [aten.sub, aten.relu, aten.add, aten.threshold_backward] stream0 = get_raw_stream(0) triton_poi_fused_add_relu_sub_threshold_backward_0.run(primals_2, primals_1, buf0, buf1, 256, grid=grid(256), stream=stream0) del primals_1 del primals_2 return (buf0, buf1, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((1, ), (1, ), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.nn.functional as F class TReLU(nn.Module): def __init__(self): super(TReLU, self).__init__() self.alpha = nn.Parameter(torch.FloatTensor(1), requires_grad=True) self.alpha.data.fill_(0) def forward(self, x): x = F.relu(x - self.alpha) + self.alpha return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_add_relu_sub_threshold_backward_0(in_ptr0, in_ptr1, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = tl.load(in_ptr1 + 0) tmp2 = tl.broadcast_to(tmp1, [XBLOCK]) tmp3 = tmp0 - tmp2 tmp4 = tl.full([1], 0, tl.int32) tmp5 = triton_helpers.maximum(tmp4, tmp3) tmp6 = tmp5 + tmp2 tmp7 = 0.0 tmp8 = tmp5 <= tmp7 tl.store(out_ptr0 + x0, tmp6, xmask) tl.store(out_ptr1 + x0, tmp8, xmask) def call(args): primals_1, primals_2 = args args.clear() assert_size_stride(primals_1, (1,), (1,)) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) get_raw_stream(0) triton_poi_fused_add_relu_sub_threshold_backward_0[grid(256)](primals_2 , primals_1, buf0, buf1, 256, XBLOCK=256, num_warps=4, num_stages=1 ) del primals_1 del primals_2 return buf0, buf1 class TReLUNew(nn.Module): def __init__(self): super(TReLUNew, self).__init__() self.alpha = nn.Parameter(torch.FloatTensor(1), requires_grad=True) self.alpha.data.fill_(0) def forward(self, input_0): primals_1 = self.alpha primals_2 = input_0 output = call([primals_1, primals_2]) return output[0]	HenryOsborne/LearningToPaint	TReLU	false	9,134	[ "MIT" ]	d8fdf41c8d193b91c78f73b7a092897e846e19eb	https://github.com/HenryOsborne/LearningToPaint/tree/d8fdf41c8d193b91c78f73b7a092897e846e19eb
DCGANGenerator_mnist	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/5e/c5ehnpzqdc7mhphgkqo4i3oou7srfelncenyblormj6cgjc4e3qd.py # Topologically Sorted Source Nodes: [input_2], Original ATen: [aten.leaky_relu] # Source node to ATen node mapping: # input_2 => gt, mul, where # Graph fragment: # %gt : [num_users=2] = call_function[target=torch.ops.aten.gt.Scalar](args = (%mm, 0), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mm, 0.2), kwargs = {}) # %where : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%gt, %mm, %mul), kwargs = {}) triton_poi_fused_leaky_relu_0 = async_compile.triton('triton_poi_fused_leaky_relu_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[1024], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'i1', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_leaky_relu_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_leaky_relu_0(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 1024 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = 0.0 tmp2 = tmp0 > tmp1 tmp3 = 0.2 tmp4 = tmp0 * tmp3 tmp5 = tl.where(tmp2, tmp0, tmp4) tl.store(out_ptr0 + (x0), tmp2, xmask) tl.store(out_ptr1 + (x0), tmp5, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/kc/ckchl2fcn4qbavyhisqqlkodz7rsf6vkggqctr7auljdjzt3cz3d.py # Topologically Sorted Source Nodes: [input_4], Original ATen: [aten.leaky_relu] # Source node to ATen node mapping: # input_4 => gt_1, mul_1, where_1 # Graph fragment: # %gt_1 : [num_users=2] = call_function[target=torch.ops.aten.gt.Scalar](args = (%mm_1, 0), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mm_1, 0.2), kwargs = {}) # %where_1 : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%gt_1, %mm_1, %mul_1), kwargs = {}) triton_poi_fused_leaky_relu_1 = async_compile.triton('triton_poi_fused_leaky_relu_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[2048], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'i1', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_leaky_relu_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_leaky_relu_1(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 2048 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), None) tmp1 = 0.0 tmp2 = tmp0 > tmp1 tmp3 = 0.2 tmp4 = tmp0 * tmp3 tmp5 = tl.where(tmp2, tmp0, tmp4) tl.store(out_ptr0 + (x0), tmp2, None) tl.store(out_ptr1 + (x0), tmp5, None) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/ap/capputshhaddkhcukzijl7e7uru52ybch5indnrni4id5vb7nxut.py # Topologically Sorted Source Nodes: [input_6], Original ATen: [aten.leaky_relu] # Source node to ATen node mapping: # input_6 => gt_2, mul_2, where_2 # Graph fragment: # %gt_2 : [num_users=2] = call_function[target=torch.ops.aten.gt.Scalar](args = (%mm_2, 0), kwargs = {}) # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mm_2, 0.2), kwargs = {}) # %where_2 : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%gt_2, %mm_2, %mul_2), kwargs = {}) triton_poi_fused_leaky_relu_2 = async_compile.triton('triton_poi_fused_leaky_relu_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[4096], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'i1', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_leaky_relu_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_leaky_relu_2(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 4096 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), None) tmp1 = 0.0 tmp2 = tmp0 > tmp1 tmp3 = 0.2 tmp4 = tmp0 * tmp3 tmp5 = tl.where(tmp2, tmp0, tmp4) tl.store(out_ptr0 + (x0), tmp2, None) tl.store(out_ptr1 + (x0), tmp5, None) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/nu/cnudiqa7ldo7zwv7c46jtaywfhr2btxm4hvnpsmqofu6sidtmbm4.py # Topologically Sorted Source Nodes: [input_8], Original ATen: [aten.tanh, aten.tanh_backward] # Source node to ATen node mapping: # input_8 => tanh # Graph fragment: # %tanh : [num_users=2] = call_function[target=torch.ops.aten.tanh.default](args = (%mm_3,), kwargs = {}) # %mul_3 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%tanh, %tanh), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (1, %mul_3), kwargs = {}) triton_poi_fused_tanh_tanh_backward_3 = async_compile.triton('triton_poi_fused_tanh_tanh_backward_3', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[4096], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_tanh_tanh_backward_3', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_tanh_tanh_backward_3(in_out_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 3136 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_out_ptr0 + (x0), xmask) tmp1 = libdevice.tanh(tmp0) tmp2 = tmp1 * tmp1 tmp3 = 1.0 tmp4 = tmp3 - tmp2 tl.store(in_out_ptr0 + (x0), tmp1, xmask) tl.store(out_ptr0 + (x0), tmp4, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (256, 4), (4, 1)) assert_size_stride(primals_3, (512, 256), (256, 1)) assert_size_stride(primals_4, (1024, 512), (512, 1)) assert_size_stride(primals_5, (784, 1024), (1024, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 256), (256, 1), torch.float32) # Topologically Sorted Source Nodes: [input_1], Original ATen: [aten.mm] extern_kernels.mm(primals_1, reinterpret_tensor(primals_2, (4, 256), (1, 4), 0), out=buf0) del primals_2 buf1 = empty_strided_cuda((4, 256), (256, 1), torch.bool) buf2 = empty_strided_cuda((4, 256), (256, 1), torch.float32) # Topologically Sorted Source Nodes: [input_2], Original ATen: [aten.leaky_relu] stream0 = get_raw_stream(0) triton_poi_fused_leaky_relu_0.run(buf0, buf1, buf2, 1024, grid=grid(1024), stream=stream0) del buf0 buf3 = empty_strided_cuda((4, 512), (512, 1), torch.float32) # Topologically Sorted Source Nodes: [input_3], Original ATen: [aten.mm] extern_kernels.mm(buf2, reinterpret_tensor(primals_3, (256, 512), (1, 256), 0), out=buf3) buf4 = empty_strided_cuda((4, 512), (512, 1), torch.bool) buf5 = empty_strided_cuda((4, 512), (512, 1), torch.float32) # Topologically Sorted Source Nodes: [input_4], Original ATen: [aten.leaky_relu] triton_poi_fused_leaky_relu_1.run(buf3, buf4, buf5, 2048, grid=grid(2048), stream=stream0) del buf3 buf6 = empty_strided_cuda((4, 1024), (1024, 1), torch.float32) # Topologically Sorted Source Nodes: [input_5], Original ATen: [aten.mm] extern_kernels.mm(buf5, reinterpret_tensor(primals_4, (512, 1024), (1, 512), 0), out=buf6) buf7 = empty_strided_cuda((4, 1024), (1024, 1), torch.bool) buf8 = empty_strided_cuda((4, 1024), (1024, 1), torch.float32) # Topologically Sorted Source Nodes: [input_6], Original ATen: [aten.leaky_relu] triton_poi_fused_leaky_relu_2.run(buf6, buf7, buf8, 4096, grid=grid(4096), stream=stream0) del buf6 buf9 = empty_strided_cuda((4, 784), (784, 1), torch.float32) # Topologically Sorted Source Nodes: [input_7], Original ATen: [aten.mm] extern_kernels.mm(buf8, reinterpret_tensor(primals_5, (1024, 784), (1, 1024), 0), out=buf9) buf10 = buf9; del buf9 # reuse buf11 = empty_strided_cuda((4, 784), (784, 1), torch.float32) # Topologically Sorted Source Nodes: [input_8], Original ATen: [aten.tanh, aten.tanh_backward] triton_poi_fused_tanh_tanh_backward_3.run(buf10, buf11, 3136, grid=grid(3136), stream=stream0) return (reinterpret_tensor(buf10, (4, 1, 28, 28), (784, 784, 28, 1), 0), primals_1, buf1, buf2, buf4, buf5, buf7, buf8, buf11, primals_5, primals_4, primals_3, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((256, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((512, 256), (256, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((1024, 512), (512, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((784, 1024), (1024, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import functools import torch import torch.utils.data import torch import torch.nn as nn class DCGANGenerator_mnist(nn.Module): def __init__(self, z_dim, ngf=64, output_nc=1, norm_layer=nn.BatchNorm2d): super(DCGANGenerator_mnist, self).__init__() self.z_dim = z_dim self.ngf = ngf self.img_size = 28 * 28 * output_nc if type(norm_layer) == functools.partial: use_bias = norm_layer.func != nn.BatchNorm2d else: use_bias = norm_layer != nn.BatchNorm2d self.fc1 = nn.Linear(self.z_dim, 256, bias=use_bias) self.fc2 = nn.Linear(self.fc1.out_features, self.fc1.out_features * 2, bias=use_bias) self.fc3 = nn.Linear(self.fc2.out_features, self.fc2.out_features * 2, bias=use_bias) self.fc4 = nn.Linear(self.fc3.out_features, self.img_size, bias= use_bias) self.model = nn.Sequential(self.fc1, nn.LeakyReLU(negative_slope= 0.2), self.fc2, nn.LeakyReLU(negative_slope=0.2), self.fc3, nn. LeakyReLU(negative_slope=0.2), self.fc4, nn.Tanh()) def forward(self, noise): img = self.model(noise.view(noise.shape[0], -1)) return img.view(noise.shape[0], 1, 28, 28) def get_inputs(): return [torch.rand([4, 4])] def get_init_inputs(): return [[], {'z_dim': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import libdevice import functools import torch.utils.data import torch import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_leaky_relu_0(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 1024 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = 0.0 tmp2 = tmp0 > tmp1 tmp3 = 0.2 tmp4 = tmp0 * tmp3 tmp5 = tl.where(tmp2, tmp0, tmp4) tl.store(out_ptr0 + x0, tmp2, xmask) tl.store(out_ptr1 + x0, tmp5, xmask) @triton.jit def triton_poi_fused_leaky_relu_1(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x0 = xindex tmp0 = tl.load(in_ptr0 + x0, None) tmp1 = 0.0 tmp2 = tmp0 > tmp1 tmp3 = 0.2 tmp4 = tmp0 * tmp3 tmp5 = tl.where(tmp2, tmp0, tmp4) tl.store(out_ptr0 + x0, tmp2, None) tl.store(out_ptr1 + x0, tmp5, None) @triton.jit def triton_poi_fused_leaky_relu_2(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x0 = xindex tmp0 = tl.load(in_ptr0 + x0, None) tmp1 = 0.0 tmp2 = tmp0 > tmp1 tmp3 = 0.2 tmp4 = tmp0 * tmp3 tmp5 = tl.where(tmp2, tmp0, tmp4) tl.store(out_ptr0 + x0, tmp2, None) tl.store(out_ptr1 + x0, tmp5, None) @triton.jit def triton_poi_fused_tanh_tanh_backward_3(in_out_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 3136 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_out_ptr0 + x0, xmask) tmp1 = libdevice.tanh(tmp0) tmp2 = tmp1 * tmp1 tmp3 = 1.0 tmp4 = tmp3 - tmp2 tl.store(in_out_ptr0 + x0, tmp1, xmask) tl.store(out_ptr0 + x0, tmp4, xmask) def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (256, 4), (4, 1)) assert_size_stride(primals_3, (512, 256), (256, 1)) assert_size_stride(primals_4, (1024, 512), (512, 1)) assert_size_stride(primals_5, (784, 1024), (1024, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 256), (256, 1), torch.float32) extern_kernels.mm(primals_1, reinterpret_tensor(primals_2, (4, 256), (1, 4), 0), out=buf0) del primals_2 buf1 = empty_strided_cuda((4, 256), (256, 1), torch.bool) buf2 = empty_strided_cuda((4, 256), (256, 1), torch.float32) get_raw_stream(0) triton_poi_fused_leaky_relu_0[grid(1024)](buf0, buf1, buf2, 1024, XBLOCK=128, num_warps=4, num_stages=1) del buf0 buf3 = empty_strided_cuda((4, 512), (512, 1), torch.float32) extern_kernels.mm(buf2, reinterpret_tensor(primals_3, (256, 512), ( 1, 256), 0), out=buf3) buf4 = empty_strided_cuda((4, 512), (512, 1), torch.bool) buf5 = empty_strided_cuda((4, 512), (512, 1), torch.float32) triton_poi_fused_leaky_relu_1[grid(2048)](buf3, buf4, buf5, 2048, XBLOCK=128, num_warps=4, num_stages=1) del buf3 buf6 = empty_strided_cuda((4, 1024), (1024, 1), torch.float32) extern_kernels.mm(buf5, reinterpret_tensor(primals_4, (512, 1024), (1, 512), 0), out=buf6) buf7 = empty_strided_cuda((4, 1024), (1024, 1), torch.bool) buf8 = empty_strided_cuda((4, 1024), (1024, 1), torch.float32) triton_poi_fused_leaky_relu_2[grid(4096)](buf6, buf7, buf8, 4096, XBLOCK=256, num_warps=4, num_stages=1) del buf6 buf9 = empty_strided_cuda((4, 784), (784, 1), torch.float32) extern_kernels.mm(buf8, reinterpret_tensor(primals_5, (1024, 784), (1, 1024), 0), out=buf9) buf10 = buf9 del buf9 buf11 = empty_strided_cuda((4, 784), (784, 1), torch.float32) triton_poi_fused_tanh_tanh_backward_3[grid(3136)](buf10, buf11, 3136, XBLOCK=256, num_warps=4, num_stages=1) return (reinterpret_tensor(buf10, (4, 1, 28, 28), (784, 784, 28, 1), 0), primals_1, buf1, buf2, buf4, buf5, buf7, buf8, buf11, primals_5, primals_4, primals_3) class DCGANGenerator_mnistNew(nn.Module): def __init__(self, z_dim, ngf=64, output_nc=1, norm_layer=nn.BatchNorm2d): super(DCGANGenerator_mnistNew, self).__init__() self.z_dim = z_dim self.ngf = ngf self.img_size = 28 * 28 * output_nc if type(norm_layer) == functools.partial: use_bias = norm_layer.func != nn.BatchNorm2d else: use_bias = norm_layer != nn.BatchNorm2d self.fc1 = nn.Linear(self.z_dim, 256, bias=use_bias) self.fc2 = nn.Linear(self.fc1.out_features, self.fc1.out_features * 2, bias=use_bias) self.fc3 = nn.Linear(self.fc2.out_features, self.fc2.out_features * 2, bias=use_bias) self.fc4 = nn.Linear(self.fc3.out_features, self.img_size, bias= use_bias) self.model = nn.Sequential(self.fc1, nn.LeakyReLU(negative_slope= 0.2), self.fc2, nn.LeakyReLU(negative_slope=0.2), self.fc3, nn. LeakyReLU(negative_slope=0.2), self.fc4, nn.Tanh()) def forward(self, input_0): primals_2 = self.fc1.weight primals_3 = self.fc2.weight primals_4 = self.fc3.weight primals_5 = self.fc4.weight primals_1 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5]) return output[0]	Gabriele91/EvolutionaryGAN-pytorch	DCGANGenerator_mnist	false	9,135	[ "MIT" ]	993cb13551908727e52aef738f8954072b5b398a	https://github.com/Gabriele91/EvolutionaryGAN-pytorch/tree/993cb13551908727e52aef738f8954072b5b398a
LinearAttentionLayer	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/vl/cvle5osmyghpxk2pin4sxeeclrahm5putsp4ne6dffhyumijovq5.py # Topologically Sorted Source Nodes: [eq], Original ATen: [aten.eq] # Source node to ATen node mapping: # eq => eq # Graph fragment: # %eq : [num_users=2] = call_function[target=torch.ops.aten.eq.Scalar](args = (%primals_4, 1), kwargs = {}) triton_poi_fused_eq_0 = async_compile.triton('triton_poi_fused_eq_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'i1', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_eq_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_eq_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = 1.0 tmp2 = tmp0 == tmp1 tl.store(out_ptr0 + (x0), tmp2, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/v4/cv4lkzbqtc5n5iyaraeuywvfvxyls3nutfo4p2rrccgn23z7ktmz.py # Topologically Sorted Source Nodes: [attn_scores_2, alpha], Original ATen: [aten.masked_fill, aten._softmax] # Source node to ATen node mapping: # alpha => amax, exp, sub, sum_1 # attn_scores_2 => full_default, where # Graph fragment: # %full_default : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], -inf), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%eq, %full_default, %view_1), kwargs = {}) # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%where, [1], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%where, %amax), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub,), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp, [1], True), kwargs = {}) triton_poi_fused__softmax_masked_fill_1 = async_compile.triton('triton_poi_fused__softmax_masked_fill_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'i1', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_masked_fill_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 9, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_masked_fill_1(in_ptr0, in_ptr1, in_ptr2, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = (xindex // 4) x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + (16x1)), xmask).to(tl.int1) tmp1 = tl.load(in_ptr1 + (x0), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr2 + (0)) tmp3 = tl.broadcast_to(tmp2, [XBLOCK]) tmp7 = tl.load(in_ptr0 + (4 + x0 + (16x1)), xmask).to(tl.int1) tmp8 = tl.load(in_ptr1 + (4 + x0), xmask, eviction_policy='evict_last') tmp12 = tl.load(in_ptr0 + (8 + x0 + (16x1)), xmask).to(tl.int1) tmp13 = tl.load(in_ptr1 + (8 + x0), xmask, eviction_policy='evict_last') tmp17 = tl.load(in_ptr0 + (12 + x0 + (16x1)), xmask).to(tl.int1) tmp18 = tl.load(in_ptr1 + (12 + x0), xmask, eviction_policy='evict_last') tmp4 = tmp1 + tmp3 tmp5 = float("-inf") tmp6 = tl.where(tmp0, tmp5, tmp4) tmp9 = tmp8 + tmp3 tmp10 = tl.where(tmp7, tmp5, tmp9) tmp11 = triton_helpers.maximum(tmp6, tmp10) tmp14 = tmp13 + tmp3 tmp15 = tl.where(tmp12, tmp5, tmp14) tmp16 = triton_helpers.maximum(tmp11, tmp15) tmp19 = tmp18 + tmp3 tmp20 = tl.where(tmp17, tmp5, tmp19) tmp21 = triton_helpers.maximum(tmp16, tmp20) tmp22 = tmp6 - tmp21 tmp23 = tl_math.exp(tmp22) tmp24 = tmp10 - tmp21 tmp25 = tl_math.exp(tmp24) tmp26 = tmp23 + tmp25 tmp27 = tmp15 - tmp21 tmp28 = tl_math.exp(tmp27) tmp29 = tmp26 + tmp28 tmp30 = tmp20 - tmp21 tmp31 = tl_math.exp(tmp30) tmp32 = tmp29 + tmp31 tl.store(out_ptr0 + (x2), tmp21, xmask) tl.store(out_ptr1 + (x2), tmp32, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/vp/cvpqglhop6ek6br4n522zary4qd3tyiabrl72yef4qqw6kjjumgz.py # Topologically Sorted Source Nodes: [attn_scores_2, alpha], Original ATen: [aten.masked_fill, aten._softmax] # Source node to ATen node mapping: # alpha => div, exp, sub # attn_scores_2 => full_default, where # Graph fragment: # %full_default : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], -inf), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%eq, %full_default, %view_1), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%where, %amax), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub,), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp, %sum_1), kwargs = {}) triton_poi_fused__softmax_masked_fill_2 = async_compile.triton('triton_poi_fused__softmax_masked_fill_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'i1', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'fp32', 6: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_masked_fill_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_masked_fill_2(in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x4 = xindex % 16 x0 = xindex % 4 x2 = (xindex // 16) tmp0 = tl.load(in_ptr0 + (x3), xmask).to(tl.int1) tmp1 = tl.load(in_ptr1 + (x4), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr2 + (0)) tmp3 = tl.broadcast_to(tmp2, [XBLOCK]) tmp7 = tl.load(in_ptr3 + (x0 + (4x2)), xmask, eviction_policy='evict_last') tmp10 = tl.load(in_ptr4 + (x0 + (4x2)), xmask, eviction_policy='evict_last') tmp4 = tmp1 + tmp3 tmp5 = float("-inf") tmp6 = tl.where(tmp0, tmp5, tmp4) tmp8 = tmp6 - tmp7 tmp9 = tl_math.exp(tmp8) tmp11 = tmp9 / tmp10 tl.store(out_ptr0 + (x3), tmp11, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4 = args args.clear() assert_size_stride(primals_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_2, (1, 4), (4, 1)) assert_size_stride(primals_3, (1, ), (1, )) assert_size_stride(primals_4, (4, 4, 4), (16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((16, 1), (1, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_1, (16, 4), (4, 1), 0), reinterpret_tensor(primals_2, (4, 1), (1, 4), 0), out=buf0) del primals_2 buf1 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.bool) # Topologically Sorted Source Nodes: [eq], Original ATen: [aten.eq] stream0 = get_raw_stream(0) triton_poi_fused_eq_0.run(primals_4, buf1, 64, grid=grid(64), stream=stream0) del primals_4 buf2 = empty_strided_cuda((4, 1, 4), (4, 16, 1), torch.float32) buf3 = empty_strided_cuda((4, 1, 4), (4, 16, 1), torch.float32) # Topologically Sorted Source Nodes: [attn_scores_2, alpha], Original ATen: [aten.masked_fill, aten._softmax] triton_poi_fused__softmax_masked_fill_1.run(buf1, buf0, primals_3, buf2, buf3, 16, grid=grid(16), stream=stream0) buf4 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [attn_scores_2, alpha], Original ATen: [aten.masked_fill, aten._softmax] triton_poi_fused__softmax_masked_fill_2.run(buf1, buf0, primals_3, buf2, buf3, buf4, 64, grid=grid(64), stream=stream0) del buf0 del buf2 del buf3 del primals_3 return (buf4, reinterpret_tensor(primals_1, (16, 4), (4, 1), 0), buf1, buf4, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((1, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((1, ), (1, ), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.nn.functional as F class LinearAttentionLayer(nn.Module): def __init__(self, input_dim): super().__init__() self.linear = nn.Linear(input_dim, 1) def forward(self, question, question_mask): qtn = question.view(-1, question.shape[-1]) attn_scores = self.linear(qtn) attn_scores = attn_scores.view(question.shape[0], question.shape[1]) attn_scores = attn_scores.masked_fill(question_mask == 1, -float('inf') ) alpha = F.softmax(attn_scores, dim=1) return alpha def get_inputs(): return [torch.rand([4, 4, 4]), torch.rand([4, 4, 4])] def get_init_inputs(): return [[], {'input_dim': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_eq_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = 1.0 tmp2 = tmp0 == tmp1 tl.store(out_ptr0 + x0, tmp2, xmask) @triton.jit def triton_poi_fused__softmax_masked_fill_1(in_ptr0, in_ptr1, in_ptr2, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = xindex // 4 x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + 16 * x1), xmask).to(tl.int1) tmp1 = tl.load(in_ptr1 + x0, xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr2 + 0) tmp3 = tl.broadcast_to(tmp2, [XBLOCK]) tmp7 = tl.load(in_ptr0 + (4 + x0 + 16 * x1), xmask).to(tl.int1) tmp8 = tl.load(in_ptr1 + (4 + x0), xmask, eviction_policy='evict_last') tmp12 = tl.load(in_ptr0 + (8 + x0 + 16 * x1), xmask).to(tl.int1) tmp13 = tl.load(in_ptr1 + (8 + x0), xmask, eviction_policy='evict_last') tmp17 = tl.load(in_ptr0 + (12 + x0 + 16 * x1), xmask).to(tl.int1) tmp18 = tl.load(in_ptr1 + (12 + x0), xmask, eviction_policy='evict_last') tmp4 = tmp1 + tmp3 tmp5 = float('-inf') tmp6 = tl.where(tmp0, tmp5, tmp4) tmp9 = tmp8 + tmp3 tmp10 = tl.where(tmp7, tmp5, tmp9) tmp11 = triton_helpers.maximum(tmp6, tmp10) tmp14 = tmp13 + tmp3 tmp15 = tl.where(tmp12, tmp5, tmp14) tmp16 = triton_helpers.maximum(tmp11, tmp15) tmp19 = tmp18 + tmp3 tmp20 = tl.where(tmp17, tmp5, tmp19) tmp21 = triton_helpers.maximum(tmp16, tmp20) tmp22 = tmp6 - tmp21 tmp23 = tl_math.exp(tmp22) tmp24 = tmp10 - tmp21 tmp25 = tl_math.exp(tmp24) tmp26 = tmp23 + tmp25 tmp27 = tmp15 - tmp21 tmp28 = tl_math.exp(tmp27) tmp29 = tmp26 + tmp28 tmp30 = tmp20 - tmp21 tmp31 = tl_math.exp(tmp30) tmp32 = tmp29 + tmp31 tl.store(out_ptr0 + x2, tmp21, xmask) tl.store(out_ptr1 + x2, tmp32, xmask) @triton.jit def triton_poi_fused__softmax_masked_fill_2(in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x4 = xindex % 16 x0 = xindex % 4 x2 = xindex // 16 tmp0 = tl.load(in_ptr0 + x3, xmask).to(tl.int1) tmp1 = tl.load(in_ptr1 + x4, xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr2 + 0) tmp3 = tl.broadcast_to(tmp2, [XBLOCK]) tmp7 = tl.load(in_ptr3 + (x0 + 4 * x2), xmask, eviction_policy='evict_last' ) tmp10 = tl.load(in_ptr4 + (x0 + 4 * x2), xmask, eviction_policy= 'evict_last') tmp4 = tmp1 + tmp3 tmp5 = float('-inf') tmp6 = tl.where(tmp0, tmp5, tmp4) tmp8 = tmp6 - tmp7 tmp9 = tl_math.exp(tmp8) tmp11 = tmp9 / tmp10 tl.store(out_ptr0 + x3, tmp11, xmask) def call(args): primals_1, primals_2, primals_3, primals_4 = args args.clear() assert_size_stride(primals_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_2, (1, 4), (4, 1)) assert_size_stride(primals_3, (1,), (1,)) assert_size_stride(primals_4, (4, 4, 4), (16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((16, 1), (1, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_1, (16, 4), (4, 1), 0), reinterpret_tensor(primals_2, (4, 1), (1, 4), 0), out=buf0) del primals_2 buf1 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.bool) get_raw_stream(0) triton_poi_fused_eq_0[grid(64)](primals_4, buf1, 64, XBLOCK=64, num_warps=1, num_stages=1) del primals_4 buf2 = empty_strided_cuda((4, 1, 4), (4, 16, 1), torch.float32) buf3 = empty_strided_cuda((4, 1, 4), (4, 16, 1), torch.float32) triton_poi_fused__softmax_masked_fill_1[grid(16)](buf1, buf0, primals_3, buf2, buf3, 16, XBLOCK=16, num_warps=1, num_stages=1) buf4 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) triton_poi_fused__softmax_masked_fill_2[grid(64)](buf1, buf0, primals_3, buf2, buf3, buf4, 64, XBLOCK=64, num_warps=1, num_stages=1) del buf0 del buf2 del buf3 del primals_3 return buf4, reinterpret_tensor(primals_1, (16, 4), (4, 1), 0), buf1, buf4 class LinearAttentionLayerNew(nn.Module): def __init__(self, input_dim): super().__init__() self.linear = nn.Linear(input_dim, 1) def forward(self, input_0, input_1): primals_2 = self.linear.weight primals_3 = self.linear.bias primals_1 = input_0 primals_4 = input_1 output = call([primals_1, primals_2, primals_3, primals_4]) return output[0]	HuyTu7/dl_optimizers	LinearAttentionLayer	false	9,136	[ "MIT" ]	245242718324cebcabe657bdbc704aa54ad0b8d2	https://github.com/HuyTu7/dl_optimizers/tree/245242718324cebcabe657bdbc704aa54ad0b8d2
AlignQuestionEmbedding	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/sb/csbkytvktsi5xvyifabpordrodcrbhhsdje4rbbt3znhexh2yg7g.py # Topologically Sorted Source Nodes: [ctx__1, qtn__1], Original ATen: [aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # ctx__1 => relu # qtn__1 => relu_1 # Graph fragment: # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%view_1,), kwargs = {}) # %relu_1 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%view_3,), kwargs = {}) # %le : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu_1, 0), kwargs = {}) triton_poi_fused_relu_threshold_backward_0 = async_compile.triton('triton_poi_fused_relu_threshold_backward_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i1', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_relu_threshold_backward_0', 'mutated_arg_names': ['in_out_ptr0', 'in_out_ptr1'], 'no_x_dim': False, 'num_load': 3, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_relu_threshold_backward_0(in_out_ptr0, in_out_ptr1, in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_out_ptr1 + (x2), xmask) tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp6 = tmp5 + tmp1 tmp7 = triton_helpers.maximum(tmp3, tmp6) tmp8 = 0.0 tmp9 = tmp7 <= tmp8 tl.store(in_out_ptr0 + (x2), tmp4, xmask) tl.store(in_out_ptr1 + (x2), tmp7, xmask) tl.store(out_ptr0 + (x2), tmp9, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/pe/cpezdeafoiw3t5lcgpmwmamuvqlbqkktfy4urmf543yhhkjhvbti.py # Topologically Sorted Source Nodes: [alpha], Original ATen: [aten._softmax] # Source node to ATen node mapping: # alpha => amax, exp, sub, sum_1 # Graph fragment: # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%view_4, [1], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%view_4, %amax), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub,), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp, [1], True), kwargs = {}) triton_poi_fused__softmax_1 = async_compile.triton('triton_poi_fused__softmax_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 8, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_1(in_ptr0, in_ptr1, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (4(x0 // 4)), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr1 + (4x0), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (1 + (4(x0 // 4))), xmask, eviction_policy='evict_last') tmp8 = tl.load(in_ptr1 + (1 + (4x0)), xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr0 + (2 + (4(x0 // 4))), xmask, eviction_policy='evict_last') tmp13 = tl.load(in_ptr1 + (2 + (4x0)), xmask, eviction_policy='evict_last') tmp16 = tl.load(in_ptr0 + (3 + (4(x0 // 4))), xmask, eviction_policy='evict_last') tmp18 = tl.load(in_ptr1 + (3 + (4x0)), xmask, eviction_policy='evict_last') tmp1 = 1.0 tmp2 = tmp0 == tmp1 tmp4 = float("-inf") tmp5 = tl.where(tmp2, tmp4, tmp3) tmp7 = tmp6 == tmp1 tmp9 = tl.where(tmp7, tmp4, tmp8) tmp10 = triton_helpers.maximum(tmp5, tmp9) tmp12 = tmp11 == tmp1 tmp14 = tl.where(tmp12, tmp4, tmp13) tmp15 = triton_helpers.maximum(tmp10, tmp14) tmp17 = tmp16 == tmp1 tmp19 = tl.where(tmp17, tmp4, tmp18) tmp20 = triton_helpers.maximum(tmp15, tmp19) tmp21 = tmp5 - tmp20 tmp22 = tl_math.exp(tmp21) tmp23 = tmp9 - tmp20 tmp24 = tl_math.exp(tmp23) tmp25 = tmp22 + tmp24 tmp26 = tmp14 - tmp20 tmp27 = tl_math.exp(tmp26) tmp28 = tmp25 + tmp27 tmp29 = tmp19 - tmp20 tmp30 = tl_math.exp(tmp29) tmp31 = tmp28 + tmp30 tl.store(out_ptr0 + (x0), tmp20, xmask) tl.store(out_ptr1 + (x0), tmp31, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/r4/cr4ajqhr6ircz7vgn26jwmc627w6pszjuztpk22dschroj4uqoba.py # Topologically Sorted Source Nodes: [alpha], Original ATen: [aten._softmax] # Source node to ATen node mapping: # alpha => amax, div, exp, sub # Graph fragment: # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%view_4, [1], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%view_4, %amax), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub,), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp, %sum_1), kwargs = {}) triton_poi_fused__softmax_2 = async_compile.triton('triton_poi_fused__softmax_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_2(in_ptr0, in_ptr1, in_ptr2, in_ptr3, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = (xindex // 4) x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + (4*(x1 // 4))), xmask) tmp3 = tl.load(in_ptr1 + (x2), xmask) tmp6 = tl.load(in_ptr2 + (x1), xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr3 + (x1), xmask, eviction_policy='evict_last') tmp1 = 1.0 tmp2 = tmp0 == tmp1 tmp4 = float("-inf") tmp5 = tl.where(tmp2, tmp4, tmp3) tmp7 = tmp5 - tmp6 tmp8 = tl_math.exp(tmp7) tmp10 = tmp8 / tmp9 tl.store(out_ptr0 + (x2), tmp10, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_4, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_5, (4, 4), (4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((16, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_3, (16, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf0) buf2 = empty_strided_cuda((16, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_4, (16, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf2) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4), (16, 4, 1), 0); del buf0 # reuse buf3 = reinterpret_tensor(buf2, (4, 4, 4), (16, 4, 1), 0); del buf2 # reuse buf9 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.bool) # Topologically Sorted Source Nodes: [ctx__1, qtn__1], Original ATen: [aten.relu, aten.threshold_backward] stream0 = get_raw_stream(0) triton_poi_fused_relu_threshold_backward_0.run(buf1, buf3, primals_2, buf9, 64, grid=grid(64), stream=stream0) del primals_2 buf4 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [align_scores], Original ATen: [aten.bmm] extern_kernels.bmm(buf1, reinterpret_tensor(buf3, (4, 4, 4), (16, 1, 4), 0), out=buf4) buf5 = empty_strided_cuda((16, 1), (1, 16), torch.float32) buf6 = empty_strided_cuda((16, 1), (1, 16), torch.float32) # Topologically Sorted Source Nodes: [alpha], Original ATen: [aten._softmax] triton_poi_fused__softmax_1.run(primals_5, buf4, buf5, buf6, 16, grid=grid(16), stream=stream0) buf7 = empty_strided_cuda((16, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [alpha], Original ATen: [aten._softmax] triton_poi_fused__softmax_2.run(primals_5, buf4, buf5, buf6, buf7, 64, grid=grid(64), stream=stream0) del buf5 del buf6 buf8 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [align_embedding], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf7, (4, 4, 4), (16, 4, 1), 0), primals_4, out=buf8) del buf7 return (buf8, primals_4, primals_5, reinterpret_tensor(primals_3, (16, 4), (4, 1), 0), buf1, buf4, buf3, buf9, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.nn.functional as F class AlignQuestionEmbedding(nn.Module): def __init__(self, input_dim): super().__init__() self.linear = nn.Linear(input_dim, input_dim) self.relu = nn.ReLU() def forward(self, context, question, question_mask): ctx_ = self.linear(context) ctx_ = self.relu(ctx_) qtn_ = self.linear(question) qtn_ = self.relu(qtn_) qtn_transpose = qtn_.permute(0, 2, 1) align_scores = torch.bmm(ctx_, qtn_transpose) qtn_mask = question_mask.unsqueeze(1).expand(align_scores.size()) align_scores = align_scores.masked_fill(qtn_mask == 1, -float('inf')) align_scores_flat = align_scores.view(-1, question.size(1)) alpha = F.softmax(align_scores_flat, dim=1) alpha = alpha.view(-1, context.shape[1], question.shape[1]) align_embedding = torch.bmm(alpha, question) return align_embedding def get_inputs(): return [torch.rand([4, 4, 4]), torch.rand([4, 4, 4]), torch.rand([4, 4])] def get_init_inputs(): return [[], {'input_dim': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_relu_threshold_backward_0(in_out_ptr0, in_out_ptr1, in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp5 = tl.load(in_out_ptr1 + x2, xmask) tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp6 = tmp5 + tmp1 tmp7 = triton_helpers.maximum(tmp3, tmp6) tmp8 = 0.0 tmp9 = tmp7 <= tmp8 tl.store(in_out_ptr0 + x2, tmp4, xmask) tl.store(in_out_ptr1 + x2, tmp7, xmask) tl.store(out_ptr0 + x2, tmp9, xmask) @triton.jit def triton_poi_fused__softmax_1(in_ptr0, in_ptr1, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + 4 * (x0 // 4), xmask, eviction_policy='evict_last' ) tmp3 = tl.load(in_ptr1 + 4 * x0, xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (1 + 4 * (x0 // 4)), xmask, eviction_policy= 'evict_last') tmp8 = tl.load(in_ptr1 + (1 + 4 * x0), xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr0 + (2 + 4 * (x0 // 4)), xmask, eviction_policy= 'evict_last') tmp13 = tl.load(in_ptr1 + (2 + 4 * x0), xmask, eviction_policy='evict_last' ) tmp16 = tl.load(in_ptr0 + (3 + 4 * (x0 // 4)), xmask, eviction_policy= 'evict_last') tmp18 = tl.load(in_ptr1 + (3 + 4 * x0), xmask, eviction_policy='evict_last' ) tmp1 = 1.0 tmp2 = tmp0 == tmp1 tmp4 = float('-inf') tmp5 = tl.where(tmp2, tmp4, tmp3) tmp7 = tmp6 == tmp1 tmp9 = tl.where(tmp7, tmp4, tmp8) tmp10 = triton_helpers.maximum(tmp5, tmp9) tmp12 = tmp11 == tmp1 tmp14 = tl.where(tmp12, tmp4, tmp13) tmp15 = triton_helpers.maximum(tmp10, tmp14) tmp17 = tmp16 == tmp1 tmp19 = tl.where(tmp17, tmp4, tmp18) tmp20 = triton_helpers.maximum(tmp15, tmp19) tmp21 = tmp5 - tmp20 tmp22 = tl_math.exp(tmp21) tmp23 = tmp9 - tmp20 tmp24 = tl_math.exp(tmp23) tmp25 = tmp22 + tmp24 tmp26 = tmp14 - tmp20 tmp27 = tl_math.exp(tmp26) tmp28 = tmp25 + tmp27 tmp29 = tmp19 - tmp20 tmp30 = tl_math.exp(tmp29) tmp31 = tmp28 + tmp30 tl.store(out_ptr0 + x0, tmp20, xmask) tl.store(out_ptr1 + x0, tmp31, xmask) @triton.jit def triton_poi_fused__softmax_2(in_ptr0, in_ptr1, in_ptr2, in_ptr3, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = xindex // 4 x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + 4 * (x1 // 4)), xmask) tmp3 = tl.load(in_ptr1 + x2, xmask) tmp6 = tl.load(in_ptr2 + x1, xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr3 + x1, xmask, eviction_policy='evict_last') tmp1 = 1.0 tmp2 = tmp0 == tmp1 tmp4 = float('-inf') tmp5 = tl.where(tmp2, tmp4, tmp3) tmp7 = tmp5 - tmp6 tmp8 = tl_math.exp(tmp7) tmp10 = tmp8 / tmp9 tl.store(out_ptr0 + x2, tmp10, xmask) def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_4, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_5, (4, 4), (4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((16, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_3, (16, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf0) buf2 = empty_strided_cuda((16, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_4, (16, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf2) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4), (16, 4, 1), 0) del buf0 buf3 = reinterpret_tensor(buf2, (4, 4, 4), (16, 4, 1), 0) del buf2 buf9 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.bool) get_raw_stream(0) triton_poi_fused_relu_threshold_backward_0[grid(64)](buf1, buf3, primals_2, buf9, 64, XBLOCK=64, num_warps=1, num_stages=1) del primals_2 buf4 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) extern_kernels.bmm(buf1, reinterpret_tensor(buf3, (4, 4, 4), (16, 1, 4), 0), out=buf4) buf5 = empty_strided_cuda((16, 1), (1, 16), torch.float32) buf6 = empty_strided_cuda((16, 1), (1, 16), torch.float32) triton_poi_fused__softmax_1[grid(16)](primals_5, buf4, buf5, buf6, 16, XBLOCK=16, num_warps=1, num_stages=1) buf7 = empty_strided_cuda((16, 4), (4, 1), torch.float32) triton_poi_fused__softmax_2[grid(64)](primals_5, buf4, buf5, buf6, buf7, 64, XBLOCK=64, num_warps=1, num_stages=1) del buf5 del buf6 buf8 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf7, (4, 4, 4), (16, 4, 1), 0), primals_4, out=buf8) del buf7 return buf8, primals_4, primals_5, reinterpret_tensor(primals_3, (16, 4 ), (4, 1), 0), buf1, buf4, buf3, buf9 class AlignQuestionEmbeddingNew(nn.Module): def __init__(self, input_dim): super().__init__() self.linear = nn.Linear(input_dim, input_dim) self.relu = nn.ReLU() def forward(self, input_0, input_1, input_2): primals_1 = self.linear.weight primals_2 = self.linear.bias primals_3 = input_0 primals_4 = input_1 primals_5 = input_2 output = call([primals_1, primals_2, primals_3, primals_4, primals_5]) return output[0]	HuyTu7/dl_optimizers	AlignQuestionEmbedding	false	9,137	[ "MIT" ]	245242718324cebcabe657bdbc704aa54ad0b8d2	https://github.com/HuyTu7/dl_optimizers/tree/245242718324cebcabe657bdbc704aa54ad0b8d2
MergeLayer	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/ms/cmsuzohbg5nq52jnvirovzkvykrzzko5xomu7zyu5e5u2lhegppw.py # Topologically Sorted Source Nodes: [x], Original ATen: [aten.cat] # Source node to ATen node mapping: # x => cat # Graph fragment: # %cat : [num_users=2] = call_function[target=torch.ops.aten.cat.default](args = ([%primals_1, %primals_2], 1), kwargs = {}) triton_poi_fused_cat_0 = async_compile.triton('triton_poi_fused_cat_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[32], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_cat_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_cat_0(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 32 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 8 x1 = (xindex // 8) x2 = xindex tmp0 = x0 tmp1 = tl.full([1], 0, tl.int64) tmp2 = tmp0 >= tmp1 tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + ((4x1) + x0), tmp4 & xmask, eviction_policy='evict_last', other=0.0) tmp6 = tmp0 >= tmp3 tmp7 = tl.full([1], 8, tl.int64) tmp8 = tmp0 < tmp7 tmp9 = tl.load(in_ptr1 + ((4x1) + ((-4) + x0)), tmp6 & xmask, eviction_policy='evict_last', other=0.0) tmp10 = tl.where(tmp4, tmp5, tmp9) tl.store(out_ptr0 + (x2), tmp10, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/5b/c5br3r4gpi7zzaygqfdgcqeerwiekt2d2t2wkw4sj54lam6radgq.py # Topologically Sorted Source Nodes: [h], Original ATen: [aten.relu] # Source node to ATen node mapping: # h => relu # Graph fragment: # %add_tensor : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mm_default, %primals_4), kwargs = {}) # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%add_tensor,), kwargs = {}) triton_poi_fused_relu_1 = async_compile.triton('triton_poi_fused_relu_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_relu_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_relu_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + (x2), tmp4, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, 4), (4, 1)) assert_size_stride(primals_3, (4, 8), (8, 1)) assert_size_stride(primals_4, (4, ), (1, )) assert_size_stride(primals_5, (4, 4), (4, 1)) assert_size_stride(primals_6, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 8), (8, 1), torch.float32) # Topologically Sorted Source Nodes: [x], Original ATen: [aten.cat] stream0 = get_raw_stream(0) triton_poi_fused_cat_0.run(primals_1, primals_2, buf0, 32, grid=grid(32), stream=stream0) del primals_1 del primals_2 buf1 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(buf0, reinterpret_tensor(primals_3, (8, 4), (1, 8), 0), out=buf1) del primals_3 buf2 = buf1; del buf1 # reuse # Topologically Sorted Source Nodes: [h], Original ATen: [aten.relu] triton_poi_fused_relu_1.run(buf2, primals_4, 16, grid=grid(16), stream=stream0) del primals_4 buf3 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_1], Original ATen: [aten.addmm] extern_kernels.addmm(primals_6, buf2, reinterpret_tensor(primals_5, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf3) del primals_6 return (buf3, buf0, buf2, primals_5, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 8), (8, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch class MergeLayer(torch.nn.Module): def __init__(self, dim1, dim2, dim3, dim4): super().__init__() self.fc1 = torch.nn.Linear(dim1 + dim2, dim3) self.fc2 = torch.nn.Linear(dim3, dim4) self.act = torch.nn.ReLU() torch.nn.init.xavier_normal_(self.fc1.weight) torch.nn.init.xavier_normal_(self.fc2.weight) def forward(self, x1, x2): x = torch.cat([x1, x2], dim=1) h = self.act(self.fc1(x)) return self.fc2(h) def get_inputs(): return [torch.rand([4, 4]), torch.rand([4, 4])] def get_init_inputs(): return [[], {'dim1': 4, 'dim2': 4, 'dim3': 4, 'dim4': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_cat_0(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 32 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 8 x1 = xindex // 8 x2 = xindex tmp0 = x0 tl.full([1], 0, tl.int64) tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + (4 * x1 + x0), tmp4 & xmask, eviction_policy= 'evict_last', other=0.0) tmp6 = tmp0 >= tmp3 tl.full([1], 8, tl.int64) tmp9 = tl.load(in_ptr1 + (4 * x1 + (-4 + x0)), tmp6 & xmask, eviction_policy='evict_last', other=0.0) tmp10 = tl.where(tmp4, tmp5, tmp9) tl.store(out_ptr0 + x2, tmp10, xmask) @triton.jit def triton_poi_fused_relu_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + x2, tmp4, xmask) def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, 4), (4, 1)) assert_size_stride(primals_3, (4, 8), (8, 1)) assert_size_stride(primals_4, (4,), (1,)) assert_size_stride(primals_5, (4, 4), (4, 1)) assert_size_stride(primals_6, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 8), (8, 1), torch.float32) get_raw_stream(0) triton_poi_fused_cat_0[grid(32)](primals_1, primals_2, buf0, 32, XBLOCK=32, num_warps=1, num_stages=1) del primals_1 del primals_2 buf1 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.mm(buf0, reinterpret_tensor(primals_3, (8, 4), (1, 8 ), 0), out=buf1) del primals_3 buf2 = buf1 del buf1 triton_poi_fused_relu_1[grid(16)](buf2, primals_4, 16, XBLOCK=16, num_warps=1, num_stages=1) del primals_4 buf3 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_6, buf2, reinterpret_tensor(primals_5, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf3) del primals_6 return buf3, buf0, buf2, primals_5 class MergeLayerNew(torch.nn.Module): def __init__(self, dim1, dim2, dim3, dim4): super().__init__() self.fc1 = torch.nn.Linear(dim1 + dim2, dim3) self.fc2 = torch.nn.Linear(dim3, dim4) self.act = torch.nn.ReLU() torch.nn.init.xavier_normal_(self.fc1.weight) torch.nn.init.xavier_normal_(self.fc2.weight) def forward(self, input_0, input_1): primals_3 = self.fc1.weight primals_4 = self.fc1.bias primals_1 = self.fc2.weight primals_6 = self.fc2.bias primals_2 = input_0 primals_5 = input_1 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6]) return output[0]	IDSC-io/vre-tgn	MergeLayer	false	9,138	[ "Apache-2.0" ]	46e8327e3befe67003874fa70b384a511523f8f7	https://github.com/IDSC-io/vre-tgn/tree/46e8327e3befe67003874fa70b384a511523f8f7
EqualConvTranspose2d	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/mr/cmrzofxtfa5fe3ax4o3n5qvgpvhbgcrspjauzarmp4t443npav4h.py # Topologically Sorted Source Nodes: [weight], Original ATen: [aten.mul] # Source node to ATen node mapping: # weight => mul # Graph fragment: # %mul : [num_users=2] = call_function[target=torch.ops.aten.mul.Tensor](args = (%primals_1, 0.1767766952966369), kwargs = {}) triton_poi_fused_mul_0 = async_compile.triton('triton_poi_fused_mul_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_mul_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_mul_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = 0.1767766952966369 tmp2 = tmp0 * tmp1 tl.store(out_ptr0 + (x0), tmp2, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/ct/cctgcjr2wf4z7vvek4wfd2w6r2vedlixvdnsojtj2li6o37bj4na.py # Topologically Sorted Source Nodes: [conv_transpose2d], Original ATen: [aten.convolution] # Source node to ATen node mapping: # conv_transpose2d => convolution # Graph fragment: # %convolution : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_3, %mul, %primals_2, [1, 1], [0, 0], [1, 1], True, [0, 0], 1), kwargs = {}) triton_poi_fused_convolution_1 = async_compile.triton('triton_poi_fused_convolution_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[1024], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 784 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 49) % 4 tmp0 = tl.load(in_out_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + (x3), tmp2, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [weight], Original ATen: [aten.mul] stream0 = get_raw_stream(0) triton_poi_fused_mul_0.run(primals_1, buf0, 256, grid=grid(256), stream=stream0) del primals_1 # Topologically Sorted Source Nodes: [conv_transpose2d], Original ATen: [aten.convolution] buf1 = extern_kernels.convolution(primals_3, buf0, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=True, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf1, (4, 4, 7, 7), (196, 49, 7, 1)) buf2 = buf1; del buf1 # reuse # Topologically Sorted Source Nodes: [conv_transpose2d], Original ATen: [aten.convolution] triton_poi_fused_convolution_1.run(buf2, primals_2, 784, grid=grid(784), stream=stream0) del primals_2 return (buf2, buf0, primals_3, buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn from math import sqrt import torch.utils.data def equal_lr(module, name='weight'): EqualLR.apply(module, name) return module class EqualLR: def __init__(self, name): self.name = name def compute_weight(self, module): weight = getattr(module, self.name + '_orig') fan_in = weight.data.size(1) * weight.data[0][0].numel() return weight * sqrt(2 / fan_in) @staticmethod def apply(module, name): fn = EqualLR(name) weight = getattr(module, name) del module._parameters[name] module.register_parameter(name + '_orig', nn.Parameter(weight.data)) module.register_forward_pre_hook(fn) return fn def __call__(self, module, input): weight = self.compute_weight(module) setattr(module, self.name, weight) class EqualConvTranspose2d(nn.Module): def __init__(self, args, kwargs): super().__init__() conv = nn.ConvTranspose2d(args, **kwargs) conv.weight.data.normal_() conv.bias.data.zero_() self.conv = equal_lr(conv) def forward(self, input): return self.conv(input) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'in_channels': 4, 'out_channels': 4, 'kernel_size': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.nn as nn from math import sqrt import torch.utils.data assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_mul_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = 0.1767766952966369 tmp2 = tmp0 * tmp1 tl.store(out_ptr0 + x0, tmp2, xmask) @triton.jit def triton_poi_fused_convolution_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl .constexpr): xnumel = 784 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = xindex // 49 % 4 tmp0 = tl.load(in_out_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + x1, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + x3, tmp2, xmask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_mul_0[grid(256)](primals_1, buf0, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_1 buf1 = extern_kernels.convolution(primals_3, buf0, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=True, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf1, (4, 4, 7, 7), (196, 49, 7, 1)) buf2 = buf1 del buf1 triton_poi_fused_convolution_1[grid(784)](buf2, primals_2, 784, XBLOCK=256, num_warps=4, num_stages=1) del primals_2 return buf2, buf0, primals_3, buf0 def equal_lr(module, name='weight'): EqualLR.apply(module, name) return module class EqualLR: def __init__(self, name): self.name = name def compute_weight(self, module): weight = getattr(module, self.name + '_orig') fan_in = weight.data.size(1) * weight.data[0][0].numel() return weight * sqrt(2 / fan_in) @staticmethod def apply(module, name): fn = EqualLR(name) weight = getattr(module, name) del module._parameters[name] module.register_parameter(name + '_orig', nn.Parameter(weight.data)) module.register_forward_pre_hook(fn) return fn def __call__(self, module, input): weight = self.compute_weight(module) setattr(module, self.name, weight) class EqualConvTranspose2dNew(nn.Module): def __init__(self, args, kwargs): super().__init__() conv = nn.ConvTranspose2d(args, **kwargs) conv.weight.data.normal_() conv.bias.data.zero_() self.conv = equal_lr(conv) def forward(self, input_0): primals_2 = self.conv.bias primals_1 = self.conv.weight_orig primals_3 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	GuiCamargoX/gans_pytorch	EqualConvTranspose2d	false	9,139	[ "MIT" ]	3103184e54ea0d2922fc664a994a912bf61db426	https://github.com/GuiCamargoX/gans_pytorch/tree/3103184e54ea0d2922fc664a994a912bf61db426
MatrixTree	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/mw/cmwulpxxw2jt763yw6dihufmcwawkztohwf6my2rtf33kl2nbgds.py # Topologically Sorted Source Nodes: [eye, ne, lap, sum_1], Original ATen: [aten.eye, aten.ne, aten.masked_fill, aten.sum] # Source node to ATen node mapping: # eye => eq, full_default, full_default_1, iota_1, where # lap => full_default_2, where_1 # ne => ne # sum_1 => sum_1 # Graph fragment: # %iota_1 : [num_users=1] = call_function[target=torch.ops.prims.iota.default](args = (4,), kwargs = {start: 0, step: 1, dtype: torch.int64, device: cuda:0, requires_grad: False}) # %eq : [num_users=1] = call_function[target=torch.ops.aten.eq.Tensor](args = (%unsqueeze, %iota_1), kwargs = {}) # %full_default : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([1], 1), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %full_default_1 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%eq, %full_default, %full_default_1), kwargs = {}) # %ne : [num_users=1] = call_function[target=torch.ops.aten.ne.Scalar](args = (%where, 0), kwargs = {}) # %full_default_2 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where_1 : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%ne, %full_default_2, %select), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%where_1, [0]), kwargs = {}) triton_poi_fused_eye_masked_fill_ne_sum_0 = async_compile.triton('triton_poi_fused_eye_masked_fill_ne_sum_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[4], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_eye_masked_fill_ne_sum_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_eye_masked_fill_ne_sum_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 4 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp7 = tl.load(in_ptr0 + (x0), xmask) tmp16 = tl.load(in_ptr0 + (4 + x0), xmask) tmp25 = tl.load(in_ptr0 + (8 + x0), xmask) tmp34 = tl.load(in_ptr0 + (12 + x0), xmask) tmp0 = tl.full([1], 0, tl.int64) tmp1 = x0 tmp2 = tmp0 == tmp1 tmp3 = 1.0 tmp4 = 0.0 tmp5 = tl.where(tmp2, tmp3, tmp4) tmp6 = tmp5 != tmp4 tmp8 = tl_math.exp(tmp7) tmp9 = 1e-05 tmp10 = tmp8 + tmp9 tmp11 = tl.where(tmp6, tmp4, tmp10) tmp12 = tl.full([1], 1, tl.int64) tmp13 = tmp12 == tmp1 tmp14 = tl.where(tmp13, tmp3, tmp4) tmp15 = tmp14 != tmp4 tmp17 = tl_math.exp(tmp16) tmp18 = tmp17 + tmp9 tmp19 = tl.where(tmp15, tmp4, tmp18) tmp20 = tmp11 + tmp19 tmp21 = tl.full([1], 2, tl.int64) tmp22 = tmp21 == tmp1 tmp23 = tl.where(tmp22, tmp3, tmp4) tmp24 = tmp23 != tmp4 tmp26 = tl_math.exp(tmp25) tmp27 = tmp26 + tmp9 tmp28 = tl.where(tmp24, tmp4, tmp27) tmp29 = tmp20 + tmp28 tmp30 = tl.full([1], 3, tl.int64) tmp31 = tmp30 == tmp1 tmp32 = tl.where(tmp31, tmp3, tmp4) tmp33 = tmp32 != tmp4 tmp35 = tl_math.exp(tmp34) tmp36 = tmp35 + tmp9 tmp37 = tl.where(tmp33, tmp4, tmp36) tmp38 = tmp29 + tmp37 tl.store(out_ptr0 + (x0), tmp38, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/5f/c5fvishccr56l7e7obdlxzywjkbh3davnf5cdvnuqxihtgywozfd.py # Topologically Sorted Source Nodes: [eye, ne, lap, neg, diag, lap_1, diag_1, exp_1], Original ATen: [aten.eye, aten.ne, aten.masked_fill, aten.neg, aten.diag_embed, aten.add, aten.diagonal_copy, aten.exp] # Source node to ATen node mapping: # diag => eq_1, full_default_3, iota_2, where_2 # diag_1 => diagonal_copy # exp_1 => exp_1 # eye => eq, full_default, full_default_1, iota_1, where # lap => full_default_2, where_1 # lap_1 => add_1 # ne => ne # neg => neg # Graph fragment: # %iota_1 : [num_users=1] = call_function[target=torch.ops.prims.iota.default](args = (4,), kwargs = {start: 0, step: 1, dtype: torch.int64, device: cuda:0, requires_grad: False}) # %eq : [num_users=1] = call_function[target=torch.ops.aten.eq.Tensor](args = (%unsqueeze, %iota_1), kwargs = {}) # %full_default : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([1], 1), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %full_default_1 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%eq, %full_default, %full_default_1), kwargs = {}) # %ne : [num_users=1] = call_function[target=torch.ops.aten.ne.Scalar](args = (%where, 0), kwargs = {}) # %full_default_2 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where_1 : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%ne, %full_default_2, %select), kwargs = {}) # %neg : [num_users=1] = call_function[target=torch.ops.aten.neg.default](args = (%where_1,), kwargs = {}) # %iota_2 : [num_users=1] = call_function[target=torch.ops.prims.iota.default](args = (4,), kwargs = {start: 0, step: 1, dtype: torch.int64, device: cuda:0, requires_grad: False}) # %eq_1 : [num_users=1] = call_function[target=torch.ops.aten.eq.Tensor](args = (%iota_2, %unsqueeze_2), kwargs = {}) # %full_default_3 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where_2 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%eq_1, %permute, %full_default_3), kwargs = {}) # %add_1 : [num_users=2] = call_function[target=torch.ops.aten.add.Tensor](args = (%neg, %where_2), kwargs = {}) # %diagonal_copy : [num_users=1] = call_function[target=torch.ops.aten.diagonal_copy.default](args = (%select_1,), kwargs = {}) # %exp_1 : [num_users=1] = call_function[target=torch.ops.aten.exp.default](args = (%diagonal_copy,), kwargs = {}) # %select_scatter_default : [num_users=1] = call_function[target=torch.ops.aten.select_scatter.default](args = (%add_1, %exp_1, 0, 0), kwargs = {}) triton_poi_fused_add_diag_embed_diagonal_copy_exp_eye_masked_fill_ne_neg_1 = async_compile.triton('triton_poi_fused_add_diag_embed_diagonal_copy_exp_eye_masked_fill_ne_neg_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_diag_embed_diagonal_copy_exp_eye_masked_fill_ne_neg_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 3, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_diag_embed_diagonal_copy_exp_eye_masked_fill_ne_neg_1(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = (xindex // 4) x0 = xindex % 4 x2 = xindex tmp3 = tl.load(in_ptr0 + (5x0), xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr0 + (x2), xmask) tmp18 = tl.load(in_ptr1 + (x0), xmask, eviction_policy='evict_last') tmp0 = x1 tmp1 = tl.full([1], 0, tl.int32) tmp2 = tmp0 == tmp1 tmp4 = tl_math.exp(tmp3) tmp5 = x0 tmp6 = tmp0 == tmp5 tmp7 = 1.0 tmp8 = 0.0 tmp9 = tl.where(tmp6, tmp7, tmp8) tmp10 = tmp9 != tmp8 tmp12 = tl_math.exp(tmp11) tmp13 = 1e-05 tmp14 = tmp12 + tmp13 tmp15 = tl.where(tmp10, tmp8, tmp14) tmp16 = -tmp15 tmp17 = tmp5 == tmp0 tmp19 = tl.where(tmp17, tmp18, tmp8) tmp20 = tmp16 + tmp19 tmp21 = tl.where(tmp2, tmp4, tmp20) tl.store(out_ptr0 + (x2), tmp21, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/5k/c5kir7ouxg6vi6ka3fqtxb3atjlynhq3dcipimsepx55zvv5ls6k.py # Topologically Sorted Source Nodes: [eye_1, ne_1, lap_2, sum_2], Original ATen: [aten.eye, aten.ne, aten.masked_fill, aten.sum] # Source node to ATen node mapping: # eye_1 => eq_3, full_default_7, full_default_8, iota_7, where_4 # lap_2 => full_default_9, where_5 # ne_1 => ne_1 # sum_2 => sum_2 # Graph fragment: # %iota_7 : [num_users=1] = call_function[target=torch.ops.prims.iota.default](args = (4,), kwargs = {start: 0, step: 1, dtype: torch.int64, device: cuda:0, requires_grad: False}) # %eq_3 : [num_users=1] = call_function[target=torch.ops.aten.eq.Tensor](args = (%unsqueeze_6, %iota_7), kwargs = {}) # %full_default_7 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([1], 1), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %full_default_8 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where_4 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%eq_3, %full_default_7, %full_default_8), kwargs = {}) # %ne_1 : [num_users=1] = call_function[target=torch.ops.aten.ne.Scalar](args = (%where_4, 0), kwargs = {}) # %full_default_9 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where_5 : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%ne_1, %full_default_9, %select_20), kwargs = {}) # %sum_2 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%where_5, [0]), kwargs = {}) triton_poi_fused_eye_masked_fill_ne_sum_2 = async_compile.triton('triton_poi_fused_eye_masked_fill_ne_sum_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[4], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_eye_masked_fill_ne_sum_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_eye_masked_fill_ne_sum_2(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 4 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp7 = tl.load(in_ptr0 + (16 + x0), xmask) tmp16 = tl.load(in_ptr0 + (20 + x0), xmask) tmp25 = tl.load(in_ptr0 + (24 + x0), xmask) tmp34 = tl.load(in_ptr0 + (28 + x0), xmask) tmp0 = tl.full([1], 0, tl.int64) tmp1 = x0 tmp2 = tmp0 == tmp1 tmp3 = 1.0 tmp4 = 0.0 tmp5 = tl.where(tmp2, tmp3, tmp4) tmp6 = tmp5 != tmp4 tmp8 = tl_math.exp(tmp7) tmp9 = 1e-05 tmp10 = tmp8 + tmp9 tmp11 = tl.where(tmp6, tmp4, tmp10) tmp12 = tl.full([1], 1, tl.int64) tmp13 = tmp12 == tmp1 tmp14 = tl.where(tmp13, tmp3, tmp4) tmp15 = tmp14 != tmp4 tmp17 = tl_math.exp(tmp16) tmp18 = tmp17 + tmp9 tmp19 = tl.where(tmp15, tmp4, tmp18) tmp20 = tmp11 + tmp19 tmp21 = tl.full([1], 2, tl.int64) tmp22 = tmp21 == tmp1 tmp23 = tl.where(tmp22, tmp3, tmp4) tmp24 = tmp23 != tmp4 tmp26 = tl_math.exp(tmp25) tmp27 = tmp26 + tmp9 tmp28 = tl.where(tmp24, tmp4, tmp27) tmp29 = tmp20 + tmp28 tmp30 = tl.full([1], 3, tl.int64) tmp31 = tmp30 == tmp1 tmp32 = tl.where(tmp31, tmp3, tmp4) tmp33 = tmp32 != tmp4 tmp35 = tl_math.exp(tmp34) tmp36 = tmp35 + tmp9 tmp37 = tl.where(tmp33, tmp4, tmp36) tmp38 = tmp29 + tmp37 tl.store(out_ptr0 + (x0), tmp38, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/ny/cnyxgqp3tmqmvliho4wkdr5wi6tnqd2oycsfgq3cjapc2phvva3v.py # Topologically Sorted Source Nodes: [eye_1, ne_1, lap_2, neg_1, diag_5, lap_3, diag_6, exp_5], Original ATen: [aten.eye, aten.ne, aten.masked_fill, aten.neg, aten.diag_embed, aten.add, aten.diagonal_copy, aten.exp] # Source node to ATen node mapping: # diag_5 => eq_4, full_default_10, iota_8, where_6 # diag_6 => diagonal_copy_3 # exp_5 => exp_5 # eye_1 => eq_3, full_default_7, full_default_8, iota_7, where_4 # lap_2 => full_default_9, where_5 # lap_3 => add_3 # ne_1 => ne_1 # neg_1 => neg_1 # Graph fragment: # %iota_7 : [num_users=1] = call_function[target=torch.ops.prims.iota.default](args = (4,), kwargs = {start: 0, step: 1, dtype: torch.int64, device: cuda:0, requires_grad: False}) # %eq_3 : [num_users=1] = call_function[target=torch.ops.aten.eq.Tensor](args = (%unsqueeze_6, %iota_7), kwargs = {}) # %full_default_7 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([1], 1), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %full_default_8 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where_4 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%eq_3, %full_default_7, %full_default_8), kwargs = {}) # %ne_1 : [num_users=1] = call_function[target=torch.ops.aten.ne.Scalar](args = (%where_4, 0), kwargs = {}) # %full_default_9 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where_5 : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%ne_1, %full_default_9, %select_20), kwargs = {}) # %neg_1 : [num_users=1] = call_function[target=torch.ops.aten.neg.default](args = (%where_5,), kwargs = {}) # %iota_8 : [num_users=1] = call_function[target=torch.ops.prims.iota.default](args = (4,), kwargs = {start: 0, step: 1, dtype: torch.int64, device: cuda:0, requires_grad: False}) # %eq_4 : [num_users=1] = call_function[target=torch.ops.aten.eq.Tensor](args = (%iota_8, %unsqueeze_8), kwargs = {}) # %full_default_10 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where_6 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%eq_4, %permute_5, %full_default_10), kwargs = {}) # %add_3 : [num_users=2] = call_function[target=torch.ops.aten.add.Tensor](args = (%neg_1, %where_6), kwargs = {}) # %diagonal_copy_3 : [num_users=1] = call_function[target=torch.ops.aten.diagonal_copy.default](args = (%select_21,), kwargs = {}) # %exp_5 : [num_users=1] = call_function[target=torch.ops.aten.exp.default](args = (%diagonal_copy_3,), kwargs = {}) # %select_scatter_default_4 : [num_users=1] = call_function[target=torch.ops.aten.select_scatter.default](args = (%add_3, %exp_5, 0, 0), kwargs = {}) triton_poi_fused_add_diag_embed_diagonal_copy_exp_eye_masked_fill_ne_neg_3 = async_compile.triton('triton_poi_fused_add_diag_embed_diagonal_copy_exp_eye_masked_fill_ne_neg_3', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_diag_embed_diagonal_copy_exp_eye_masked_fill_ne_neg_3', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 3, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_diag_embed_diagonal_copy_exp_eye_masked_fill_ne_neg_3(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = (xindex // 4) x0 = xindex % 4 x2 = xindex tmp3 = tl.load(in_ptr0 + (16 + (5x0)), xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr0 + (16 + x2), xmask) tmp18 = tl.load(in_ptr1 + (x0), xmask, eviction_policy='evict_last') tmp0 = x1 tmp1 = tl.full([1], 0, tl.int32) tmp2 = tmp0 == tmp1 tmp4 = tl_math.exp(tmp3) tmp5 = x0 tmp6 = tmp0 == tmp5 tmp7 = 1.0 tmp8 = 0.0 tmp9 = tl.where(tmp6, tmp7, tmp8) tmp10 = tmp9 != tmp8 tmp12 = tl_math.exp(tmp11) tmp13 = 1e-05 tmp14 = tmp12 + tmp13 tmp15 = tl.where(tmp10, tmp8, tmp14) tmp16 = -tmp15 tmp17 = tmp5 == tmp0 tmp19 = tl.where(tmp17, tmp18, tmp8) tmp20 = tmp16 + tmp19 tmp21 = tl.where(tmp2, tmp4, tmp20) tl.store(out_ptr0 + (x2), tmp21, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/76/c764os7jr65oallcf3eupkgmn4rajwnkb7qa2a4qrpedfegb2xji.py # Topologically Sorted Source Nodes: [diag_4, add_2], Original ATen: [aten.diag_embed, aten.add] # Source node to ATen node mapping: # add_2 => add_2 # diag_4 => eq_2, full_default_6, iota_4, where_3 # Graph fragment: # %iota_4 : [num_users=1] = call_function[target=torch.ops.prims.iota.default](args = (4,), kwargs = {start: 0, step: 1, dtype: torch.int64, device: cuda:0, requires_grad: False}) # %eq_2 : [num_users=1] = call_function[target=torch.ops.aten.eq.Tensor](args = (%iota_4, %unsqueeze_5), kwargs = {}) # %full_default_6 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where_3 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%eq_2, %permute_4, %full_default_6), kwargs = {}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%select_16, %where_3), kwargs = {}) triton_poi_fused_add_diag_embed_4 = async_compile.triton('triton_poi_fused_add_diag_embed_4', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_diag_embed_4', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_diag_embed_4(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x2 = xindex x1 = (xindex // 4) tmp4 = tl.load(in_ptr0 + (x2), xmask) tmp6 = tl.load(in_ptr1 + (5x0), xmask, eviction_policy='evict_last') tmp12 = tl.load(in_ptr1 + (x2), xmask) tmp18 = tl.load(in_ptr0 + (5x0), xmask, eviction_policy='evict_last') tmp20 = tl.load(in_ptr1 + (x0), xmask, eviction_policy='evict_last') tmp0 = tl.full([1], 0, tl.int32) tmp1 = tmp0 == tmp0 tmp2 = x0 tmp3 = tmp2 == tmp0 tmp5 = tl_math.exp(tmp4) tmp7 = tmp5 * tmp6 tmp8 = 0.0 tmp9 = tl.where(tmp3, tmp8, tmp7) tmp10 = x1 tmp11 = tmp10 == tmp0 tmp13 = tmp5 * tmp12 tmp14 = tl.where(tmp11, tmp8, tmp13) tmp15 = tmp9 - tmp14 tmp16 = tl.where(tmp1, tmp15, tmp4) tmp17 = tmp2 == tmp10 tmp19 = tl_math.exp(tmp18) tmp21 = tmp19 * tmp20 tmp22 = tl.where(tmp17, tmp21, tmp8) tmp23 = tmp16 + tmp22 tl.store(out_ptr0 + (x2), tmp23, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/ry/crysshrrigakeht5r6neboffuaxbkjaegs3cqmvdij2ytziz5vck.py # Topologically Sorted Source Nodes: [exp_2, mul, setitem_1, exp_3, mul_1, setitem_2, sub, diag_4, add_2], Original ATen: [aten.exp, aten.mul, aten.lift_fresh, aten.fill, aten.sub, aten.diag_embed, aten.add] # Source node to ATen node mapping: # add_2 => add_2 # diag_4 => eq_2, full_default_6, iota_4, where_3 # exp_2 => exp_2 # exp_3 => exp_3 # mul => mul # mul_1 => mul_1 # setitem_1 => copy_1, full_default_4 # setitem_2 => copy_2, full_default_5 # sub => sub # Graph fragment: # %exp_2 : [num_users=1] = call_function[target=torch.ops.aten.exp.default](args = (%select_5,), kwargs = {}) # %mul : [num_users=2] = call_function[target=torch.ops.aten.mul.Tensor](args = (%exp_2, %permute_1), kwargs = {}) # %full_default_4 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %copy_1 : [num_users=1] = call_function[target=torch.ops.aten.copy.default](args = (%select_7, %full_default_4), kwargs = {}) # %select_scatter_default_1 : [num_users=1] = call_function[target=torch.ops.aten.select_scatter.default](args = (%mul, %copy_1, 1, 0), kwargs = {}) # %exp_3 : [num_users=1] = call_function[target=torch.ops.aten.exp.default](args = (%select_6,), kwargs = {}) # %mul_1 : [num_users=2] = call_function[target=torch.ops.aten.mul.Tensor](args = (%exp_3, %permute_2), kwargs = {}) # %full_default_5 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %copy_2 : [num_users=1] = call_function[target=torch.ops.aten.copy.default](args = (%select_9, %full_default_5), kwargs = {}) # %select_scatter_default_2 : [num_users=1] = call_function[target=torch.ops.aten.select_scatter.default](args = (%mul_1, %copy_2, 0, 0), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%select_scatter_default_1, %select_scatter_default_2), kwargs = {}) # %select_scatter_default_3 : [num_users=3] = call_function[target=torch.ops.aten.select_scatter.default](args = (%arg0_1, %sub, 0, 0), kwargs = {}) # %iota_4 : [num_users=1] = call_function[target=torch.ops.prims.iota.default](args = (4,), kwargs = {start: 0, step: 1, dtype: torch.int64, device: cuda:0, requires_grad: False}) # %eq_2 : [num_users=1] = call_function[target=torch.ops.aten.eq.Tensor](args = (%iota_4, %unsqueeze_5), kwargs = {}) # %full_default_6 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where_3 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%eq_2, %permute_4, %full_default_6), kwargs = {}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%select_16, %where_3), kwargs = {}) # %select_scatter_default_5 : [num_users=2] = call_function[target=torch.ops.aten.select_scatter.default](args = (%select_scatter_default_3, %add_2, 0, 0), kwargs = {}) triton_poi_fused_add_diag_embed_exp_fill_lift_fresh_mul_sub_5 = async_compile.triton('triton_poi_fused_add_diag_embed_exp_fill_lift_fresh_mul_sub_5', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_diag_embed_exp_fill_lift_fresh_mul_sub_5', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_diag_embed_exp_fill_lift_fresh_mul_sub_5(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = (xindex // 16) x3 = xindex % 16 x0 = xindex % 4 x1 = (xindex // 4) % 4 x5 = xindex tmp3 = tl.load(in_ptr0 + (x3), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr1 + (x3), xmask, eviction_policy='evict_last') tmp8 = tl.load(in_ptr2 + (5x0), xmask, eviction_policy='evict_last') tmp14 = tl.load(in_ptr2 + (x3), xmask, eviction_policy='evict_last') tmp18 = tl.load(in_ptr1 + (x5), xmask) tmp0 = x2 tmp1 = tl.full([1], 0, tl.int32) tmp2 = tmp0 == tmp1 tmp4 = x0 tmp5 = tmp4 == tmp1 tmp7 = tl_math.exp(tmp6) tmp9 = tmp7 tmp8 tmp10 = 0.0 tmp11 = tl.where(tmp5, tmp10, tmp9) tmp12 = x1 tmp13 = tmp12 == tmp1 tmp15 = tmp7 * tmp14 tmp16 = tl.where(tmp13, tmp10, tmp15) tmp17 = tmp11 - tmp16 tmp19 = tl.where(tmp2, tmp17, tmp18) tmp20 = tl.where(tmp2, tmp3, tmp19) tl.store(out_ptr0 + (x5), tmp20, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/ds/cdsgimfrigpgjvo5w5eo5m4acelh6kweus6l5g6oa5euxfo5zryv.py # Topologically Sorted Source Nodes: [eye_2, ne_2, lap_4, sum_3], Original ATen: [aten.eye, aten.ne, aten.masked_fill, aten.sum] # Source node to ATen node mapping: # eye_2 => eq_6, full_default_14, full_default_15, iota_13, where_8 # lap_4 => full_default_16, where_9 # ne_2 => ne_2 # sum_3 => sum_3 # Graph fragment: # %iota_13 : [num_users=1] = call_function[target=torch.ops.prims.iota.default](args = (4,), kwargs = {start: 0, step: 1, dtype: torch.int64, device: cuda:0, requires_grad: False}) # %eq_6 : [num_users=1] = call_function[target=torch.ops.aten.eq.Tensor](args = (%unsqueeze_12, %iota_13), kwargs = {}) # %full_default_14 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([1], 1), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %full_default_15 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where_8 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%eq_6, %full_default_14, %full_default_15), kwargs = {}) # %ne_2 : [num_users=1] = call_function[target=torch.ops.aten.ne.Scalar](args = (%where_8, 0), kwargs = {}) # %full_default_16 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where_9 : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%ne_2, %full_default_16, %select_41), kwargs = {}) # %sum_3 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%where_9, [0]), kwargs = {}) triton_poi_fused_eye_masked_fill_ne_sum_6 = async_compile.triton('triton_poi_fused_eye_masked_fill_ne_sum_6', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[4], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_eye_masked_fill_ne_sum_6', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_eye_masked_fill_ne_sum_6(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 4 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp7 = tl.load(in_ptr0 + (32 + x0), xmask) tmp16 = tl.load(in_ptr0 + (36 + x0), xmask) tmp25 = tl.load(in_ptr0 + (40 + x0), xmask) tmp34 = tl.load(in_ptr0 + (44 + x0), xmask) tmp0 = tl.full([1], 0, tl.int64) tmp1 = x0 tmp2 = tmp0 == tmp1 tmp3 = 1.0 tmp4 = 0.0 tmp5 = tl.where(tmp2, tmp3, tmp4) tmp6 = tmp5 != tmp4 tmp8 = tl_math.exp(tmp7) tmp9 = 1e-05 tmp10 = tmp8 + tmp9 tmp11 = tl.where(tmp6, tmp4, tmp10) tmp12 = tl.full([1], 1, tl.int64) tmp13 = tmp12 == tmp1 tmp14 = tl.where(tmp13, tmp3, tmp4) tmp15 = tmp14 != tmp4 tmp17 = tl_math.exp(tmp16) tmp18 = tmp17 + tmp9 tmp19 = tl.where(tmp15, tmp4, tmp18) tmp20 = tmp11 + tmp19 tmp21 = tl.full([1], 2, tl.int64) tmp22 = tmp21 == tmp1 tmp23 = tl.where(tmp22, tmp3, tmp4) tmp24 = tmp23 != tmp4 tmp26 = tl_math.exp(tmp25) tmp27 = tmp26 + tmp9 tmp28 = tl.where(tmp24, tmp4, tmp27) tmp29 = tmp20 + tmp28 tmp30 = tl.full([1], 3, tl.int64) tmp31 = tmp30 == tmp1 tmp32 = tl.where(tmp31, tmp3, tmp4) tmp33 = tmp32 != tmp4 tmp35 = tl_math.exp(tmp34) tmp36 = tmp35 + tmp9 tmp37 = tl.where(tmp33, tmp4, tmp36) tmp38 = tmp29 + tmp37 tl.store(out_ptr0 + (x0), tmp38, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/bx/cbx52hvmunlgryyn5hbdsqyfni653yiknzgubzvil2q6yaseomvy.py # Topologically Sorted Source Nodes: [eye_2, ne_2, lap_4, neg_2, diag_10, lap_5, diag_11, exp_9], Original ATen: [aten.eye, aten.ne, aten.masked_fill, aten.neg, aten.diag_embed, aten.add, aten.diagonal_copy, aten.exp] # Source node to ATen node mapping: # diag_10 => eq_7, full_default_17, iota_14, where_10 # diag_11 => diagonal_copy_6 # exp_9 => exp_9 # eye_2 => eq_6, full_default_14, full_default_15, iota_13, where_8 # lap_4 => full_default_16, where_9 # lap_5 => add_5 # ne_2 => ne_2 # neg_2 => neg_2 # Graph fragment: # %iota_13 : [num_users=1] = call_function[target=torch.ops.prims.iota.default](args = (4,), kwargs = {start: 0, step: 1, dtype: torch.int64, device: cuda:0, requires_grad: False}) # %eq_6 : [num_users=1] = call_function[target=torch.ops.aten.eq.Tensor](args = (%unsqueeze_12, %iota_13), kwargs = {}) # %full_default_14 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([1], 1), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %full_default_15 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where_8 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%eq_6, %full_default_14, %full_default_15), kwargs = {}) # %ne_2 : [num_users=1] = call_function[target=torch.ops.aten.ne.Scalar](args = (%where_8, 0), kwargs = {}) # %full_default_16 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where_9 : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%ne_2, %full_default_16, %select_41), kwargs = {}) # %neg_2 : [num_users=1] = call_function[target=torch.ops.aten.neg.default](args = (%where_9,), kwargs = {}) # %iota_14 : [num_users=1] = call_function[target=torch.ops.prims.iota.default](args = (4,), kwargs = {start: 0, step: 1, dtype: torch.int64, device: cuda:0, requires_grad: False}) # %eq_7 : [num_users=1] = call_function[target=torch.ops.aten.eq.Tensor](args = (%iota_14, %unsqueeze_14), kwargs = {}) # %full_default_17 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where_10 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%eq_7, %permute_10, %full_default_17), kwargs = {}) # %add_5 : [num_users=2] = call_function[target=torch.ops.aten.add.Tensor](args = (%neg_2, %where_10), kwargs = {}) # %diagonal_copy_6 : [num_users=1] = call_function[target=torch.ops.aten.diagonal_copy.default](args = (%select_42,), kwargs = {}) # %exp_9 : [num_users=1] = call_function[target=torch.ops.aten.exp.default](args = (%diagonal_copy_6,), kwargs = {}) # %select_scatter_default_9 : [num_users=1] = call_function[target=torch.ops.aten.select_scatter.default](args = (%add_5, %exp_9, 0, 0), kwargs = {}) triton_poi_fused_add_diag_embed_diagonal_copy_exp_eye_masked_fill_ne_neg_7 = async_compile.triton('triton_poi_fused_add_diag_embed_diagonal_copy_exp_eye_masked_fill_ne_neg_7', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_diag_embed_diagonal_copy_exp_eye_masked_fill_ne_neg_7', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 3, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_diag_embed_diagonal_copy_exp_eye_masked_fill_ne_neg_7(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = (xindex // 4) x0 = xindex % 4 x2 = xindex tmp3 = tl.load(in_ptr0 + (32 + (5x0)), xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr0 + (32 + x2), xmask) tmp18 = tl.load(in_ptr1 + (x0), xmask, eviction_policy='evict_last') tmp0 = x1 tmp1 = tl.full([1], 0, tl.int32) tmp2 = tmp0 == tmp1 tmp4 = tl_math.exp(tmp3) tmp5 = x0 tmp6 = tmp0 == tmp5 tmp7 = 1.0 tmp8 = 0.0 tmp9 = tl.where(tmp6, tmp7, tmp8) tmp10 = tmp9 != tmp8 tmp12 = tl_math.exp(tmp11) tmp13 = 1e-05 tmp14 = tmp12 + tmp13 tmp15 = tl.where(tmp10, tmp8, tmp14) tmp16 = -tmp15 tmp17 = tmp5 == tmp0 tmp19 = tl.where(tmp17, tmp18, tmp8) tmp20 = tmp16 + tmp19 tmp21 = tl.where(tmp2, tmp4, tmp20) tl.store(out_ptr0 + (x2), tmp21, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/mz/cmzl5zoke7j2kqgzcvjpkpdzkg2kwyb47nzibimhi2hklzb5s6ut.py # Topologically Sorted Source Nodes: [diag_9, add_4], Original ATen: [aten.diag_embed, aten.add] # Source node to ATen node mapping: # add_4 => add_4 # diag_9 => eq_5, full_default_13, iota_10, where_7 # Graph fragment: # %iota_10 : [num_users=1] = call_function[target=torch.ops.prims.iota.default](args = (4,), kwargs = {start: 0, step: 1, dtype: torch.int64, device: cuda:0, requires_grad: False}) # %eq_5 : [num_users=1] = call_function[target=torch.ops.aten.eq.Tensor](args = (%iota_10, %unsqueeze_11), kwargs = {}) # %full_default_13 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where_7 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%eq_5, %permute_9, %full_default_13), kwargs = {}) # %add_4 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%select_37, %where_7), kwargs = {}) triton_poi_fused_add_diag_embed_8 = async_compile.triton('triton_poi_fused_add_diag_embed_8', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_diag_embed_8', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 6, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_diag_embed_8(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x2 = xindex x1 = (xindex // 4) tmp5 = tl.load(in_ptr0 + (16 + x2), xmask) tmp7 = tl.load(in_ptr1 + (5x0), xmask, eviction_policy='evict_last') tmp13 = tl.load(in_ptr1 + (x2), xmask) tmp17 = tl.load(in_ptr2 + (16 + x2), xmask) tmp20 = tl.load(in_ptr0 + (16 + (5x0)), xmask, eviction_policy='evict_last') tmp22 = tl.load(in_ptr1 + (x0), xmask, eviction_policy='evict_last') tmp0 = tl.full([1], 1, tl.int32) tmp1 = tmp0 == tmp0 tmp2 = x0 tmp3 = tl.full([1], 0, tl.int32) tmp4 = tmp2 == tmp3 tmp6 = tl_math.exp(tmp5) tmp8 = tmp6 * tmp7 tmp9 = 0.0 tmp10 = tl.where(tmp4, tmp9, tmp8) tmp11 = x1 tmp12 = tmp11 == tmp3 tmp14 = tmp6 * tmp13 tmp15 = tl.where(tmp12, tmp9, tmp14) tmp16 = tmp10 - tmp15 tmp18 = tl.where(tmp1, tmp16, tmp17) tmp19 = tmp2 == tmp11 tmp21 = tl_math.exp(tmp20) tmp23 = tmp21 * tmp22 tmp24 = tl.where(tmp19, tmp23, tmp9) tmp25 = tmp18 + tmp24 tl.store(out_ptr0 + (x2), tmp25, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/4m/c4mfewqtg74k4hoz5gcjnz5z3hfa6tzmoe5hz6cil2jwbmx7cosw.py # Topologically Sorted Source Nodes: [exp_6, mul_3, setitem_6, exp_7, mul_4, setitem_7, sub_1, diag_9, add_4], Original ATen: [aten.exp, aten.mul, aten.lift_fresh, aten.fill, aten.sub, aten.diag_embed, aten.add] # Source node to ATen node mapping: # add_4 => add_4 # diag_9 => eq_5, full_default_13, iota_10, where_7 # exp_6 => exp_6 # exp_7 => exp_7 # mul_3 => mul_3 # mul_4 => mul_4 # setitem_6 => copy_6, full_default_11 # setitem_7 => copy_7, full_default_12 # sub_1 => sub_1 # Graph fragment: # %exp_6 : [num_users=1] = call_function[target=torch.ops.aten.exp.default](args = (%select_25,), kwargs = {}) # %mul_3 : [num_users=2] = call_function[target=torch.ops.aten.mul.Tensor](args = (%exp_6, %permute_6), kwargs = {}) # %full_default_11 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %copy_6 : [num_users=1] = call_function[target=torch.ops.aten.copy.default](args = (%select_27, %full_default_11), kwargs = {}) # %select_scatter_default_6 : [num_users=1] = call_function[target=torch.ops.aten.select_scatter.default](args = (%mul_3, %copy_6, 1, 0), kwargs = {}) # %exp_7 : [num_users=1] = call_function[target=torch.ops.aten.exp.default](args = (%select_26,), kwargs = {}) # %mul_4 : [num_users=2] = call_function[target=torch.ops.aten.mul.Tensor](args = (%exp_7, %permute_7), kwargs = {}) # %full_default_12 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %copy_7 : [num_users=1] = call_function[target=torch.ops.aten.copy.default](args = (%select_29, %full_default_12), kwargs = {}) # %select_scatter_default_7 : [num_users=1] = call_function[target=torch.ops.aten.select_scatter.default](args = (%mul_4, %copy_7, 0, 0), kwargs = {}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%select_scatter_default_6, %select_scatter_default_7), kwargs = {}) # %select_scatter_default_8 : [num_users=3] = call_function[target=torch.ops.aten.select_scatter.default](args = (%select_scatter_default_5, %sub_1, 0, 1), kwargs = {}) # %iota_10 : [num_users=1] = call_function[target=torch.ops.prims.iota.default](args = (4,), kwargs = {start: 0, step: 1, dtype: torch.int64, device: cuda:0, requires_grad: False}) # %eq_5 : [num_users=1] = call_function[target=torch.ops.aten.eq.Tensor](args = (%iota_10, %unsqueeze_11), kwargs = {}) # %full_default_13 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where_7 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%eq_5, %permute_9, %full_default_13), kwargs = {}) # %add_4 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%select_37, %where_7), kwargs = {}) # %select_scatter_default_10 : [num_users=2] = call_function[target=torch.ops.aten.select_scatter.default](args = (%select_scatter_default_8, %add_4, 0, 1), kwargs = {}) triton_poi_fused_add_diag_embed_exp_fill_lift_fresh_mul_sub_9 = async_compile.triton('triton_poi_fused_add_diag_embed_exp_fill_lift_fresh_mul_sub_9', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_diag_embed_exp_fill_lift_fresh_mul_sub_9', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_diag_embed_exp_fill_lift_fresh_mul_sub_9(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = (xindex // 16) x3 = xindex % 16 x0 = xindex % 4 x1 = (xindex // 4) % 4 x5 = xindex tmp3 = tl.load(in_ptr0 + (x3), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr1 + (16 + x3), xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr2 + (5x0), xmask, eviction_policy='evict_last') tmp15 = tl.load(in_ptr2 + (x3), xmask, eviction_policy='evict_last') tmp19 = tl.load(in_out_ptr0 + (x5), xmask) tmp0 = x2 tmp1 = tl.full([1], 1, tl.int32) tmp2 = tmp0 == tmp1 tmp4 = x0 tmp5 = tl.full([1], 0, tl.int32) tmp6 = tmp4 == tmp5 tmp8 = tl_math.exp(tmp7) tmp10 = tmp8 tmp9 tmp11 = 0.0 tmp12 = tl.where(tmp6, tmp11, tmp10) tmp13 = x1 tmp14 = tmp13 == tmp5 tmp16 = tmp8 * tmp15 tmp17 = tl.where(tmp14, tmp11, tmp16) tmp18 = tmp12 - tmp17 tmp20 = tl.where(tmp2, tmp18, tmp19) tmp21 = tl.where(tmp2, tmp3, tmp20) tl.store(in_out_ptr0 + (x5), tmp21, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/f4/cf43dymhxq3xler6ijzfxsjgm3oemfpzsjaoarspoimxqod3bkiv.py # Topologically Sorted Source Nodes: [eye_3, ne_3, lap_6, sum_4], Original ATen: [aten.eye, aten.ne, aten.masked_fill, aten.sum] # Source node to ATen node mapping: # eye_3 => eq_9, full_default_21, full_default_22, iota_19, where_12 # lap_6 => full_default_23, where_13 # ne_3 => ne_3 # sum_4 => sum_4 # Graph fragment: # %iota_19 : [num_users=1] = call_function[target=torch.ops.prims.iota.default](args = (4,), kwargs = {start: 0, step: 1, dtype: torch.int64, device: cuda:0, requires_grad: False}) # %eq_9 : [num_users=1] = call_function[target=torch.ops.aten.eq.Tensor](args = (%unsqueeze_18, %iota_19), kwargs = {}) # %full_default_21 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([1], 1), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %full_default_22 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where_12 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%eq_9, %full_default_21, %full_default_22), kwargs = {}) # %ne_3 : [num_users=1] = call_function[target=torch.ops.aten.ne.Scalar](args = (%where_12, 0), kwargs = {}) # %full_default_23 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where_13 : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%ne_3, %full_default_23, %select_62), kwargs = {}) # %sum_4 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%where_13, [0]), kwargs = {}) triton_poi_fused_eye_masked_fill_ne_sum_10 = async_compile.triton('triton_poi_fused_eye_masked_fill_ne_sum_10', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[4], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_eye_masked_fill_ne_sum_10', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_eye_masked_fill_ne_sum_10(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 4 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp7 = tl.load(in_ptr0 + (48 + x0), xmask) tmp16 = tl.load(in_ptr0 + (52 + x0), xmask) tmp25 = tl.load(in_ptr0 + (56 + x0), xmask) tmp34 = tl.load(in_ptr0 + (60 + x0), xmask) tmp0 = tl.full([1], 0, tl.int64) tmp1 = x0 tmp2 = tmp0 == tmp1 tmp3 = 1.0 tmp4 = 0.0 tmp5 = tl.where(tmp2, tmp3, tmp4) tmp6 = tmp5 != tmp4 tmp8 = tl_math.exp(tmp7) tmp9 = 1e-05 tmp10 = tmp8 + tmp9 tmp11 = tl.where(tmp6, tmp4, tmp10) tmp12 = tl.full([1], 1, tl.int64) tmp13 = tmp12 == tmp1 tmp14 = tl.where(tmp13, tmp3, tmp4) tmp15 = tmp14 != tmp4 tmp17 = tl_math.exp(tmp16) tmp18 = tmp17 + tmp9 tmp19 = tl.where(tmp15, tmp4, tmp18) tmp20 = tmp11 + tmp19 tmp21 = tl.full([1], 2, tl.int64) tmp22 = tmp21 == tmp1 tmp23 = tl.where(tmp22, tmp3, tmp4) tmp24 = tmp23 != tmp4 tmp26 = tl_math.exp(tmp25) tmp27 = tmp26 + tmp9 tmp28 = tl.where(tmp24, tmp4, tmp27) tmp29 = tmp20 + tmp28 tmp30 = tl.full([1], 3, tl.int64) tmp31 = tmp30 == tmp1 tmp32 = tl.where(tmp31, tmp3, tmp4) tmp33 = tmp32 != tmp4 tmp35 = tl_math.exp(tmp34) tmp36 = tmp35 + tmp9 tmp37 = tl.where(tmp33, tmp4, tmp36) tmp38 = tmp29 + tmp37 tl.store(out_ptr0 + (x0), tmp38, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/sg/csgmzo5h24yeta5phehu6lzwmojkxl6w5o6pxa7fu4tywve6h72o.py # Topologically Sorted Source Nodes: [eye_3, ne_3, lap_6, neg_3, diag_15, lap_7, diag_16, exp_13], Original ATen: [aten.eye, aten.ne, aten.masked_fill, aten.neg, aten.diag_embed, aten.add, aten.diagonal_copy, aten.exp] # Source node to ATen node mapping: # diag_15 => eq_10, full_default_24, iota_20, where_14 # diag_16 => diagonal_copy_9 # exp_13 => exp_13 # eye_3 => eq_9, full_default_21, full_default_22, iota_19, where_12 # lap_6 => full_default_23, where_13 # lap_7 => add_7 # ne_3 => ne_3 # neg_3 => neg_3 # Graph fragment: # %iota_19 : [num_users=1] = call_function[target=torch.ops.prims.iota.default](args = (4,), kwargs = {start: 0, step: 1, dtype: torch.int64, device: cuda:0, requires_grad: False}) # %eq_9 : [num_users=1] = call_function[target=torch.ops.aten.eq.Tensor](args = (%unsqueeze_18, %iota_19), kwargs = {}) # %full_default_21 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([1], 1), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %full_default_22 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where_12 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%eq_9, %full_default_21, %full_default_22), kwargs = {}) # %ne_3 : [num_users=1] = call_function[target=torch.ops.aten.ne.Scalar](args = (%where_12, 0), kwargs = {}) # %full_default_23 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where_13 : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%ne_3, %full_default_23, %select_62), kwargs = {}) # %neg_3 : [num_users=1] = call_function[target=torch.ops.aten.neg.default](args = (%where_13,), kwargs = {}) # %iota_20 : [num_users=1] = call_function[target=torch.ops.prims.iota.default](args = (4,), kwargs = {start: 0, step: 1, dtype: torch.int64, device: cuda:0, requires_grad: False}) # %eq_10 : [num_users=1] = call_function[target=torch.ops.aten.eq.Tensor](args = (%iota_20, %unsqueeze_20), kwargs = {}) # %full_default_24 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where_14 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%eq_10, %permute_15, %full_default_24), kwargs = {}) # %add_7 : [num_users=2] = call_function[target=torch.ops.aten.add.Tensor](args = (%neg_3, %where_14), kwargs = {}) # %diagonal_copy_9 : [num_users=1] = call_function[target=torch.ops.aten.diagonal_copy.default](args = (%select_63,), kwargs = {}) # %exp_13 : [num_users=1] = call_function[target=torch.ops.aten.exp.default](args = (%diagonal_copy_9,), kwargs = {}) # %select_scatter_default_14 : [num_users=1] = call_function[target=torch.ops.aten.select_scatter.default](args = (%add_7, %exp_13, 0, 0), kwargs = {}) triton_poi_fused_add_diag_embed_diagonal_copy_exp_eye_masked_fill_ne_neg_11 = async_compile.triton('triton_poi_fused_add_diag_embed_diagonal_copy_exp_eye_masked_fill_ne_neg_11', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_diag_embed_diagonal_copy_exp_eye_masked_fill_ne_neg_11', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 3, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_diag_embed_diagonal_copy_exp_eye_masked_fill_ne_neg_11(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = (xindex // 4) x0 = xindex % 4 x2 = xindex tmp3 = tl.load(in_ptr0 + (48 + (5x0)), xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr0 + (48 + x2), xmask) tmp18 = tl.load(in_ptr1 + (x0), xmask, eviction_policy='evict_last') tmp0 = x1 tmp1 = tl.full([1], 0, tl.int32) tmp2 = tmp0 == tmp1 tmp4 = tl_math.exp(tmp3) tmp5 = x0 tmp6 = tmp0 == tmp5 tmp7 = 1.0 tmp8 = 0.0 tmp9 = tl.where(tmp6, tmp7, tmp8) tmp10 = tmp9 != tmp8 tmp12 = tl_math.exp(tmp11) tmp13 = 1e-05 tmp14 = tmp12 + tmp13 tmp15 = tl.where(tmp10, tmp8, tmp14) tmp16 = -tmp15 tmp17 = tmp5 == tmp0 tmp19 = tl.where(tmp17, tmp18, tmp8) tmp20 = tmp16 + tmp19 tmp21 = tl.where(tmp2, tmp4, tmp20) tl.store(out_ptr0 + (x2), tmp21, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/s3/cs3gvd4vxrcwwln23ccoasr7omajc7scigkbutbxw7gq332qtsp2.py # Topologically Sorted Source Nodes: [diag_14, add_6], Original ATen: [aten.diag_embed, aten.add] # Source node to ATen node mapping: # add_6 => add_6 # diag_14 => eq_8, full_default_20, iota_16, where_11 # Graph fragment: # %iota_16 : [num_users=1] = call_function[target=torch.ops.prims.iota.default](args = (4,), kwargs = {start: 0, step: 1, dtype: torch.int64, device: cuda:0, requires_grad: False}) # %eq_8 : [num_users=1] = call_function[target=torch.ops.aten.eq.Tensor](args = (%iota_16, %unsqueeze_17), kwargs = {}) # %full_default_20 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where_11 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%eq_8, %permute_14, %full_default_20), kwargs = {}) # %add_6 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%select_58, %where_11), kwargs = {}) triton_poi_fused_add_diag_embed_12 = async_compile.triton('triton_poi_fused_add_diag_embed_12', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_diag_embed_12', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 6, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_diag_embed_12(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x2 = xindex x1 = (xindex // 4) tmp5 = tl.load(in_ptr0 + (32 + x2), xmask) tmp7 = tl.load(in_ptr1 + (5x0), xmask, eviction_policy='evict_last') tmp13 = tl.load(in_ptr1 + (x2), xmask) tmp17 = tl.load(in_ptr2 + (32 + x2), xmask) tmp20 = tl.load(in_ptr0 + (32 + (5x0)), xmask, eviction_policy='evict_last') tmp22 = tl.load(in_ptr1 + (x0), xmask, eviction_policy='evict_last') tmp0 = tl.full([1], 2, tl.int32) tmp1 = tmp0 == tmp0 tmp2 = x0 tmp3 = tl.full([1], 0, tl.int32) tmp4 = tmp2 == tmp3 tmp6 = tl_math.exp(tmp5) tmp8 = tmp6 * tmp7 tmp9 = 0.0 tmp10 = tl.where(tmp4, tmp9, tmp8) tmp11 = x1 tmp12 = tmp11 == tmp3 tmp14 = tmp6 * tmp13 tmp15 = tl.where(tmp12, tmp9, tmp14) tmp16 = tmp10 - tmp15 tmp18 = tl.where(tmp1, tmp16, tmp17) tmp19 = tmp2 == tmp11 tmp21 = tl_math.exp(tmp20) tmp23 = tmp21 * tmp22 tmp24 = tl.where(tmp19, tmp23, tmp9) tmp25 = tmp18 + tmp24 tl.store(out_ptr0 + (x2), tmp25, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/me/cmej2qnos2ywrczshe25nqkszxvcm53ics5lgh4v3txzow4adwk6.py # Topologically Sorted Source Nodes: [exp_10, mul_6, setitem_11, exp_11, mul_7, setitem_12, sub_2, diag_14, add_6], Original ATen: [aten.exp, aten.mul, aten.lift_fresh, aten.fill, aten.sub, aten.diag_embed, aten.add] # Source node to ATen node mapping: # add_6 => add_6 # diag_14 => eq_8, full_default_20, iota_16, where_11 # exp_10 => exp_10 # exp_11 => exp_11 # mul_6 => mul_6 # mul_7 => mul_7 # setitem_11 => copy_11, full_default_18 # setitem_12 => copy_12, full_default_19 # sub_2 => sub_2 # Graph fragment: # %exp_10 : [num_users=1] = call_function[target=torch.ops.aten.exp.default](args = (%select_46,), kwargs = {}) # %mul_6 : [num_users=2] = call_function[target=torch.ops.aten.mul.Tensor](args = (%exp_10, %permute_11), kwargs = {}) # %full_default_18 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %copy_11 : [num_users=1] = call_function[target=torch.ops.aten.copy.default](args = (%select_48, %full_default_18), kwargs = {}) # %select_scatter_default_11 : [num_users=1] = call_function[target=torch.ops.aten.select_scatter.default](args = (%mul_6, %copy_11, 1, 0), kwargs = {}) # %exp_11 : [num_users=1] = call_function[target=torch.ops.aten.exp.default](args = (%select_47,), kwargs = {}) # %mul_7 : [num_users=2] = call_function[target=torch.ops.aten.mul.Tensor](args = (%exp_11, %permute_12), kwargs = {}) # %full_default_19 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %copy_12 : [num_users=1] = call_function[target=torch.ops.aten.copy.default](args = (%select_50, %full_default_19), kwargs = {}) # %select_scatter_default_12 : [num_users=1] = call_function[target=torch.ops.aten.select_scatter.default](args = (%mul_7, %copy_12, 0, 0), kwargs = {}) # %sub_2 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%select_scatter_default_11, %select_scatter_default_12), kwargs = {}) # %select_scatter_default_13 : [num_users=3] = call_function[target=torch.ops.aten.select_scatter.default](args = (%select_scatter_default_10, %sub_2, 0, 2), kwargs = {}) # %iota_16 : [num_users=1] = call_function[target=torch.ops.prims.iota.default](args = (4,), kwargs = {start: 0, step: 1, dtype: torch.int64, device: cuda:0, requires_grad: False}) # %eq_8 : [num_users=1] = call_function[target=torch.ops.aten.eq.Tensor](args = (%iota_16, %unsqueeze_17), kwargs = {}) # %full_default_20 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where_11 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%eq_8, %permute_14, %full_default_20), kwargs = {}) # %add_6 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%select_58, %where_11), kwargs = {}) # %select_scatter_default_15 : [num_users=2] = call_function[target=torch.ops.aten.select_scatter.default](args = (%select_scatter_default_13, %add_6, 0, 2), kwargs = {}) triton_poi_fused_add_diag_embed_exp_fill_lift_fresh_mul_sub_13 = async_compile.triton('triton_poi_fused_add_diag_embed_exp_fill_lift_fresh_mul_sub_13', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_diag_embed_exp_fill_lift_fresh_mul_sub_13', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_diag_embed_exp_fill_lift_fresh_mul_sub_13(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = (xindex // 16) x3 = xindex % 16 x0 = xindex % 4 x1 = (xindex // 4) % 4 x5 = xindex tmp3 = tl.load(in_ptr0 + (x3), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr1 + (32 + x3), xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr2 + (5x0), xmask, eviction_policy='evict_last') tmp15 = tl.load(in_ptr2 + (x3), xmask, eviction_policy='evict_last') tmp19 = tl.load(in_out_ptr0 + (x5), xmask) tmp0 = x2 tmp1 = tl.full([1], 2, tl.int32) tmp2 = tmp0 == tmp1 tmp4 = x0 tmp5 = tl.full([1], 0, tl.int32) tmp6 = tmp4 == tmp5 tmp8 = tl_math.exp(tmp7) tmp10 = tmp8 tmp9 tmp11 = 0.0 tmp12 = tl.where(tmp6, tmp11, tmp10) tmp13 = x1 tmp14 = tmp13 == tmp5 tmp16 = tmp8 * tmp15 tmp17 = tl.where(tmp14, tmp11, tmp16) tmp18 = tmp12 - tmp17 tmp20 = tl.where(tmp2, tmp18, tmp19) tmp21 = tl.where(tmp2, tmp3, tmp20) tl.store(in_out_ptr0 + (x5), tmp21, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/7m/c7mcscnhipdy5wvhd42yefmq35fu4oqgmcy7p53evfyoamhb6fsp.py # Topologically Sorted Source Nodes: [diag_19, add_8], Original ATen: [aten.diag_embed, aten.add] # Source node to ATen node mapping: # add_8 => add_8 # diag_19 => eq_11, full_default_27, iota_22, where_15 # Graph fragment: # %iota_22 : [num_users=1] = call_function[target=torch.ops.prims.iota.default](args = (4,), kwargs = {start: 0, step: 1, dtype: torch.int64, device: cuda:0, requires_grad: False}) # %eq_11 : [num_users=1] = call_function[target=torch.ops.aten.eq.Tensor](args = (%iota_22, %unsqueeze_23), kwargs = {}) # %full_default_27 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where_15 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%eq_11, %permute_19, %full_default_27), kwargs = {}) # %add_8 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%select_79, %where_15), kwargs = {}) triton_poi_fused_add_diag_embed_14 = async_compile.triton('triton_poi_fused_add_diag_embed_14', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_diag_embed_14', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 6, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_diag_embed_14(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x2 = xindex x1 = (xindex // 4) tmp5 = tl.load(in_ptr0 + (48 + x2), xmask) tmp7 = tl.load(in_ptr1 + (5x0), xmask, eviction_policy='evict_last') tmp13 = tl.load(in_ptr1 + (x2), xmask) tmp17 = tl.load(in_ptr2 + (48 + x2), xmask) tmp20 = tl.load(in_ptr0 + (48 + (5x0)), xmask, eviction_policy='evict_last') tmp22 = tl.load(in_ptr1 + (x0), xmask, eviction_policy='evict_last') tmp0 = tl.full([1], 3, tl.int32) tmp1 = tmp0 == tmp0 tmp2 = x0 tmp3 = tl.full([1], 0, tl.int32) tmp4 = tmp2 == tmp3 tmp6 = tl_math.exp(tmp5) tmp8 = tmp6 * tmp7 tmp9 = 0.0 tmp10 = tl.where(tmp4, tmp9, tmp8) tmp11 = x1 tmp12 = tmp11 == tmp3 tmp14 = tmp6 * tmp13 tmp15 = tl.where(tmp12, tmp9, tmp14) tmp16 = tmp10 - tmp15 tmp18 = tl.where(tmp1, tmp16, tmp17) tmp19 = tmp2 == tmp11 tmp21 = tl_math.exp(tmp20) tmp23 = tmp21 * tmp22 tmp24 = tl.where(tmp19, tmp23, tmp9) tmp25 = tmp18 + tmp24 tl.store(out_ptr0 + (x2), tmp25, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/xd/cxdxskm7n54mdwp6h2mbtokxdjclp2po3usor7fw3tqm473pzik6.py # Topologically Sorted Source Nodes: [exp_14, mul_9, setitem_16, exp_15, mul_10, setitem_17, sub_3, diag_19, add_8], Original ATen: [aten.exp, aten.mul, aten.lift_fresh, aten.fill, aten.sub, aten.diag_embed, aten.add] # Source node to ATen node mapping: # add_8 => add_8 # diag_19 => eq_11, full_default_27, iota_22, where_15 # exp_14 => exp_14 # exp_15 => exp_15 # mul_10 => mul_10 # mul_9 => mul_9 # setitem_16 => copy_16, full_default_25 # setitem_17 => copy_17, full_default_26 # sub_3 => sub_3 # Graph fragment: # %exp_14 : [num_users=1] = call_function[target=torch.ops.aten.exp.default](args = (%select_67,), kwargs = {}) # %mul_9 : [num_users=2] = call_function[target=torch.ops.aten.mul.Tensor](args = (%exp_14, %permute_16), kwargs = {}) # %full_default_25 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %copy_16 : [num_users=1] = call_function[target=torch.ops.aten.copy.default](args = (%select_69, %full_default_25), kwargs = {}) # %select_scatter_default_16 : [num_users=1] = call_function[target=torch.ops.aten.select_scatter.default](args = (%mul_9, %copy_16, 1, 0), kwargs = {}) # %exp_15 : [num_users=1] = call_function[target=torch.ops.aten.exp.default](args = (%select_68,), kwargs = {}) # %mul_10 : [num_users=2] = call_function[target=torch.ops.aten.mul.Tensor](args = (%exp_15, %permute_17), kwargs = {}) # %full_default_26 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %copy_17 : [num_users=1] = call_function[target=torch.ops.aten.copy.default](args = (%select_71, %full_default_26), kwargs = {}) # %select_scatter_default_17 : [num_users=1] = call_function[target=torch.ops.aten.select_scatter.default](args = (%mul_10, %copy_17, 0, 0), kwargs = {}) # %sub_3 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%select_scatter_default_16, %select_scatter_default_17), kwargs = {}) # %select_scatter_default_18 : [num_users=3] = call_function[target=torch.ops.aten.select_scatter.default](args = (%select_scatter_default_15, %sub_3, 0, 3), kwargs = {}) # %iota_22 : [num_users=1] = call_function[target=torch.ops.prims.iota.default](args = (4,), kwargs = {start: 0, step: 1, dtype: torch.int64, device: cuda:0, requires_grad: False}) # %eq_11 : [num_users=1] = call_function[target=torch.ops.aten.eq.Tensor](args = (%iota_22, %unsqueeze_23), kwargs = {}) # %full_default_27 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where_15 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%eq_11, %permute_19, %full_default_27), kwargs = {}) # %add_8 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%select_79, %where_15), kwargs = {}) # %select_scatter_default_19 : [num_users=1] = call_function[target=torch.ops.aten.select_scatter.default](args = (%select_scatter_default_18, %add_8, 0, 3), kwargs = {}) triton_poi_fused_add_diag_embed_exp_fill_lift_fresh_mul_sub_15 = async_compile.triton('triton_poi_fused_add_diag_embed_exp_fill_lift_fresh_mul_sub_15', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_diag_embed_exp_fill_lift_fresh_mul_sub_15', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_diag_embed_exp_fill_lift_fresh_mul_sub_15(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = (xindex // 16) x3 = xindex % 16 x0 = xindex % 4 x1 = (xindex // 4) % 4 x5 = xindex tmp3 = tl.load(in_ptr0 + (x3), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr1 + (48 + x3), xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr2 + (5x0), xmask, eviction_policy='evict_last') tmp15 = tl.load(in_ptr2 + (x3), xmask, eviction_policy='evict_last') tmp19 = tl.load(in_out_ptr0 + (x5), xmask) tmp0 = x2 tmp1 = tl.full([1], 3, tl.int32) tmp2 = tmp0 == tmp1 tmp4 = x0 tmp5 = tl.full([1], 0, tl.int32) tmp6 = tmp4 == tmp5 tmp8 = tl_math.exp(tmp7) tmp10 = tmp8 tmp9 tmp11 = 0.0 tmp12 = tl.where(tmp6, tmp11, tmp10) tmp13 = x1 tmp14 = tmp13 == tmp5 tmp16 = tmp8 * tmp15 tmp17 = tl.where(tmp14, tmp11, tmp16) tmp18 = tmp12 - tmp17 tmp20 = tl.where(tmp2, tmp18, tmp19) tmp21 = tl.where(tmp2, tmp3, tmp20) tl.store(in_out_ptr0 + (x5), tmp21, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4), (16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, ), (1, ), torch.float32) # Topologically Sorted Source Nodes: [eye, ne, lap, sum_1], Original ATen: [aten.eye, aten.ne, aten.masked_fill, aten.sum] stream0 = get_raw_stream(0) triton_poi_fused_eye_masked_fill_ne_sum_0.run(arg0_1, buf0, 4, grid=grid(4), stream=stream0) buf1 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [eye, ne, lap, neg, diag, lap_1, diag_1, exp_1], Original ATen: [aten.eye, aten.ne, aten.masked_fill, aten.neg, aten.diag_embed, aten.add, aten.diagonal_copy, aten.exp] triton_poi_fused_add_diag_embed_diagonal_copy_exp_eye_masked_fill_ne_neg_1.run(arg0_1, buf0, buf1, 16, grid=grid(16), stream=stream0) # Topologically Sorted Source Nodes: [eye, ne, lap, neg, diag, lap_1, diag_1, exp_1, inv_laplacian], Original ATen: [aten.eye, aten.ne, aten.masked_fill, aten.neg, aten.diag_embed, aten.add, aten.diagonal_copy, aten.exp, aten.linalg_inv_ex] buf2 = torch.ops.aten.linalg_inv_ex.default(buf1) buf3 = buf2[0] del buf2 buf5 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [eye_1, ne_1, lap_2, sum_2], Original ATen: [aten.eye, aten.ne, aten.masked_fill, aten.sum] triton_poi_fused_eye_masked_fill_ne_sum_2.run(arg0_1, buf5, 4, grid=grid(4), stream=stream0) buf6 = buf1; del buf1 # reuse # Topologically Sorted Source Nodes: [eye_1, ne_1, lap_2, neg_1, diag_5, lap_3, diag_6, exp_5], Original ATen: [aten.eye, aten.ne, aten.masked_fill, aten.neg, aten.diag_embed, aten.add, aten.diagonal_copy, aten.exp] triton_poi_fused_add_diag_embed_diagonal_copy_exp_eye_masked_fill_ne_neg_3.run(arg0_1, buf5, buf6, 16, grid=grid(16), stream=stream0) # Topologically Sorted Source Nodes: [eye_1, ne_1, lap_2, neg_1, diag_5, lap_3, diag_6, exp_5, inv_laplacian_1], Original ATen: [aten.eye, aten.ne, aten.masked_fill, aten.neg, aten.diag_embed, aten.add, aten.diagonal_copy, aten.exp, aten.linalg_inv_ex] buf7 = torch.ops.aten.linalg_inv_ex.default(buf6) buf8 = buf7[0] del buf7 buf10 = buf6; del buf6 # reuse # Topologically Sorted Source Nodes: [diag_4, add_2], Original ATen: [aten.diag_embed, aten.add] triton_poi_fused_add_diag_embed_4.run(arg0_1, buf3, buf10, 16, grid=grid(16), stream=stream0) buf11 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [exp_2, mul, setitem_1, exp_3, mul_1, setitem_2, sub, diag_4, add_2], Original ATen: [aten.exp, aten.mul, aten.lift_fresh, aten.fill, aten.sub, aten.diag_embed, aten.add] triton_poi_fused_add_diag_embed_exp_fill_lift_fresh_mul_sub_5.run(buf10, arg0_1, buf3, buf11, 64, grid=grid(64), stream=stream0) del buf10 buf12 = buf5; del buf5 # reuse # Topologically Sorted Source Nodes: [eye_2, ne_2, lap_4, sum_3], Original ATen: [aten.eye, aten.ne, aten.masked_fill, aten.sum] triton_poi_fused_eye_masked_fill_ne_sum_6.run(arg0_1, buf12, 4, grid=grid(4), stream=stream0) buf13 = reinterpret_tensor(buf3, (4, 4), (4, 1), 0); del buf3 # reuse # Topologically Sorted Source Nodes: [eye_2, ne_2, lap_4, neg_2, diag_10, lap_5, diag_11, exp_9], Original ATen: [aten.eye, aten.ne, aten.masked_fill, aten.neg, aten.diag_embed, aten.add, aten.diagonal_copy, aten.exp] triton_poi_fused_add_diag_embed_diagonal_copy_exp_eye_masked_fill_ne_neg_7.run(arg0_1, buf12, buf13, 16, grid=grid(16), stream=stream0) # Topologically Sorted Source Nodes: [eye_2, ne_2, lap_4, neg_2, diag_10, lap_5, diag_11, exp_9, inv_laplacian_2], Original ATen: [aten.eye, aten.ne, aten.masked_fill, aten.neg, aten.diag_embed, aten.add, aten.diagonal_copy, aten.exp, aten.linalg_inv_ex] buf14 = torch.ops.aten.linalg_inv_ex.default(buf13) buf15 = buf14[0] del buf14 buf17 = buf13; del buf13 # reuse # Topologically Sorted Source Nodes: [diag_9, add_4], Original ATen: [aten.diag_embed, aten.add] triton_poi_fused_add_diag_embed_8.run(arg0_1, buf8, buf11, buf17, 16, grid=grid(16), stream=stream0) buf18 = buf11; del buf11 # reuse # Topologically Sorted Source Nodes: [exp_6, mul_3, setitem_6, exp_7, mul_4, setitem_7, sub_1, diag_9, add_4], Original ATen: [aten.exp, aten.mul, aten.lift_fresh, aten.fill, aten.sub, aten.diag_embed, aten.add] triton_poi_fused_add_diag_embed_exp_fill_lift_fresh_mul_sub_9.run(buf18, buf17, arg0_1, buf8, 64, grid=grid(64), stream=stream0) del buf17 buf19 = buf12; del buf12 # reuse # Topologically Sorted Source Nodes: [eye_3, ne_3, lap_6, sum_4], Original ATen: [aten.eye, aten.ne, aten.masked_fill, aten.sum] triton_poi_fused_eye_masked_fill_ne_sum_10.run(arg0_1, buf19, 4, grid=grid(4), stream=stream0) buf20 = reinterpret_tensor(buf8, (4, 4), (4, 1), 0); del buf8 # reuse # Topologically Sorted Source Nodes: [eye_3, ne_3, lap_6, neg_3, diag_15, lap_7, diag_16, exp_13], Original ATen: [aten.eye, aten.ne, aten.masked_fill, aten.neg, aten.diag_embed, aten.add, aten.diagonal_copy, aten.exp] triton_poi_fused_add_diag_embed_diagonal_copy_exp_eye_masked_fill_ne_neg_11.run(arg0_1, buf19, buf20, 16, grid=grid(16), stream=stream0) del buf19 # Topologically Sorted Source Nodes: [eye_3, ne_3, lap_6, neg_3, diag_15, lap_7, diag_16, exp_13, inv_laplacian_3], Original ATen: [aten.eye, aten.ne, aten.masked_fill, aten.neg, aten.diag_embed, aten.add, aten.diagonal_copy, aten.exp, aten.linalg_inv_ex] buf21 = torch.ops.aten.linalg_inv_ex.default(buf20) buf22 = buf21[0] del buf21 buf24 = buf20; del buf20 # reuse # Topologically Sorted Source Nodes: [diag_14, add_6], Original ATen: [aten.diag_embed, aten.add] triton_poi_fused_add_diag_embed_12.run(arg0_1, buf15, buf18, buf24, 16, grid=grid(16), stream=stream0) buf25 = buf18; del buf18 # reuse # Topologically Sorted Source Nodes: [exp_10, mul_6, setitem_11, exp_11, mul_7, setitem_12, sub_2, diag_14, add_6], Original ATen: [aten.exp, aten.mul, aten.lift_fresh, aten.fill, aten.sub, aten.diag_embed, aten.add] triton_poi_fused_add_diag_embed_exp_fill_lift_fresh_mul_sub_13.run(buf25, buf24, arg0_1, buf15, 64, grid=grid(64), stream=stream0) del buf15 buf26 = buf24; del buf24 # reuse # Topologically Sorted Source Nodes: [diag_19, add_8], Original ATen: [aten.diag_embed, aten.add] triton_poi_fused_add_diag_embed_14.run(arg0_1, buf22, buf25, buf26, 16, grid=grid(16), stream=stream0) buf27 = buf25; del buf25 # reuse # Topologically Sorted Source Nodes: [exp_14, mul_9, setitem_16, exp_15, mul_10, setitem_17, sub_3, diag_19, add_8], Original ATen: [aten.exp, aten.mul, aten.lift_fresh, aten.fill, aten.sub, aten.diag_embed, aten.add] triton_poi_fused_add_diag_embed_exp_fill_lift_fresh_mul_sub_15.run(buf27, buf26, arg0_1, buf22, 64, grid=grid(64), stream=stream0) del arg0_1 del buf22 del buf26 return (buf27, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.cuda import torch.distributed class MatrixTree(nn.Module): """Implementation of the matrix-tree theorem for computing marginals of non-projective dependency parsing. This attention layer is used in the paper "Learning Structured Text Representations" :cite:`DBLP:journals/corr/LiuL17d`. """ def __init__(self, eps=1e-05): self.eps = eps super(MatrixTree, self).__init__() def forward(self, input): laplacian = input.exp() + self.eps output = input.clone() for b in range(input.size(0)): lap = laplacian[b].masked_fill(torch.eye(input.size(1), device= input.device).ne(0), 0) lap = -lap + torch.diag(lap.sum(0)) lap[0] = input[b].diag().exp() inv_laplacian = lap.inverse() factor = inv_laplacian.diag().unsqueeze(1).expand_as(input[b] ).transpose(0, 1) term1 = input[b].exp().mul(factor).clone() term2 = input[b].exp().mul(inv_laplacian.transpose(0, 1)).clone() term1[:, 0] = 0 term2[0] = 0 output[b] = term1 - term2 roots_output = input[b].diag().exp().mul(inv_laplacian. transpose(0, 1)[0]) output[b] = output[b] + torch.diag(roots_output) return output def get_inputs(): return [torch.rand([4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import math as tl_math import torch.nn as nn import torch.cuda import torch.distributed assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_eye_masked_fill_ne_sum_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 4 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp7 = tl.load(in_ptr0 + x0, xmask) tmp16 = tl.load(in_ptr0 + (4 + x0), xmask) tmp25 = tl.load(in_ptr0 + (8 + x0), xmask) tmp34 = tl.load(in_ptr0 + (12 + x0), xmask) tmp0 = tl.full([1], 0, tl.int64) tmp1 = x0 tmp2 = tmp0 == tmp1 tmp3 = 1.0 tmp4 = 0.0 tmp5 = tl.where(tmp2, tmp3, tmp4) tmp6 = tmp5 != tmp4 tmp8 = tl_math.exp(tmp7) tmp9 = 1e-05 tmp10 = tmp8 + tmp9 tmp11 = tl.where(tmp6, tmp4, tmp10) tmp12 = tl.full([1], 1, tl.int64) tmp13 = tmp12 == tmp1 tmp14 = tl.where(tmp13, tmp3, tmp4) tmp15 = tmp14 != tmp4 tmp17 = tl_math.exp(tmp16) tmp18 = tmp17 + tmp9 tmp19 = tl.where(tmp15, tmp4, tmp18) tmp20 = tmp11 + tmp19 tmp21 = tl.full([1], 2, tl.int64) tmp22 = tmp21 == tmp1 tmp23 = tl.where(tmp22, tmp3, tmp4) tmp24 = tmp23 != tmp4 tmp26 = tl_math.exp(tmp25) tmp27 = tmp26 + tmp9 tmp28 = tl.where(tmp24, tmp4, tmp27) tmp29 = tmp20 + tmp28 tmp30 = tl.full([1], 3, tl.int64) tmp31 = tmp30 == tmp1 tmp32 = tl.where(tmp31, tmp3, tmp4) tmp33 = tmp32 != tmp4 tmp35 = tl_math.exp(tmp34) tmp36 = tmp35 + tmp9 tmp37 = tl.where(tmp33, tmp4, tmp36) tmp38 = tmp29 + tmp37 tl.store(out_ptr0 + x0, tmp38, xmask) @triton.jit def triton_poi_fused_add_diag_embed_diagonal_copy_exp_eye_masked_fill_ne_neg_1( in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = xindex // 4 x0 = xindex % 4 x2 = xindex tmp3 = tl.load(in_ptr0 + 5 * x0, xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr0 + x2, xmask) tmp18 = tl.load(in_ptr1 + x0, xmask, eviction_policy='evict_last') tmp0 = x1 tmp1 = tl.full([1], 0, tl.int32) tmp2 = tmp0 == tmp1 tmp4 = tl_math.exp(tmp3) tmp5 = x0 tmp6 = tmp0 == tmp5 tmp7 = 1.0 tmp8 = 0.0 tmp9 = tl.where(tmp6, tmp7, tmp8) tmp10 = tmp9 != tmp8 tmp12 = tl_math.exp(tmp11) tmp13 = 1e-05 tmp14 = tmp12 + tmp13 tmp15 = tl.where(tmp10, tmp8, tmp14) tmp16 = -tmp15 tmp17 = tmp5 == tmp0 tmp19 = tl.where(tmp17, tmp18, tmp8) tmp20 = tmp16 + tmp19 tmp21 = tl.where(tmp2, tmp4, tmp20) tl.store(out_ptr0 + x2, tmp21, xmask) @triton.jit def triton_poi_fused_eye_masked_fill_ne_sum_2(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 4 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp7 = tl.load(in_ptr0 + (16 + x0), xmask) tmp16 = tl.load(in_ptr0 + (20 + x0), xmask) tmp25 = tl.load(in_ptr0 + (24 + x0), xmask) tmp34 = tl.load(in_ptr0 + (28 + x0), xmask) tmp0 = tl.full([1], 0, tl.int64) tmp1 = x0 tmp2 = tmp0 == tmp1 tmp3 = 1.0 tmp4 = 0.0 tmp5 = tl.where(tmp2, tmp3, tmp4) tmp6 = tmp5 != tmp4 tmp8 = tl_math.exp(tmp7) tmp9 = 1e-05 tmp10 = tmp8 + tmp9 tmp11 = tl.where(tmp6, tmp4, tmp10) tmp12 = tl.full([1], 1, tl.int64) tmp13 = tmp12 == tmp1 tmp14 = tl.where(tmp13, tmp3, tmp4) tmp15 = tmp14 != tmp4 tmp17 = tl_math.exp(tmp16) tmp18 = tmp17 + tmp9 tmp19 = tl.where(tmp15, tmp4, tmp18) tmp20 = tmp11 + tmp19 tmp21 = tl.full([1], 2, tl.int64) tmp22 = tmp21 == tmp1 tmp23 = tl.where(tmp22, tmp3, tmp4) tmp24 = tmp23 != tmp4 tmp26 = tl_math.exp(tmp25) tmp27 = tmp26 + tmp9 tmp28 = tl.where(tmp24, tmp4, tmp27) tmp29 = tmp20 + tmp28 tmp30 = tl.full([1], 3, tl.int64) tmp31 = tmp30 == tmp1 tmp32 = tl.where(tmp31, tmp3, tmp4) tmp33 = tmp32 != tmp4 tmp35 = tl_math.exp(tmp34) tmp36 = tmp35 + tmp9 tmp37 = tl.where(tmp33, tmp4, tmp36) tmp38 = tmp29 + tmp37 tl.store(out_ptr0 + x0, tmp38, xmask) @triton.jit def triton_poi_fused_add_diag_embed_diagonal_copy_exp_eye_masked_fill_ne_neg_3( in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = xindex // 4 x0 = xindex % 4 x2 = xindex tmp3 = tl.load(in_ptr0 + (16 + 5 * x0), xmask, eviction_policy='evict_last' ) tmp11 = tl.load(in_ptr0 + (16 + x2), xmask) tmp18 = tl.load(in_ptr1 + x0, xmask, eviction_policy='evict_last') tmp0 = x1 tmp1 = tl.full([1], 0, tl.int32) tmp2 = tmp0 == tmp1 tmp4 = tl_math.exp(tmp3) tmp5 = x0 tmp6 = tmp0 == tmp5 tmp7 = 1.0 tmp8 = 0.0 tmp9 = tl.where(tmp6, tmp7, tmp8) tmp10 = tmp9 != tmp8 tmp12 = tl_math.exp(tmp11) tmp13 = 1e-05 tmp14 = tmp12 + tmp13 tmp15 = tl.where(tmp10, tmp8, tmp14) tmp16 = -tmp15 tmp17 = tmp5 == tmp0 tmp19 = tl.where(tmp17, tmp18, tmp8) tmp20 = tmp16 + tmp19 tmp21 = tl.where(tmp2, tmp4, tmp20) tl.store(out_ptr0 + x2, tmp21, xmask) @triton.jit def triton_poi_fused_add_diag_embed_4(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x2 = xindex x1 = xindex // 4 tmp4 = tl.load(in_ptr0 + x2, xmask) tmp6 = tl.load(in_ptr1 + 5 * x0, xmask, eviction_policy='evict_last') tmp12 = tl.load(in_ptr1 + x2, xmask) tmp18 = tl.load(in_ptr0 + 5 * x0, xmask, eviction_policy='evict_last') tmp20 = tl.load(in_ptr1 + x0, xmask, eviction_policy='evict_last') tmp0 = tl.full([1], 0, tl.int32) tmp1 = tmp0 == tmp0 tmp2 = x0 tmp3 = tmp2 == tmp0 tmp5 = tl_math.exp(tmp4) tmp7 = tmp5 * tmp6 tmp8 = 0.0 tmp9 = tl.where(tmp3, tmp8, tmp7) tmp10 = x1 tmp11 = tmp10 == tmp0 tmp13 = tmp5 * tmp12 tmp14 = tl.where(tmp11, tmp8, tmp13) tmp15 = tmp9 - tmp14 tmp16 = tl.where(tmp1, tmp15, tmp4) tmp17 = tmp2 == tmp10 tmp19 = tl_math.exp(tmp18) tmp21 = tmp19 * tmp20 tmp22 = tl.where(tmp17, tmp21, tmp8) tmp23 = tmp16 + tmp22 tl.store(out_ptr0 + x2, tmp23, xmask) @triton.jit def triton_poi_fused_add_diag_embed_exp_fill_lift_fresh_mul_sub_5(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex // 16 x3 = xindex % 16 x0 = xindex % 4 x1 = xindex // 4 % 4 x5 = xindex tmp3 = tl.load(in_ptr0 + x3, xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr1 + x3, xmask, eviction_policy='evict_last') tmp8 = tl.load(in_ptr2 + 5 * x0, xmask, eviction_policy='evict_last') tmp14 = tl.load(in_ptr2 + x3, xmask, eviction_policy='evict_last') tmp18 = tl.load(in_ptr1 + x5, xmask) tmp0 = x2 tmp1 = tl.full([1], 0, tl.int32) tmp2 = tmp0 == tmp1 tmp4 = x0 tmp5 = tmp4 == tmp1 tmp7 = tl_math.exp(tmp6) tmp9 = tmp7 * tmp8 tmp10 = 0.0 tmp11 = tl.where(tmp5, tmp10, tmp9) tmp12 = x1 tmp13 = tmp12 == tmp1 tmp15 = tmp7 * tmp14 tmp16 = tl.where(tmp13, tmp10, tmp15) tmp17 = tmp11 - tmp16 tmp19 = tl.where(tmp2, tmp17, tmp18) tmp20 = tl.where(tmp2, tmp3, tmp19) tl.store(out_ptr0 + x5, tmp20, xmask) @triton.jit def triton_poi_fused_eye_masked_fill_ne_sum_6(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 4 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp7 = tl.load(in_ptr0 + (32 + x0), xmask) tmp16 = tl.load(in_ptr0 + (36 + x0), xmask) tmp25 = tl.load(in_ptr0 + (40 + x0), xmask) tmp34 = tl.load(in_ptr0 + (44 + x0), xmask) tmp0 = tl.full([1], 0, tl.int64) tmp1 = x0 tmp2 = tmp0 == tmp1 tmp3 = 1.0 tmp4 = 0.0 tmp5 = tl.where(tmp2, tmp3, tmp4) tmp6 = tmp5 != tmp4 tmp8 = tl_math.exp(tmp7) tmp9 = 1e-05 tmp10 = tmp8 + tmp9 tmp11 = tl.where(tmp6, tmp4, tmp10) tmp12 = tl.full([1], 1, tl.int64) tmp13 = tmp12 == tmp1 tmp14 = tl.where(tmp13, tmp3, tmp4) tmp15 = tmp14 != tmp4 tmp17 = tl_math.exp(tmp16) tmp18 = tmp17 + tmp9 tmp19 = tl.where(tmp15, tmp4, tmp18) tmp20 = tmp11 + tmp19 tmp21 = tl.full([1], 2, tl.int64) tmp22 = tmp21 == tmp1 tmp23 = tl.where(tmp22, tmp3, tmp4) tmp24 = tmp23 != tmp4 tmp26 = tl_math.exp(tmp25) tmp27 = tmp26 + tmp9 tmp28 = tl.where(tmp24, tmp4, tmp27) tmp29 = tmp20 + tmp28 tmp30 = tl.full([1], 3, tl.int64) tmp31 = tmp30 == tmp1 tmp32 = tl.where(tmp31, tmp3, tmp4) tmp33 = tmp32 != tmp4 tmp35 = tl_math.exp(tmp34) tmp36 = tmp35 + tmp9 tmp37 = tl.where(tmp33, tmp4, tmp36) tmp38 = tmp29 + tmp37 tl.store(out_ptr0 + x0, tmp38, xmask) @triton.jit def triton_poi_fused_add_diag_embed_diagonal_copy_exp_eye_masked_fill_ne_neg_7( in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = xindex // 4 x0 = xindex % 4 x2 = xindex tmp3 = tl.load(in_ptr0 + (32 + 5 * x0), xmask, eviction_policy='evict_last' ) tmp11 = tl.load(in_ptr0 + (32 + x2), xmask) tmp18 = tl.load(in_ptr1 + x0, xmask, eviction_policy='evict_last') tmp0 = x1 tmp1 = tl.full([1], 0, tl.int32) tmp2 = tmp0 == tmp1 tmp4 = tl_math.exp(tmp3) tmp5 = x0 tmp6 = tmp0 == tmp5 tmp7 = 1.0 tmp8 = 0.0 tmp9 = tl.where(tmp6, tmp7, tmp8) tmp10 = tmp9 != tmp8 tmp12 = tl_math.exp(tmp11) tmp13 = 1e-05 tmp14 = tmp12 + tmp13 tmp15 = tl.where(tmp10, tmp8, tmp14) tmp16 = -tmp15 tmp17 = tmp5 == tmp0 tmp19 = tl.where(tmp17, tmp18, tmp8) tmp20 = tmp16 + tmp19 tmp21 = tl.where(tmp2, tmp4, tmp20) tl.store(out_ptr0 + x2, tmp21, xmask) @triton.jit def triton_poi_fused_add_diag_embed_8(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x2 = xindex x1 = xindex // 4 tmp5 = tl.load(in_ptr0 + (16 + x2), xmask) tmp7 = tl.load(in_ptr1 + 5 * x0, xmask, eviction_policy='evict_last') tmp13 = tl.load(in_ptr1 + x2, xmask) tmp17 = tl.load(in_ptr2 + (16 + x2), xmask) tmp20 = tl.load(in_ptr0 + (16 + 5 * x0), xmask, eviction_policy= 'evict_last') tmp22 = tl.load(in_ptr1 + x0, xmask, eviction_policy='evict_last') tmp0 = tl.full([1], 1, tl.int32) tmp1 = tmp0 == tmp0 tmp2 = x0 tmp3 = tl.full([1], 0, tl.int32) tmp4 = tmp2 == tmp3 tmp6 = tl_math.exp(tmp5) tmp8 = tmp6 * tmp7 tmp9 = 0.0 tmp10 = tl.where(tmp4, tmp9, tmp8) tmp11 = x1 tmp12 = tmp11 == tmp3 tmp14 = tmp6 * tmp13 tmp15 = tl.where(tmp12, tmp9, tmp14) tmp16 = tmp10 - tmp15 tmp18 = tl.where(tmp1, tmp16, tmp17) tmp19 = tmp2 == tmp11 tmp21 = tl_math.exp(tmp20) tmp23 = tmp21 * tmp22 tmp24 = tl.where(tmp19, tmp23, tmp9) tmp25 = tmp18 + tmp24 tl.store(out_ptr0 + x2, tmp25, xmask) @triton.jit def triton_poi_fused_add_diag_embed_exp_fill_lift_fresh_mul_sub_9(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex // 16 x3 = xindex % 16 x0 = xindex % 4 x1 = xindex // 4 % 4 x5 = xindex tmp3 = tl.load(in_ptr0 + x3, xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr1 + (16 + x3), xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr2 + 5 * x0, xmask, eviction_policy='evict_last') tmp15 = tl.load(in_ptr2 + x3, xmask, eviction_policy='evict_last') tmp19 = tl.load(in_out_ptr0 + x5, xmask) tmp0 = x2 tmp1 = tl.full([1], 1, tl.int32) tmp2 = tmp0 == tmp1 tmp4 = x0 tmp5 = tl.full([1], 0, tl.int32) tmp6 = tmp4 == tmp5 tmp8 = tl_math.exp(tmp7) tmp10 = tmp8 * tmp9 tmp11 = 0.0 tmp12 = tl.where(tmp6, tmp11, tmp10) tmp13 = x1 tmp14 = tmp13 == tmp5 tmp16 = tmp8 * tmp15 tmp17 = tl.where(tmp14, tmp11, tmp16) tmp18 = tmp12 - tmp17 tmp20 = tl.where(tmp2, tmp18, tmp19) tmp21 = tl.where(tmp2, tmp3, tmp20) tl.store(in_out_ptr0 + x5, tmp21, xmask) @triton.jit def triton_poi_fused_eye_masked_fill_ne_sum_10(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 4 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp7 = tl.load(in_ptr0 + (48 + x0), xmask) tmp16 = tl.load(in_ptr0 + (52 + x0), xmask) tmp25 = tl.load(in_ptr0 + (56 + x0), xmask) tmp34 = tl.load(in_ptr0 + (60 + x0), xmask) tmp0 = tl.full([1], 0, tl.int64) tmp1 = x0 tmp2 = tmp0 == tmp1 tmp3 = 1.0 tmp4 = 0.0 tmp5 = tl.where(tmp2, tmp3, tmp4) tmp6 = tmp5 != tmp4 tmp8 = tl_math.exp(tmp7) tmp9 = 1e-05 tmp10 = tmp8 + tmp9 tmp11 = tl.where(tmp6, tmp4, tmp10) tmp12 = tl.full([1], 1, tl.int64) tmp13 = tmp12 == tmp1 tmp14 = tl.where(tmp13, tmp3, tmp4) tmp15 = tmp14 != tmp4 tmp17 = tl_math.exp(tmp16) tmp18 = tmp17 + tmp9 tmp19 = tl.where(tmp15, tmp4, tmp18) tmp20 = tmp11 + tmp19 tmp21 = tl.full([1], 2, tl.int64) tmp22 = tmp21 == tmp1 tmp23 = tl.where(tmp22, tmp3, tmp4) tmp24 = tmp23 != tmp4 tmp26 = tl_math.exp(tmp25) tmp27 = tmp26 + tmp9 tmp28 = tl.where(tmp24, tmp4, tmp27) tmp29 = tmp20 + tmp28 tmp30 = tl.full([1], 3, tl.int64) tmp31 = tmp30 == tmp1 tmp32 = tl.where(tmp31, tmp3, tmp4) tmp33 = tmp32 != tmp4 tmp35 = tl_math.exp(tmp34) tmp36 = tmp35 + tmp9 tmp37 = tl.where(tmp33, tmp4, tmp36) tmp38 = tmp29 + tmp37 tl.store(out_ptr0 + x0, tmp38, xmask) @triton.jit def triton_poi_fused_add_diag_embed_diagonal_copy_exp_eye_masked_fill_ne_neg_11( in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = xindex // 4 x0 = xindex % 4 x2 = xindex tmp3 = tl.load(in_ptr0 + (48 + 5 * x0), xmask, eviction_policy='evict_last' ) tmp11 = tl.load(in_ptr0 + (48 + x2), xmask) tmp18 = tl.load(in_ptr1 + x0, xmask, eviction_policy='evict_last') tmp0 = x1 tmp1 = tl.full([1], 0, tl.int32) tmp2 = tmp0 == tmp1 tmp4 = tl_math.exp(tmp3) tmp5 = x0 tmp6 = tmp0 == tmp5 tmp7 = 1.0 tmp8 = 0.0 tmp9 = tl.where(tmp6, tmp7, tmp8) tmp10 = tmp9 != tmp8 tmp12 = tl_math.exp(tmp11) tmp13 = 1e-05 tmp14 = tmp12 + tmp13 tmp15 = tl.where(tmp10, tmp8, tmp14) tmp16 = -tmp15 tmp17 = tmp5 == tmp0 tmp19 = tl.where(tmp17, tmp18, tmp8) tmp20 = tmp16 + tmp19 tmp21 = tl.where(tmp2, tmp4, tmp20) tl.store(out_ptr0 + x2, tmp21, xmask) @triton.jit def triton_poi_fused_add_diag_embed_12(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x2 = xindex x1 = xindex // 4 tmp5 = tl.load(in_ptr0 + (32 + x2), xmask) tmp7 = tl.load(in_ptr1 + 5 * x0, xmask, eviction_policy='evict_last') tmp13 = tl.load(in_ptr1 + x2, xmask) tmp17 = tl.load(in_ptr2 + (32 + x2), xmask) tmp20 = tl.load(in_ptr0 + (32 + 5 * x0), xmask, eviction_policy= 'evict_last') tmp22 = tl.load(in_ptr1 + x0, xmask, eviction_policy='evict_last') tmp0 = tl.full([1], 2, tl.int32) tmp1 = tmp0 == tmp0 tmp2 = x0 tmp3 = tl.full([1], 0, tl.int32) tmp4 = tmp2 == tmp3 tmp6 = tl_math.exp(tmp5) tmp8 = tmp6 * tmp7 tmp9 = 0.0 tmp10 = tl.where(tmp4, tmp9, tmp8) tmp11 = x1 tmp12 = tmp11 == tmp3 tmp14 = tmp6 * tmp13 tmp15 = tl.where(tmp12, tmp9, tmp14) tmp16 = tmp10 - tmp15 tmp18 = tl.where(tmp1, tmp16, tmp17) tmp19 = tmp2 == tmp11 tmp21 = tl_math.exp(tmp20) tmp23 = tmp21 * tmp22 tmp24 = tl.where(tmp19, tmp23, tmp9) tmp25 = tmp18 + tmp24 tl.store(out_ptr0 + x2, tmp25, xmask) @triton.jit def triton_poi_fused_add_diag_embed_exp_fill_lift_fresh_mul_sub_13(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex // 16 x3 = xindex % 16 x0 = xindex % 4 x1 = xindex // 4 % 4 x5 = xindex tmp3 = tl.load(in_ptr0 + x3, xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr1 + (32 + x3), xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr2 + 5 * x0, xmask, eviction_policy='evict_last') tmp15 = tl.load(in_ptr2 + x3, xmask, eviction_policy='evict_last') tmp19 = tl.load(in_out_ptr0 + x5, xmask) tmp0 = x2 tmp1 = tl.full([1], 2, tl.int32) tmp2 = tmp0 == tmp1 tmp4 = x0 tmp5 = tl.full([1], 0, tl.int32) tmp6 = tmp4 == tmp5 tmp8 = tl_math.exp(tmp7) tmp10 = tmp8 * tmp9 tmp11 = 0.0 tmp12 = tl.where(tmp6, tmp11, tmp10) tmp13 = x1 tmp14 = tmp13 == tmp5 tmp16 = tmp8 * tmp15 tmp17 = tl.where(tmp14, tmp11, tmp16) tmp18 = tmp12 - tmp17 tmp20 = tl.where(tmp2, tmp18, tmp19) tmp21 = tl.where(tmp2, tmp3, tmp20) tl.store(in_out_ptr0 + x5, tmp21, xmask) @triton.jit def triton_poi_fused_add_diag_embed_14(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x2 = xindex x1 = xindex // 4 tmp5 = tl.load(in_ptr0 + (48 + x2), xmask) tmp7 = tl.load(in_ptr1 + 5 * x0, xmask, eviction_policy='evict_last') tmp13 = tl.load(in_ptr1 + x2, xmask) tmp17 = tl.load(in_ptr2 + (48 + x2), xmask) tmp20 = tl.load(in_ptr0 + (48 + 5 * x0), xmask, eviction_policy= 'evict_last') tmp22 = tl.load(in_ptr1 + x0, xmask, eviction_policy='evict_last') tmp0 = tl.full([1], 3, tl.int32) tmp1 = tmp0 == tmp0 tmp2 = x0 tmp3 = tl.full([1], 0, tl.int32) tmp4 = tmp2 == tmp3 tmp6 = tl_math.exp(tmp5) tmp8 = tmp6 * tmp7 tmp9 = 0.0 tmp10 = tl.where(tmp4, tmp9, tmp8) tmp11 = x1 tmp12 = tmp11 == tmp3 tmp14 = tmp6 * tmp13 tmp15 = tl.where(tmp12, tmp9, tmp14) tmp16 = tmp10 - tmp15 tmp18 = tl.where(tmp1, tmp16, tmp17) tmp19 = tmp2 == tmp11 tmp21 = tl_math.exp(tmp20) tmp23 = tmp21 * tmp22 tmp24 = tl.where(tmp19, tmp23, tmp9) tmp25 = tmp18 + tmp24 tl.store(out_ptr0 + x2, tmp25, xmask) @triton.jit def triton_poi_fused_add_diag_embed_exp_fill_lift_fresh_mul_sub_15(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex // 16 x3 = xindex % 16 x0 = xindex % 4 x1 = xindex // 4 % 4 x5 = xindex tmp3 = tl.load(in_ptr0 + x3, xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr1 + (48 + x3), xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr2 + 5 * x0, xmask, eviction_policy='evict_last') tmp15 = tl.load(in_ptr2 + x3, xmask, eviction_policy='evict_last') tmp19 = tl.load(in_out_ptr0 + x5, xmask) tmp0 = x2 tmp1 = tl.full([1], 3, tl.int32) tmp2 = tmp0 == tmp1 tmp4 = x0 tmp5 = tl.full([1], 0, tl.int32) tmp6 = tmp4 == tmp5 tmp8 = tl_math.exp(tmp7) tmp10 = tmp8 * tmp9 tmp11 = 0.0 tmp12 = tl.where(tmp6, tmp11, tmp10) tmp13 = x1 tmp14 = tmp13 == tmp5 tmp16 = tmp8 * tmp15 tmp17 = tl.where(tmp14, tmp11, tmp16) tmp18 = tmp12 - tmp17 tmp20 = tl.where(tmp2, tmp18, tmp19) tmp21 = tl.where(tmp2, tmp3, tmp20) tl.store(in_out_ptr0 + x5, tmp21, xmask) def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4), (16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4,), (1,), torch.float32) get_raw_stream(0) triton_poi_fused_eye_masked_fill_ne_sum_0[grid(4)](arg0_1, buf0, 4, XBLOCK=4, num_warps=1, num_stages=1) buf1 = empty_strided_cuda((4, 4), (4, 1), torch.float32) triton_poi_fused_add_diag_embed_diagonal_copy_exp_eye_masked_fill_ne_neg_1[ grid(16)](arg0_1, buf0, buf1, 16, XBLOCK=16, num_warps=1, num_stages=1) buf2 = torch.ops.aten.linalg_inv_ex.default(buf1) buf3 = buf2[0] del buf2 buf5 = buf0 del buf0 triton_poi_fused_eye_masked_fill_ne_sum_2[grid(4)](arg0_1, buf5, 4, XBLOCK=4, num_warps=1, num_stages=1) buf6 = buf1 del buf1 triton_poi_fused_add_diag_embed_diagonal_copy_exp_eye_masked_fill_ne_neg_3[ grid(16)](arg0_1, buf5, buf6, 16, XBLOCK=16, num_warps=1, num_stages=1) buf7 = torch.ops.aten.linalg_inv_ex.default(buf6) buf8 = buf7[0] del buf7 buf10 = buf6 del buf6 triton_poi_fused_add_diag_embed_4[grid(16)](arg0_1, buf3, buf10, 16, XBLOCK=16, num_warps=1, num_stages=1) buf11 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) triton_poi_fused_add_diag_embed_exp_fill_lift_fresh_mul_sub_5[grid(64) ](buf10, arg0_1, buf3, buf11, 64, XBLOCK=64, num_warps=1, num_stages=1) del buf10 buf12 = buf5 del buf5 triton_poi_fused_eye_masked_fill_ne_sum_6[grid(4)](arg0_1, buf12, 4, XBLOCK=4, num_warps=1, num_stages=1) buf13 = reinterpret_tensor(buf3, (4, 4), (4, 1), 0) del buf3 triton_poi_fused_add_diag_embed_diagonal_copy_exp_eye_masked_fill_ne_neg_7[ grid(16)](arg0_1, buf12, buf13, 16, XBLOCK=16, num_warps=1, num_stages=1) buf14 = torch.ops.aten.linalg_inv_ex.default(buf13) buf15 = buf14[0] del buf14 buf17 = buf13 del buf13 triton_poi_fused_add_diag_embed_8[grid(16)](arg0_1, buf8, buf11, buf17, 16, XBLOCK=16, num_warps=1, num_stages=1) buf18 = buf11 del buf11 triton_poi_fused_add_diag_embed_exp_fill_lift_fresh_mul_sub_9[grid(64) ](buf18, buf17, arg0_1, buf8, 64, XBLOCK=64, num_warps=1, num_stages=1) del buf17 buf19 = buf12 del buf12 triton_poi_fused_eye_masked_fill_ne_sum_10[grid(4)](arg0_1, buf19, 4, XBLOCK=4, num_warps=1, num_stages=1) buf20 = reinterpret_tensor(buf8, (4, 4), (4, 1), 0) del buf8 triton_poi_fused_add_diag_embed_diagonal_copy_exp_eye_masked_fill_ne_neg_11[ grid(16)](arg0_1, buf19, buf20, 16, XBLOCK=16, num_warps=1, num_stages=1) del buf19 buf21 = torch.ops.aten.linalg_inv_ex.default(buf20) buf22 = buf21[0] del buf21 buf24 = buf20 del buf20 triton_poi_fused_add_diag_embed_12[grid(16)](arg0_1, buf15, buf18, buf24, 16, XBLOCK=16, num_warps=1, num_stages=1) buf25 = buf18 del buf18 triton_poi_fused_add_diag_embed_exp_fill_lift_fresh_mul_sub_13[grid(64) ](buf25, buf24, arg0_1, buf15, 64, XBLOCK=64, num_warps=1, num_stages=1) del buf15 buf26 = buf24 del buf24 triton_poi_fused_add_diag_embed_14[grid(16)](arg0_1, buf22, buf25, buf26, 16, XBLOCK=16, num_warps=1, num_stages=1) buf27 = buf25 del buf25 triton_poi_fused_add_diag_embed_exp_fill_lift_fresh_mul_sub_15[grid(64) ](buf27, buf26, arg0_1, buf22, 64, XBLOCK=64, num_warps=1, num_stages=1) del arg0_1 del buf22 del buf26 return buf27, class MatrixTreeNew(nn.Module): """Implementation of the matrix-tree theorem for computing marginals of non-projective dependency parsing. This attention layer is used in the paper "Learning Structured Text Representations" :cite:`DBLP:journals/corr/LiuL17d`. """ def __init__(self, eps=1e-05): self.eps = eps super(MatrixTreeNew, self).__init__() def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	GarrettNicolai/OpenNMT-py	MatrixTree	false	9,140	[ "MIT" ]	9491d900ac1b50fe39da417bacc0b9d610331888	https://github.com/GarrettNicolai/OpenNMT-py/tree/9491d900ac1b50fe39da417bacc0b9d610331888
EqualConv2d	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/mr/cmrzofxtfa5fe3ax4o3n5qvgpvhbgcrspjauzarmp4t443npav4h.py # Topologically Sorted Source Nodes: [weight], Original ATen: [aten.mul] # Source node to ATen node mapping: # weight => mul # Graph fragment: # %mul : [num_users=2] = call_function[target=torch.ops.aten.mul.Tensor](args = (%primals_1, 0.1767766952966369), kwargs = {}) triton_poi_fused_mul_0 = async_compile.triton('triton_poi_fused_mul_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_mul_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_mul_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = 0.1767766952966369 tmp2 = tmp0 * tmp1 tl.store(out_ptr0 + (x0), tmp2, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/tc/ctcagp37ljugm52zu6ckorigrppqo67voefe2f2odg5r6hyllhyu.py # Topologically Sorted Source Nodes: [conv2d], Original ATen: [aten.convolution] # Source node to ATen node mapping: # conv2d => convolution # Graph fragment: # %convolution : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_3, %mul, %primals_2, [1, 1], [0, 0], [1, 1], False, [0, 0], 1), kwargs = {}) triton_poi_fused_convolution_1 = async_compile.triton('triton_poi_fused_convolution_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + (x2), tmp2, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [weight], Original ATen: [aten.mul] stream0 = get_raw_stream(0) triton_poi_fused_mul_0.run(primals_1, buf0, 256, grid=grid(256), stream=stream0) del primals_1 # Topologically Sorted Source Nodes: [conv2d], Original ATen: [aten.convolution] buf1 = extern_kernels.convolution(primals_3, buf0, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf1, (4, 4, 1, 1), (4, 1, 1, 1)) buf2 = buf1; del buf1 # reuse # Topologically Sorted Source Nodes: [conv2d], Original ATen: [aten.convolution] triton_poi_fused_convolution_1.run(buf2, primals_2, 16, grid=grid(16), stream=stream0) del primals_2 return (buf2, buf0, primals_3, buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn from math import sqrt import torch.utils.data def equal_lr(module, name='weight'): EqualLR.apply(module, name) return module class EqualLR: def __init__(self, name): self.name = name def compute_weight(self, module): weight = getattr(module, self.name + '_orig') fan_in = weight.data.size(1) * weight.data[0][0].numel() return weight * sqrt(2 / fan_in) @staticmethod def apply(module, name): fn = EqualLR(name) weight = getattr(module, name) del module._parameters[name] module.register_parameter(name + '_orig', nn.Parameter(weight.data)) module.register_forward_pre_hook(fn) return fn def __call__(self, module, input): weight = self.compute_weight(module) setattr(module, self.name, weight) class EqualConv2d(nn.Module): def __init__(self, args, kwargs): super().__init__() conv = nn.Conv2d(args, **kwargs) conv.weight.data.normal_() conv.bias.data.zero_() self.conv = equal_lr(conv) def forward(self, input): return self.conv(input) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'in_channels': 4, 'out_channels': 4, 'kernel_size': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.nn as nn from math import sqrt import torch.utils.data assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_mul_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = 0.1767766952966369 tmp2 = tmp0 * tmp1 tl.store(out_ptr0 + x0, tmp2, xmask) @triton.jit def triton_poi_fused_convolution_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl .constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + x2, tmp2, xmask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_mul_0[grid(256)](primals_1, buf0, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_1 buf1 = extern_kernels.convolution(primals_3, buf0, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf1, (4, 4, 1, 1), (4, 1, 1, 1)) buf2 = buf1 del buf1 triton_poi_fused_convolution_1[grid(16)](buf2, primals_2, 16, XBLOCK=16, num_warps=1, num_stages=1) del primals_2 return buf2, buf0, primals_3, buf0 def equal_lr(module, name='weight'): EqualLR.apply(module, name) return module class EqualLR: def __init__(self, name): self.name = name def compute_weight(self, module): weight = getattr(module, self.name + '_orig') fan_in = weight.data.size(1) * weight.data[0][0].numel() return weight * sqrt(2 / fan_in) @staticmethod def apply(module, name): fn = EqualLR(name) weight = getattr(module, name) del module._parameters[name] module.register_parameter(name + '_orig', nn.Parameter(weight.data)) module.register_forward_pre_hook(fn) return fn def __call__(self, module, input): weight = self.compute_weight(module) setattr(module, self.name, weight) class EqualConv2dNew(nn.Module): def __init__(self, args, kwargs): super().__init__() conv = nn.Conv2d(args, **kwargs) conv.weight.data.normal_() conv.bias.data.zero_() self.conv = equal_lr(conv) def forward(self, input_0): primals_2 = self.conv.bias primals_1 = self.conv.weight_orig primals_3 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	GuiCamargoX/gans_pytorch	EqualConv2d	false	9,141	[ "MIT" ]	3103184e54ea0d2922fc664a994a912bf61db426	https://github.com/GuiCamargoX/gans_pytorch/tree/3103184e54ea0d2922fc664a994a912bf61db426
EqualLinear	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/fl/cflw6zjzdk2wqtau7m6nsei5vavjfijzxhb37zaa3xp4yxpw5yb2.py # Topologically Sorted Source Nodes: [mul], Original ATen: [aten.mul] # Source node to ATen node mapping: # mul => mul # Graph fragment: # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%primals_1, 1), kwargs = {}) triton_poi_fused_mul_0 = async_compile.triton('triton_poi_fused_mul_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_mul_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_mul_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = 1.0 tmp2 = tmp0 * tmp1 tl.store(out_ptr0 + (x0), tmp2, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/2o/c2oqkq7zaubqmw7vuixxlseb2ff5jzqqbyczicxlmsahuxwdpdyp.py # Topologically Sorted Source Nodes: [mul_1], Original ATen: [aten.mul] # Source node to ATen node mapping: # mul_1 => mul_1 # Graph fragment: # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%primals_2, 1), kwargs = {}) triton_poi_fused_mul_1 = async_compile.triton('triton_poi_fused_mul_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[4], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_mul_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_mul_1(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 4 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = 1.0 tmp2 = tmp0 * tmp1 tl.store(out_ptr0 + (x0), tmp2, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [mul], Original ATen: [aten.mul] stream0 = get_raw_stream(0) triton_poi_fused_mul_0.run(primals_1, buf0, 16, grid=grid(16), stream=stream0) del primals_1 buf1 = empty_strided_cuda((4, ), (1, ), torch.float32) # Topologically Sorted Source Nodes: [mul_1], Original ATen: [aten.mul] triton_poi_fused_mul_1.run(primals_2, buf1, 4, grid=grid(4), stream=stream0) del primals_2 buf2 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [mul_1, linear], Original ATen: [aten.mul, aten.addmm] extern_kernels.addmm(buf1, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(buf0, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf2) del buf0 del buf1 return (reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0), reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.nn.functional as F import torch.utils.data class EqualLinear(nn.Module): def __init__(self, in_dim, out_dim, lr_mul=1, bias=True): super().__init__() self.weight = nn.Parameter(torch.randn(out_dim, in_dim)) if bias: self.bias = nn.Parameter(torch.zeros(out_dim)) self.lr_mul = lr_mul def forward(self, input): return F.linear(input, self.weight * self.lr_mul, bias=self.bias * self.lr_mul) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'in_dim': 4, 'out_dim': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.nn as nn import torch.utils.data assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_mul_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = 1.0 tmp2 = tmp0 * tmp1 tl.store(out_ptr0 + x0, tmp2, xmask) @triton.jit def triton_poi_fused_mul_1(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 4 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = 1.0 tmp2 = tmp0 * tmp1 tl.store(out_ptr0 + x0, tmp2, xmask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4), (4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_mul_0[grid(16)](primals_1, buf0, 16, XBLOCK=16, num_warps=1, num_stages=1) del primals_1 buf1 = empty_strided_cuda((4,), (1,), torch.float32) triton_poi_fused_mul_1[grid(4)](primals_2, buf1, 4, XBLOCK=4, num_warps=1, num_stages=1) del primals_2 buf2 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.addmm(buf1, reinterpret_tensor(primals_3, (64, 4), ( 4, 1), 0), reinterpret_tensor(buf0, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf2) del buf0 del buf1 return reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0 ), reinterpret_tensor(primals_3, (64, 4), (4, 1), 0) class EqualLinearNew(nn.Module): def __init__(self, in_dim, out_dim, lr_mul=1, bias=True): super().__init__() self.weight = nn.Parameter(torch.randn(out_dim, in_dim)) if bias: self.bias = nn.Parameter(torch.zeros(out_dim)) self.lr_mul = lr_mul def forward(self, input_0): primals_1 = self.weight primals_2 = self.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	GuiCamargoX/gans_pytorch	EqualLinear	false	9,142	[ "MIT" ]	3103184e54ea0d2922fc664a994a912bf61db426	https://github.com/GuiCamargoX/gans_pytorch/tree/3103184e54ea0d2922fc664a994a912bf61db426
TimeEncode	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/lo/clokukz4nbskqkm6bzg3ygkvygtaf7ckpqlwtxkl4gnncd7hhrnk.py # Topologically Sorted Source Nodes: [output], Original ATen: [aten.cos] # Source node to ATen node mapping: # output => cos # Graph fragment: # %cos : [num_users=1] = call_function[target=torch.ops.aten.cos.default](args = (%view_1,), kwargs = {}) triton_poi_fused_cos_0 = async_compile.triton('triton_poi_fused_cos_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_cos_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_cos_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = tl_math.cos(tmp0) tl.store(out_ptr0 + (x0), tmp1, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, 1), (1, 1)) assert_size_stride(primals_3, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((16, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [linear], Original ATen: [aten.addmm] extern_kernels.addmm(primals_3, reinterpret_tensor(primals_1, (16, 1), (1, 1), 0), reinterpret_tensor(primals_2, (1, 4), (1, 1), 0), alpha=1, beta=1, out=buf0) del primals_2 del primals_3 buf1 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [output], Original ATen: [aten.cos] stream0 = get_raw_stream(0) triton_poi_fused_cos_0.run(buf0, buf1, 64, grid=grid(64), stream=stream0) return (buf1, reinterpret_tensor(primals_1, (16, 1), (1, 1), 0), buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 1), (1, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import numpy as np class TimeEncode(torch.nn.Module): def __init__(self, dimension): super(TimeEncode, self).__init__() self.dimension = dimension self.w = torch.nn.Linear(1, dimension) self.w.weight = torch.nn.Parameter(torch.from_numpy(1 / 10 ** np. linspace(0, 9, dimension)).float().reshape(dimension, -1)) self.w.bias = torch.nn.Parameter(torch.zeros(dimension).float()) def forward(self, t): t = t.unsqueeze(dim=2) output = torch.cos(self.w(t)) return output def get_inputs(): return [torch.rand([4, 4])] def get_init_inputs(): return [[], {'dimension': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import math as tl_math import numpy as np assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_cos_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = tl_math.cos(tmp0) tl.store(out_ptr0 + x0, tmp1, xmask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, 1), (1, 1)) assert_size_stride(primals_3, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((16, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_3, reinterpret_tensor(primals_1, (16, 1), (1, 1), 0), reinterpret_tensor(primals_2, (1, 4), (1, 1), 0 ), alpha=1, beta=1, out=buf0) del primals_2 del primals_3 buf1 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_cos_0[grid(64)](buf0, buf1, 64, XBLOCK=64, num_warps=1, num_stages=1) return buf1, reinterpret_tensor(primals_1, (16, 1), (1, 1), 0), buf0 class TimeEncodeNew(torch.nn.Module): def __init__(self, dimension): super(TimeEncodeNew, self).__init__() self.dimension = dimension self.w = torch.nn.Linear(1, dimension) self.w.weight = torch.nn.Parameter(torch.from_numpy(1 / 10 ** np. linspace(0, 9, dimension)).float().reshape(dimension, -1)) self.w.bias = torch.nn.Parameter(torch.zeros(dimension).float()) def forward(self, input_0): primals_2 = self.w.weight primals_3 = self.w.bias primals_1 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	IDSC-io/vre-tgn	TimeEncode	false	9,143	[ "Apache-2.0" ]	46e8327e3befe67003874fa70b384a511523f8f7	https://github.com/IDSC-io/vre-tgn/tree/46e8327e3befe67003874fa70b384a511523f8f7
MLP	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/y3/cy3bfx7suhzmqovrmgwr7kipqmduyq6otbqkuvdqlaprgg7g2dgl.py # Topologically Sorted Source Nodes: [x], Original ATen: [aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # x => relu # Graph fragment: # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%view_1,), kwargs = {}) # %le_1 : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu, 0), kwargs = {}) triton_poi_fused_relu_threshold_backward_0 = async_compile.triton('triton_poi_fused_relu_threshold_backward_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[8192], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i1', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_relu_threshold_backward_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_relu_threshold_backward_0(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 5120 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 80 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + (x2), tmp4, xmask) tl.store(out_ptr0 + (x2), tmp6, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/rn/crnqz7p4p2tzqanql5i55teqzlggwe7o5pppywh36vjdillkofmn.py # Topologically Sorted Source Nodes: [x_2], Original ATen: [aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # x_2 => relu_1 # Graph fragment: # %relu_1 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%view_3,), kwargs = {}) # %le : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu_1, 0), kwargs = {}) triton_poi_fused_relu_threshold_backward_1 = async_compile.triton('triton_poi_fused_relu_threshold_backward_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[1024], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i1', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_relu_threshold_backward_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_relu_threshold_backward_1(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 640 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 10 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + (x2), tmp4, xmask) tl.store(out_ptr0 + (x2), tmp6, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7 = args args.clear() assert_size_stride(primals_1, (80, 4), (4, 1)) assert_size_stride(primals_2, (80, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (10, 80), (80, 1)) assert_size_stride(primals_5, (10, ), (1, )) assert_size_stride(primals_6, (1, 10), (10, 1)) assert_size_stride(primals_7, (1, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 80), (80, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 80), (1, 4), 0), out=buf0) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 80), (1280, 320, 80, 1), 0); del buf0 # reuse buf7 = empty_strided_cuda((4, 4, 4, 80), (1280, 320, 80, 1), torch.bool) # Topologically Sorted Source Nodes: [x], Original ATen: [aten.relu, aten.threshold_backward] stream0 = get_raw_stream(0) triton_poi_fused_relu_threshold_backward_0.run(buf1, primals_2, buf7, 5120, grid=grid(5120), stream=stream0) del primals_2 buf2 = empty_strided_cuda((64, 10), (10, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf1, (64, 80), (80, 1), 0), reinterpret_tensor(primals_4, (80, 10), (1, 80), 0), out=buf2) buf3 = reinterpret_tensor(buf2, (4, 4, 4, 10), (160, 40, 10, 1), 0); del buf2 # reuse buf6 = empty_strided_cuda((4, 4, 4, 10), (160, 40, 10, 1), torch.bool) # Topologically Sorted Source Nodes: [x_2], Original ATen: [aten.relu, aten.threshold_backward] triton_poi_fused_relu_threshold_backward_1.run(buf3, primals_5, buf6, 640, grid=grid(640), stream=stream0) del primals_5 buf5 = empty_strided_cuda((64, 1), (1, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_2], Original ATen: [aten.addmm] extern_kernels.addmm(primals_7, reinterpret_tensor(buf3, (64, 10), (10, 1), 0), reinterpret_tensor(primals_6, (10, 1), (1, 10), 0), alpha=1, beta=1, out=buf5) del primals_7 return (reinterpret_tensor(buf5, (4, 4, 4, 1), (16, 4, 1, 1), 0), reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(buf1, (64, 80), (80, 1), 0), reinterpret_tensor(buf3, (64, 10), (10, 1), 0), primals_6, buf6, primals_4, buf7, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((80, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((80, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((10, 80), (80, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((10, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((1, 10), (10, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((1, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch class MLP(torch.nn.Module): def __init__(self, dim, drop=0.3): super().__init__() self.fc_1 = torch.nn.Linear(dim, 80) self.fc_2 = torch.nn.Linear(80, 10) self.fc_3 = torch.nn.Linear(10, 1) self.act = torch.nn.ReLU() self.dropout = torch.nn.Dropout(p=drop, inplace=False) def forward(self, x): x = self.act(self.fc_1(x)) x = self.dropout(x) x = self.act(self.fc_2(x)) x = self.dropout(x) return self.fc_3(x).squeeze(dim=1) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'dim': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_relu_threshold_backward_0(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 5120 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 80 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + x2, tmp4, xmask) tl.store(out_ptr0 + x2, tmp6, xmask) @triton.jit def triton_poi_fused_relu_threshold_backward_1(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 640 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 10 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + x2, tmp4, xmask) tl.store(out_ptr0 + x2, tmp6, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7) = args args.clear() assert_size_stride(primals_1, (80, 4), (4, 1)) assert_size_stride(primals_2, (80,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (10, 80), (80, 1)) assert_size_stride(primals_5, (10,), (1,)) assert_size_stride(primals_6, (1, 10), (10, 1)) assert_size_stride(primals_7, (1,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 80), (80, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 80), (1, 4), 0), out=buf0) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 80), (1280, 320, 80, 1), 0) del buf0 buf7 = empty_strided_cuda((4, 4, 4, 80), (1280, 320, 80, 1), torch.bool ) get_raw_stream(0) triton_poi_fused_relu_threshold_backward_0[grid(5120)](buf1, primals_2, buf7, 5120, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 buf2 = empty_strided_cuda((64, 10), (10, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf1, (64, 80), (80, 1), 0), reinterpret_tensor(primals_4, (80, 10), (1, 80), 0), out=buf2) buf3 = reinterpret_tensor(buf2, (4, 4, 4, 10), (160, 40, 10, 1), 0) del buf2 buf6 = empty_strided_cuda((4, 4, 4, 10), (160, 40, 10, 1), torch.bool) triton_poi_fused_relu_threshold_backward_1[grid(640)](buf3, primals_5, buf6, 640, XBLOCK=256, num_warps=4, num_stages=1) del primals_5 buf5 = empty_strided_cuda((64, 1), (1, 1), torch.float32) extern_kernels.addmm(primals_7, reinterpret_tensor(buf3, (64, 10), (10, 1), 0), reinterpret_tensor(primals_6, (10, 1), (1, 10), 0), alpha=1, beta=1, out=buf5) del primals_7 return reinterpret_tensor(buf5, (4, 4, 4, 1), (16, 4, 1, 1), 0 ), reinterpret_tensor(primals_3, (64, 4), (4, 1), 0 ), reinterpret_tensor(buf1, (64, 80), (80, 1), 0), reinterpret_tensor( buf3, (64, 10), (10, 1), 0), primals_6, buf6, primals_4, buf7 class MLPNew(torch.nn.Module): def __init__(self, dim, drop=0.3): super().__init__() self.fc_1 = torch.nn.Linear(dim, 80) self.fc_2 = torch.nn.Linear(80, 10) self.fc_3 = torch.nn.Linear(10, 1) self.act = torch.nn.ReLU() self.dropout = torch.nn.Dropout(p=drop, inplace=False) def forward(self, input_0): primals_1 = self.fc_1.weight primals_2 = self.fc_1.bias primals_4 = self.fc_2.weight primals_5 = self.fc_2.bias primals_6 = self.fc_3.weight primals_7 = self.fc_3.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7]) return output[0]	IDSC-io/vre-tgn	MLP	false	9,144	[ "Apache-2.0" ]	46e8327e3befe67003874fa70b384a511523f8f7	https://github.com/IDSC-io/vre-tgn/tree/46e8327e3befe67003874fa70b384a511523f8f7
L1Loss	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/i5/ci5r22vnwphjxav3oibgww4fkm25q4egp3rofzniyjru2u4b563f.py # Topologically Sorted Source Nodes: [sub, loss, loss_1, loss_bbox], Original ATen: [aten.sub, aten.abs, aten.mean, aten.mul] # Source node to ATen node mapping: # loss => abs_1 # loss_1 => mean # loss_bbox => mul # sub => sub # Graph fragment: # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%arg0_1, %arg1_1), kwargs = {}) # %abs_1 : [num_users=1] = call_function[target=torch.ops.aten.abs.default](args = (%sub,), kwargs = {}) # %mean : [num_users=1] = call_function[target=torch.ops.aten.mean.default](args = (%abs_1,), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mean, 1.0), kwargs = {}) triton_per_fused_abs_mean_mul_sub_0 = async_compile.triton('triton_per_fused_abs_mean_mul_sub_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[1, 256], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {3: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 4), equal_to_1=(3,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_abs_mean_mul_sub_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': True, 'num_load': 2, 'num_reduction': 1, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_abs_mean_mul_sub_0(in_out_ptr0, in_ptr0, in_ptr1, xnumel, rnumel): xnumel = 1 XBLOCK: tl.constexpr = 1 rnumel = 256 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) XBLOCK xindex = tl.full([1], xoffset, tl.int32) xmask = tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] roffset = 0 rmask = tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + (r0), None) tmp1 = tl.load(in_ptr1 + (r0), None) tmp2 = tmp0 - tmp1 tmp3 = tl_math.abs(tmp2) tmp4 = tl.broadcast_to(tmp3, [RBLOCK]) tmp6 = triton_helpers.promote_to_tensor(tl.sum(tmp4, 0)) tmp7 = 256.0 tmp8 = tmp6 / tmp7 tmp9 = 1.0 tmp10 = tmp8 * tmp9 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([1], 0, tl.int32)), tmp10, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [sub, loss, loss_1, loss_bbox], Original ATen: [aten.sub, aten.abs, aten.mean, aten.mul] stream0 = get_raw_stream(0) triton_per_fused_abs_mean_mul_sub_0.run(buf1, arg0_1, arg1_1, 1, 256, grid=grid(1), stream=stream0) del arg0_1 del arg1_1 return (buf1, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import functools import torch import torch.nn.functional as F import torch.nn as nn def reduce_loss(loss, reduction): """Reduce loss as specified. Args: loss (Tensor): Elementwise loss tensor. reduction (str): Options are "none", "mean" and "sum". Return: Tensor: Reduced loss tensor. """ reduction_enum = F._Reduction.get_enum(reduction) if reduction_enum == 0: return loss elif reduction_enum == 1: return loss.mean() elif reduction_enum == 2: return loss.sum() def weight_reduce_loss(loss, weight=None, reduction='mean', avg_factor=None): """Apply element-wise weight and reduce loss. Args: loss (Tensor): Element-wise loss. weight (Tensor): Element-wise weights. reduction (str): Same as built-in losses of PyTorch. avg_factor (float): Avarage factor when computing the mean of losses. Returns: Tensor: Processed loss values. """ if weight is not None: loss = loss * weight if avg_factor is None: loss = reduce_loss(loss, reduction) elif reduction == 'mean': loss = loss.sum() / avg_factor elif reduction != 'none': raise ValueError('avg_factor can not be used with reduction="sum"') return loss def weighted_loss(loss_func): """Create a weighted version of a given loss function. To use this decorator, the loss function must have the signature like `loss_func(pred, target, kwargs)`. The function only needs to compute element-wise loss without any reduction. This decorator will add weight and reduction arguments to the function. The decorated function will have the signature like `loss_func(pred, target, weight=None, reduction='mean', avg_factor=None, kwargs)`. :Example: >>> import torch >>> @weighted_loss >>> def l1_loss(pred, target): >>> return (pred - target).abs() >>> pred = torch.Tensor([0, 2, 3]) >>> target = torch.Tensor([1, 1, 1]) >>> weight = torch.Tensor([1, 0, 1]) >>> l1_loss(pred, target) tensor(1.3333) >>> l1_loss(pred, target, weight) tensor(1.) >>> l1_loss(pred, target, reduction='none') tensor([1., 1., 2.]) >>> l1_loss(pred, target, weight, avg_factor=2) tensor(1.5000) """ @functools.wraps(loss_func) def wrapper(pred, target, weight=None, reduction='mean', avg_factor= None, kwargs): loss = loss_func(pred, target, kwargs) loss = weight_reduce_loss(loss, weight, reduction, avg_factor) return loss return wrapper @weighted_loss def l1_loss(pred, target): """L1 loss. Args: pred (torch.Tensor): The prediction. target (torch.Tensor): The learning target of the prediction. Returns: torch.Tensor: Calculated loss """ assert pred.size() == target.size() and target.numel() > 0 loss = torch.abs(pred - target) return loss class L1Loss(nn.Module): """L1 loss. Args: reduction (str, optional): The method to reduce the loss. Options are "none", "mean" and "sum". loss_weight (float, optional): The weight of loss. """ def __init__(self, reduction='mean', loss_weight=1.0): super(L1Loss, self).__init__() self.reduction = reduction self.loss_weight = loss_weight def forward(self, pred, target, weight=None, avg_factor=None, reduction_override=None): """Forward function. Args: pred (torch.Tensor): The prediction. target (torch.Tensor): The learning target of the prediction. weight (torch.Tensor, optional): The weight of loss for each prediction. Defaults to None. avg_factor (int, optional): Average factor that is used to average the loss. Defaults to None. reduction_override (str, optional): The reduction method used to override the original reduction method of the loss. Defaults to None. """ assert reduction_override in (None, 'none', 'mean', 'sum') reduction = (reduction_override if reduction_override else self. reduction) loss_bbox = self.loss_weight * l1_loss(pred, target, weight, reduction=reduction, avg_factor=avg_factor) return loss_bbox def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math import functools import torch.nn.functional as F import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_per_fused_abs_mean_mul_sub_0(in_out_ptr0, in_ptr0, in_ptr1, xnumel, rnumel): XBLOCK: tl.constexpr = 1 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) * XBLOCK tl.full([1], xoffset, tl.int32) tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + r0, None) tmp1 = tl.load(in_ptr1 + r0, None) tmp2 = tmp0 - tmp1 tmp3 = tl_math.abs(tmp2) tmp4 = tl.broadcast_to(tmp3, [RBLOCK]) tmp6 = triton_helpers.promote_to_tensor(tl.sum(tmp4, 0)) tmp7 = 256.0 tmp8 = tmp6 / tmp7 tmp9 = 1.0 tmp10 = tmp8 * tmp9 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([1], 0, tl.int32), tmp10, None) def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) buf1 = buf0 del buf0 get_raw_stream(0) triton_per_fused_abs_mean_mul_sub_0[grid(1)](buf1, arg0_1, arg1_1, 1, 256, num_warps=2, num_stages=1) del arg0_1 del arg1_1 return buf1, def reduce_loss(loss, reduction): """Reduce loss as specified. Args: loss (Tensor): Elementwise loss tensor. reduction (str): Options are "none", "mean" and "sum". Return: Tensor: Reduced loss tensor. """ reduction_enum = F._Reduction.get_enum(reduction) if reduction_enum == 0: return loss elif reduction_enum == 1: return loss.mean() elif reduction_enum == 2: return loss.sum() def weight_reduce_loss(loss, weight=None, reduction='mean', avg_factor=None): """Apply element-wise weight and reduce loss. Args: loss (Tensor): Element-wise loss. weight (Tensor): Element-wise weights. reduction (str): Same as built-in losses of PyTorch. avg_factor (float): Avarage factor when computing the mean of losses. Returns: Tensor: Processed loss values. """ if weight is not None: loss = loss * weight if avg_factor is None: loss = reduce_loss(loss, reduction) elif reduction == 'mean': loss = loss.sum() / avg_factor elif reduction != 'none': raise ValueError('avg_factor can not be used with reduction="sum"') return loss def weighted_loss(loss_func): """Create a weighted version of a given loss function. To use this decorator, the loss function must have the signature like `loss_func(pred, target, kwargs)`. The function only needs to compute element-wise loss without any reduction. This decorator will add weight and reduction arguments to the function. The decorated function will have the signature like `loss_func(pred, target, weight=None, reduction='mean', avg_factor=None, kwargs)`. :Example: >>> import torch >>> @weighted_loss >>> def l1_loss(pred, target): >>> return (pred - target).abs() >>> pred = torch.Tensor([0, 2, 3]) >>> target = torch.Tensor([1, 1, 1]) >>> weight = torch.Tensor([1, 0, 1]) >>> l1_loss(pred, target) tensor(1.3333) >>> l1_loss(pred, target, weight) tensor(1.) >>> l1_loss(pred, target, reduction='none') tensor([1., 1., 2.]) >>> l1_loss(pred, target, weight, avg_factor=2) tensor(1.5000) """ @functools.wraps(loss_func) def wrapper(pred, target, weight=None, reduction='mean', avg_factor= None, kwargs): loss = loss_func(pred, target, kwargs) loss = weight_reduce_loss(loss, weight, reduction, avg_factor) return loss return wrapper @weighted_loss def l1_loss(pred, target): """L1 loss. Args: pred (torch.Tensor): The prediction. target (torch.Tensor): The learning target of the prediction. Returns: torch.Tensor: Calculated loss """ assert pred.size() == target.size() and target.numel() > 0 loss = torch.abs(pred - target) return loss class L1LossNew(nn.Module): """L1 loss. Args: reduction (str, optional): The method to reduce the loss. Options are "none", "mean" and "sum". loss_weight (float, optional): The weight of loss. """ def __init__(self, reduction='mean', loss_weight=1.0): super(L1LossNew, self).__init__() self.reduction = reduction self.loss_weight = loss_weight def forward(self, input_0, input_1): arg0_1 = input_0 arg1_1 = input_1 output = call([arg0_1, arg1_1]) return output[0]	ChHanXiao/mmdetection	L1Loss	false	9,145	[ "Apache-2.0" ]	324aa5a042857a9b57abe37385e1210709a20d02	https://github.com/ChHanXiao/mmdetection/tree/324aa5a042857a9b57abe37385e1210709a20d02
BalancedL1Loss	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/u6/cu6ipcdjut3ad56lbzon6ze3sumzrsa4berzrqmooidtonkrrxbp.py # Topologically Sorted Source Nodes: [sub, diff, lt, mul, add, mul_1, mul_2, truediv, add_1, log, mul_3, mul_4, sub_1, mul_5, add_2, sub_2, loss, loss_1, loss_bbox], Original ATen: [aten.sub, aten.abs, aten.lt, aten.mul, aten.add, aten.div, aten.log, aten.where, aten.mean] # Source node to ATen node mapping: # add => add # add_1 => add_1 # add_2 => add_2 # diff => abs_1 # log => log # loss => where # loss_1 => mean # loss_bbox => mul_6 # lt => lt # mul => mul # mul_1 => mul_1 # mul_2 => mul_2 # mul_3 => mul_3 # mul_4 => mul_4 # mul_5 => mul_5 # sub => sub # sub_1 => sub_1 # sub_2 => sub_2 # truediv => div # Graph fragment: # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%arg0_1, %arg1_1), kwargs = {}) # %abs_1 : [num_users=5] = call_function[target=torch.ops.aten.abs.default](args = (%sub,), kwargs = {}) # %lt : [num_users=1] = call_function[target=torch.ops.aten.lt.Scalar](args = (%abs_1, 1.0), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%abs_1, 19.085536923187664), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul, 1), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%add, 0.02619784824562798), kwargs = {}) # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%abs_1, 19.085536923187664), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%mul_2, 1.0), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%div, 1), kwargs = {}) # %log : [num_users=1] = call_function[target=torch.ops.aten.log.default](args = (%add_1,), kwargs = {}) # %mul_3 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul_1, %log), kwargs = {}) # %mul_4 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%abs_1, 0.5), kwargs = {}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%mul_3, %mul_4), kwargs = {}) # %mul_5 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%abs_1, 1.5), kwargs = {}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_5, 0.07859354473688394), kwargs = {}) # %sub_2 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%add_2, 0.5), kwargs = {}) # %where : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%lt, %sub_1, %sub_2), kwargs = {}) # %mean : [num_users=1] = call_function[target=torch.ops.aten.mean.default](args = (%where,), kwargs = {}) # %mul_6 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mean, 1.0), kwargs = {}) triton_per_fused_abs_add_div_log_lt_mean_mul_sub_where_0 = async_compile.triton('triton_per_fused_abs_add_div_log_lt_mean_mul_sub_where_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[1, 256], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {3: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 4), equal_to_1=(3,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_abs_add_div_log_lt_mean_mul_sub_where_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': True, 'num_load': 2, 'num_reduction': 1, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_abs_add_div_log_lt_mean_mul_sub_where_0(in_out_ptr0, in_ptr0, in_ptr1, xnumel, rnumel): xnumel = 1 XBLOCK: tl.constexpr = 1 rnumel = 256 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) XBLOCK xindex = tl.full([1], xoffset, tl.int32) xmask = tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] roffset = 0 rmask = tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + (r0), None) tmp1 = tl.load(in_ptr1 + (r0), None) tmp2 = tmp0 - tmp1 tmp3 = tl_math.abs(tmp2) tmp4 = 1.0 tmp5 = tmp3 < tmp4 tmp6 = 19.085536923187664 tmp7 = tmp3 * tmp6 tmp8 = tmp7 + tmp4 tmp9 = 0.02619784824562798 tmp10 = tmp8 * tmp9 tmp11 = tmp7 * tmp4 tmp12 = tmp11 + tmp4 tmp13 = tl_math.log(tmp12) tmp14 = tmp10 * tmp13 tmp15 = 0.5 tmp16 = tmp3 * tmp15 tmp17 = tmp14 - tmp16 tmp18 = 1.5 tmp19 = tmp3 * tmp18 tmp20 = 0.07859354473688394 tmp21 = tmp19 + tmp20 tmp22 = tmp21 - tmp15 tmp23 = tl.where(tmp5, tmp17, tmp22) tmp24 = tl.broadcast_to(tmp23, [RBLOCK]) tmp26 = triton_helpers.promote_to_tensor(tl.sum(tmp24, 0)) tmp27 = 256.0 tmp28 = tmp26 / tmp27 tmp29 = tmp28 * tmp4 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([1], 0, tl.int32)), tmp29, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [sub, diff, lt, mul, add, mul_1, mul_2, truediv, add_1, log, mul_3, mul_4, sub_1, mul_5, add_2, sub_2, loss, loss_1, loss_bbox], Original ATen: [aten.sub, aten.abs, aten.lt, aten.mul, aten.add, aten.div, aten.log, aten.where, aten.mean] stream0 = get_raw_stream(0) triton_per_fused_abs_add_div_log_lt_mean_mul_sub_where_0.run(buf1, arg0_1, arg1_1, 1, 256, grid=grid(1), stream=stream0) del arg0_1 del arg1_1 return (buf1, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import functools import torch import numpy as np import torch.nn.functional as F import torch.nn as nn def reduce_loss(loss, reduction): """Reduce loss as specified. Args: loss (Tensor): Elementwise loss tensor. reduction (str): Options are "none", "mean" and "sum". Return: Tensor: Reduced loss tensor. """ reduction_enum = F._Reduction.get_enum(reduction) if reduction_enum == 0: return loss elif reduction_enum == 1: return loss.mean() elif reduction_enum == 2: return loss.sum() def weight_reduce_loss(loss, weight=None, reduction='mean', avg_factor=None): """Apply element-wise weight and reduce loss. Args: loss (Tensor): Element-wise loss. weight (Tensor): Element-wise weights. reduction (str): Same as built-in losses of PyTorch. avg_factor (float): Avarage factor when computing the mean of losses. Returns: Tensor: Processed loss values. """ if weight is not None: loss = loss * weight if avg_factor is None: loss = reduce_loss(loss, reduction) elif reduction == 'mean': loss = loss.sum() / avg_factor elif reduction != 'none': raise ValueError('avg_factor can not be used with reduction="sum"') return loss def weighted_loss(loss_func): """Create a weighted version of a given loss function. To use this decorator, the loss function must have the signature like `loss_func(pred, target, kwargs)`. The function only needs to compute element-wise loss without any reduction. This decorator will add weight and reduction arguments to the function. The decorated function will have the signature like `loss_func(pred, target, weight=None, reduction='mean', avg_factor=None, kwargs)`. :Example: >>> import torch >>> @weighted_loss >>> def l1_loss(pred, target): >>> return (pred - target).abs() >>> pred = torch.Tensor([0, 2, 3]) >>> target = torch.Tensor([1, 1, 1]) >>> weight = torch.Tensor([1, 0, 1]) >>> l1_loss(pred, target) tensor(1.3333) >>> l1_loss(pred, target, weight) tensor(1.) >>> l1_loss(pred, target, reduction='none') tensor([1., 1., 2.]) >>> l1_loss(pred, target, weight, avg_factor=2) tensor(1.5000) """ @functools.wraps(loss_func) def wrapper(pred, target, weight=None, reduction='mean', avg_factor= None, kwargs): loss = loss_func(pred, target, kwargs) loss = weight_reduce_loss(loss, weight, reduction, avg_factor) return loss return wrapper @weighted_loss def balanced_l1_loss(pred, target, beta=1.0, alpha=0.5, gamma=1.5, reduction='mean'): """Calculate balanced L1 loss. Please see the `Libra R-CNN <https://arxiv.org/pdf/1904.02701.pdf>`_ Args: pred (torch.Tensor): The prediction with shape (N, 4). target (torch.Tensor): The learning target of the prediction with shape (N, 4). beta (float): The loss is a piecewise function of prediction and target and ``beta`` serves as a threshold for the difference between the prediction and target. Defaults to 1.0. alpha (float): The denominator ``alpha`` in the balanced L1 loss. Defaults to 0.5. gamma (float): The ``gamma`` in the balanced L1 loss. Defaults to 1.5. reduction (str, optional): The method that reduces the loss to a scalar. Options are "none", "mean" and "sum". Returns: torch.Tensor: The calculated loss """ assert beta > 0 assert pred.size() == target.size() and target.numel() > 0 diff = torch.abs(pred - target) b = np.e ** (gamma / alpha) - 1 loss = torch.where(diff < beta, alpha / b * (b * diff + 1) * torch.log( b * diff / beta + 1) - alpha * diff, gamma * diff + gamma / b - alpha * beta) return loss class BalancedL1Loss(nn.Module): """Balanced L1 Loss. arXiv: https://arxiv.org/pdf/1904.02701.pdf (CVPR 2019) Args: alpha (float): The denominator ``alpha`` in the balanced L1 loss. Defaults to 0.5. gamma (float): The ``gamma`` in the balanced L1 loss. Defaults to 1.5. beta (float, optional): The loss is a piecewise function of prediction and target. ``beta`` serves as a threshold for the difference between the prediction and target. Defaults to 1.0. reduction (str, optional): The method that reduces the loss to a scalar. Options are "none", "mean" and "sum". loss_weight (float, optional): The weight of the loss. Defaults to 1.0 """ def __init__(self, alpha=0.5, gamma=1.5, beta=1.0, reduction='mean', loss_weight=1.0): super(BalancedL1Loss, self).__init__() self.alpha = alpha self.gamma = gamma self.beta = beta self.reduction = reduction self.loss_weight = loss_weight def forward(self, pred, target, weight=None, avg_factor=None, reduction_override=None, *kwargs): """Forward function of loss. Args: pred (torch.Tensor): The prediction with shape (N, 4). target (torch.Tensor): The learning target of the prediction with shape (N, 4). weight (torch.Tensor, optional): Sample-wise loss weight with shape (N, ). avg_factor (int, optional): Average factor that is used to average the loss. Defaults to None. reduction_override (str, optional): The reduction method used to override the original reduction method of the loss. Options are "none", "mean" and "sum". Returns: torch.Tensor: The calculated loss """ assert reduction_override in (None, 'none', 'mean', 'sum') reduction = (reduction_override if reduction_override else self. reduction) loss_bbox = self.loss_weight balanced_l1_loss(pred, target, weight, alpha=self.alpha, gamma=self.gamma, beta=self.beta, reduction=reduction, avg_factor=avg_factor, **kwargs) return loss_bbox def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math import functools import numpy as np import torch.nn.functional as F import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_per_fused_abs_add_div_log_lt_mean_mul_sub_where_0(in_out_ptr0, in_ptr0, in_ptr1, xnumel, rnumel): XBLOCK: tl.constexpr = 1 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) * XBLOCK tl.full([1], xoffset, tl.int32) tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + r0, None) tmp1 = tl.load(in_ptr1 + r0, None) tmp2 = tmp0 - tmp1 tmp3 = tl_math.abs(tmp2) tmp4 = 1.0 tmp5 = tmp3 < tmp4 tmp6 = 19.085536923187664 tmp7 = tmp3 * tmp6 tmp8 = tmp7 + tmp4 tmp9 = 0.02619784824562798 tmp10 = tmp8 * tmp9 tmp11 = tmp7 * tmp4 tmp12 = tmp11 + tmp4 tmp13 = tl_math.log(tmp12) tmp14 = tmp10 * tmp13 tmp15 = 0.5 tmp16 = tmp3 * tmp15 tmp17 = tmp14 - tmp16 tmp18 = 1.5 tmp19 = tmp3 * tmp18 tmp20 = 0.07859354473688394 tmp21 = tmp19 + tmp20 tmp22 = tmp21 - tmp15 tmp23 = tl.where(tmp5, tmp17, tmp22) tmp24 = tl.broadcast_to(tmp23, [RBLOCK]) tmp26 = triton_helpers.promote_to_tensor(tl.sum(tmp24, 0)) tmp27 = 256.0 tmp28 = tmp26 / tmp27 tmp29 = tmp28 * tmp4 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([1], 0, tl.int32), tmp29, None) def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) buf1 = buf0 del buf0 get_raw_stream(0) triton_per_fused_abs_add_div_log_lt_mean_mul_sub_where_0[grid(1)](buf1, arg0_1, arg1_1, 1, 256, num_warps=2, num_stages=1) del arg0_1 del arg1_1 return buf1, def reduce_loss(loss, reduction): """Reduce loss as specified. Args: loss (Tensor): Elementwise loss tensor. reduction (str): Options are "none", "mean" and "sum". Return: Tensor: Reduced loss tensor. """ reduction_enum = F._Reduction.get_enum(reduction) if reduction_enum == 0: return loss elif reduction_enum == 1: return loss.mean() elif reduction_enum == 2: return loss.sum() def weight_reduce_loss(loss, weight=None, reduction='mean', avg_factor=None): """Apply element-wise weight and reduce loss. Args: loss (Tensor): Element-wise loss. weight (Tensor): Element-wise weights. reduction (str): Same as built-in losses of PyTorch. avg_factor (float): Avarage factor when computing the mean of losses. Returns: Tensor: Processed loss values. """ if weight is not None: loss = loss * weight if avg_factor is None: loss = reduce_loss(loss, reduction) elif reduction == 'mean': loss = loss.sum() / avg_factor elif reduction != 'none': raise ValueError('avg_factor can not be used with reduction="sum"') return loss def weighted_loss(loss_func): """Create a weighted version of a given loss function. To use this decorator, the loss function must have the signature like `loss_func(pred, target, kwargs)`. The function only needs to compute element-wise loss without any reduction. This decorator will add weight and reduction arguments to the function. The decorated function will have the signature like `loss_func(pred, target, weight=None, reduction='mean', avg_factor=None, kwargs)`. :Example: >>> import torch >>> @weighted_loss >>> def l1_loss(pred, target): >>> return (pred - target).abs() >>> pred = torch.Tensor([0, 2, 3]) >>> target = torch.Tensor([1, 1, 1]) >>> weight = torch.Tensor([1, 0, 1]) >>> l1_loss(pred, target) tensor(1.3333) >>> l1_loss(pred, target, weight) tensor(1.) >>> l1_loss(pred, target, reduction='none') tensor([1., 1., 2.]) >>> l1_loss(pred, target, weight, avg_factor=2) tensor(1.5000) """ @functools.wraps(loss_func) def wrapper(pred, target, weight=None, reduction='mean', avg_factor= None, kwargs): loss = loss_func(pred, target, kwargs) loss = weight_reduce_loss(loss, weight, reduction, avg_factor) return loss return wrapper @weighted_loss def balanced_l1_loss(pred, target, beta=1.0, alpha=0.5, gamma=1.5, reduction='mean'): """Calculate balanced L1 loss. Please see the `Libra R-CNN <https://arxiv.org/pdf/1904.02701.pdf>`_ Args: pred (torch.Tensor): The prediction with shape (N, 4). target (torch.Tensor): The learning target of the prediction with shape (N, 4). beta (float): The loss is a piecewise function of prediction and target and ``beta`` serves as a threshold for the difference between the prediction and target. Defaults to 1.0. alpha (float): The denominator ``alpha`` in the balanced L1 loss. Defaults to 0.5. gamma (float): The ``gamma`` in the balanced L1 loss. Defaults to 1.5. reduction (str, optional): The method that reduces the loss to a scalar. Options are "none", "mean" and "sum". Returns: torch.Tensor: The calculated loss """ assert beta > 0 assert pred.size() == target.size() and target.numel() > 0 diff = torch.abs(pred - target) b = np.e ** (gamma / alpha) - 1 loss = torch.where(diff < beta, alpha / b * (b * diff + 1) * torch.log( b * diff / beta + 1) - alpha * diff, gamma * diff + gamma / b - alpha * beta) return loss class BalancedL1LossNew(nn.Module): """Balanced L1 Loss. arXiv: https://arxiv.org/pdf/1904.02701.pdf (CVPR 2019) Args: alpha (float): The denominator ``alpha`` in the balanced L1 loss. Defaults to 0.5. gamma (float): The ``gamma`` in the balanced L1 loss. Defaults to 1.5. beta (float, optional): The loss is a piecewise function of prediction and target. ``beta`` serves as a threshold for the difference between the prediction and target. Defaults to 1.0. reduction (str, optional): The method that reduces the loss to a scalar. Options are "none", "mean" and "sum". loss_weight (float, optional): The weight of the loss. Defaults to 1.0 """ def __init__(self, alpha=0.5, gamma=1.5, beta=1.0, reduction='mean', loss_weight=1.0): super(BalancedL1LossNew, self).__init__() self.alpha = alpha self.gamma = gamma self.beta = beta self.reduction = reduction self.loss_weight = loss_weight def forward(self, input_0, input_1): arg0_1 = input_0 arg1_1 = input_1 output = call([arg0_1, arg1_1]) return output[0]	ChHanXiao/mmdetection	BalancedL1Loss	false	9,146	[ "Apache-2.0" ]	324aa5a042857a9b57abe37385e1210709a20d02	https://github.com/ChHanXiao/mmdetection/tree/324aa5a042857a9b57abe37385e1210709a20d02
GaussianFocalLoss	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/mc/cmcjnrkcniypkwkusrjjxvk7xd3n4rxefn5nz4mqn47gca6icbsg.py # Topologically Sorted Source Nodes: [add, log, neg, sub_1, pow_2, mul, pos_weights, pos_loss, sub_2, add_1, log_1, neg_1, pow_3, mul_2, sub, neg_weights, neg_loss, loss, loss_1, loss_reg], Original ATen: [aten.add, aten.log, aten.neg, aten.rsub, aten.pow, aten.mul, aten.eq, aten.mean] # Source node to ATen node mapping: # add => add # add_1 => add_1 # log => log # log_1 => log_1 # loss => add_2 # loss_1 => mean # loss_reg => mul_4 # mul => mul # mul_2 => mul_2 # neg => neg # neg_1 => neg_1 # neg_loss => mul_3 # neg_weights => pow_1 # pos_loss => mul_1 # pos_weights => eq # pow_2 => pow_2 # pow_3 => pow_3 # sub => sub # sub_1 => sub_1 # sub_2 => sub_2 # Graph fragment: # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%arg0_1, 1e-12), kwargs = {}) # %log : [num_users=1] = call_function[target=torch.ops.aten.log.default](args = (%add,), kwargs = {}) # %neg : [num_users=1] = call_function[target=torch.ops.aten.neg.default](args = (%log,), kwargs = {}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (1, %arg0_1), kwargs = {}) # %pow_2 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sub_1, 2.0), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%neg, %pow_2), kwargs = {}) # %eq : [num_users=1] = call_function[target=torch.ops.aten.eq.Scalar](args = (%arg1_1, 1), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul, %eq), kwargs = {}) # %sub_2 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (1, %arg0_1), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%sub_2, 1e-12), kwargs = {}) # %log_1 : [num_users=1] = call_function[target=torch.ops.aten.log.default](args = (%add_1,), kwargs = {}) # %neg_1 : [num_users=1] = call_function[target=torch.ops.aten.neg.default](args = (%log_1,), kwargs = {}) # %pow_3 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%arg0_1, 2.0), kwargs = {}) # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%neg_1, %pow_3), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (1, %arg1_1), kwargs = {}) # %pow_1 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sub, 4.0), kwargs = {}) # %mul_3 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul_2, %pow_1), kwargs = {}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_1, %mul_3), kwargs = {}) # %mean : [num_users=1] = call_function[target=torch.ops.aten.mean.default](args = (%add_2,), kwargs = {}) # %mul_4 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mean, 1.0), kwargs = {}) triton_per_fused_add_eq_log_mean_mul_neg_pow_rsub_0 = async_compile.triton('triton_per_fused_add_eq_log_mean_mul_neg_pow_rsub_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[1, 256], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {3: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 4), equal_to_1=(3,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_add_eq_log_mean_mul_neg_pow_rsub_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': True, 'num_load': 2, 'num_reduction': 1, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_add_eq_log_mean_mul_neg_pow_rsub_0(in_out_ptr0, in_ptr0, in_ptr1, xnumel, rnumel): xnumel = 1 XBLOCK: tl.constexpr = 1 rnumel = 256 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) XBLOCK xindex = tl.full([1], xoffset, tl.int32) xmask = tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] roffset = 0 rmask = tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + (r0), None) tmp9 = tl.load(in_ptr1 + (r0), None) tmp1 = 1e-12 tmp2 = tmp0 + tmp1 tmp3 = tl_math.log(tmp2) tmp4 = -tmp3 tmp5 = 1.0 tmp6 = tmp5 - tmp0 tmp7 = tmp6 * tmp6 tmp8 = tmp4 * tmp7 tmp10 = tmp9 == tmp5 tmp11 = tmp10.to(tl.float32) tmp12 = tmp8 * tmp11 tmp13 = tmp6 + tmp1 tmp14 = tl_math.log(tmp13) tmp15 = -tmp14 tmp16 = tmp0 * tmp0 tmp17 = tmp15 * tmp16 tmp18 = tmp5 - tmp9 tmp19 = tmp18 * tmp18 tmp20 = tmp19 * tmp19 tmp21 = tmp17 * tmp20 tmp22 = tmp12 + tmp21 tmp23 = tl.broadcast_to(tmp22, [RBLOCK]) tmp25 = triton_helpers.promote_to_tensor(tl.sum(tmp23, 0)) tmp26 = 256.0 tmp27 = tmp25 / tmp26 tmp28 = tmp27 * tmp5 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([1], 0, tl.int32)), tmp28, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [add, log, neg, sub_1, pow_2, mul, pos_weights, pos_loss, sub_2, add_1, log_1, neg_1, pow_3, mul_2, sub, neg_weights, neg_loss, loss, loss_1, loss_reg], Original ATen: [aten.add, aten.log, aten.neg, aten.rsub, aten.pow, aten.mul, aten.eq, aten.mean] stream0 = get_raw_stream(0) triton_per_fused_add_eq_log_mean_mul_neg_pow_rsub_0.run(buf1, arg0_1, arg1_1, 1, 256, grid=grid(1), stream=stream0) del arg0_1 del arg1_1 return (buf1, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import functools import torch import torch.nn.functional as F import torch.nn as nn def reduce_loss(loss, reduction): """Reduce loss as specified. Args: loss (Tensor): Elementwise loss tensor. reduction (str): Options are "none", "mean" and "sum". Return: Tensor: Reduced loss tensor. """ reduction_enum = F._Reduction.get_enum(reduction) if reduction_enum == 0: return loss elif reduction_enum == 1: return loss.mean() elif reduction_enum == 2: return loss.sum() def weight_reduce_loss(loss, weight=None, reduction='mean', avg_factor=None): """Apply element-wise weight and reduce loss. Args: loss (Tensor): Element-wise loss. weight (Tensor): Element-wise weights. reduction (str): Same as built-in losses of PyTorch. avg_factor (float): Avarage factor when computing the mean of losses. Returns: Tensor: Processed loss values. """ if weight is not None: loss = loss * weight if avg_factor is None: loss = reduce_loss(loss, reduction) elif reduction == 'mean': loss = loss.sum() / avg_factor elif reduction != 'none': raise ValueError('avg_factor can not be used with reduction="sum"') return loss def weighted_loss(loss_func): """Create a weighted version of a given loss function. To use this decorator, the loss function must have the signature like `loss_func(pred, target, kwargs)`. The function only needs to compute element-wise loss without any reduction. This decorator will add weight and reduction arguments to the function. The decorated function will have the signature like `loss_func(pred, target, weight=None, reduction='mean', avg_factor=None, kwargs)`. :Example: >>> import torch >>> @weighted_loss >>> def l1_loss(pred, target): >>> return (pred - target).abs() >>> pred = torch.Tensor([0, 2, 3]) >>> target = torch.Tensor([1, 1, 1]) >>> weight = torch.Tensor([1, 0, 1]) >>> l1_loss(pred, target) tensor(1.3333) >>> l1_loss(pred, target, weight) tensor(1.) >>> l1_loss(pred, target, reduction='none') tensor([1., 1., 2.]) >>> l1_loss(pred, target, weight, avg_factor=2) tensor(1.5000) """ @functools.wraps(loss_func) def wrapper(pred, target, weight=None, reduction='mean', avg_factor= None, kwargs): loss = loss_func(pred, target, kwargs) loss = weight_reduce_loss(loss, weight, reduction, avg_factor) return loss return wrapper @weighted_loss def gaussian_focal_loss(pred, gaussian_target, alpha=2.0, gamma=4.0): """`Focal Loss <https://arxiv.org/abs/1708.02002>`_ for targets in gaussian distribution. Args: pred (torch.Tensor): The prediction. gaussian_target (torch.Tensor): The learning target of the prediction in gaussian distribution. alpha (float, optional): A balanced form for Focal Loss. Defaults to 2.0. gamma (float, optional): The gamma for calculating the modulating factor. Defaults to 4.0. """ eps = 1e-12 pos_weights = gaussian_target.eq(1) neg_weights = (1 - gaussian_target).pow(gamma) pos_loss = -(pred + eps).log() * (1 - pred).pow(alpha) * pos_weights neg_loss = -(1 - pred + eps).log() * pred.pow(alpha) * neg_weights return pos_loss + neg_loss class GaussianFocalLoss(nn.Module): """GaussianFocalLoss is a variant of focal loss. More details can be found in the `paper <https://arxiv.org/abs/1808.01244>`_ Code is modified from `kp_utils.py <https://github.com/princeton-vl/CornerNet/blob/master/models/py_utils/kp_utils.py#L152>`_ # noqa: E501 Please notice that the target in GaussianFocalLoss is a gaussian heatmap, not 0/1 binary target. Args: alpha (float): Power of prediction. gamma (float): Power of target for negtive samples. reduction (str): Options are "none", "mean" and "sum". loss_weight (float): Loss weight of current loss. """ def __init__(self, alpha=2.0, gamma=4.0, reduction='mean', loss_weight=1.0 ): super(GaussianFocalLoss, self).__init__() self.alpha = alpha self.gamma = gamma self.reduction = reduction self.loss_weight = loss_weight def forward(self, pred, target, weight=None, avg_factor=None, reduction_override=None): """Forward function. Args: pred (torch.Tensor): The prediction. target (torch.Tensor): The learning target of the prediction in gaussian distribution. weight (torch.Tensor, optional): The weight of loss for each prediction. Defaults to None. avg_factor (int, optional): Average factor that is used to average the loss. Defaults to None. reduction_override (str, optional): The reduction method used to override the original reduction method of the loss. Defaults to None. """ assert reduction_override in (None, 'none', 'mean', 'sum') reduction = (reduction_override if reduction_override else self. reduction) loss_reg = self.loss_weight * gaussian_focal_loss(pred, target, weight, alpha=self.alpha, gamma=self.gamma, reduction=reduction, avg_factor=avg_factor) return loss_reg def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math import functools import torch.nn.functional as F import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_per_fused_add_eq_log_mean_mul_neg_pow_rsub_0(in_out_ptr0, in_ptr0, in_ptr1, xnumel, rnumel): XBLOCK: tl.constexpr = 1 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) * XBLOCK tl.full([1], xoffset, tl.int32) tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + r0, None) tmp9 = tl.load(in_ptr1 + r0, None) tmp1 = 1e-12 tmp2 = tmp0 + tmp1 tmp3 = tl_math.log(tmp2) tmp4 = -tmp3 tmp5 = 1.0 tmp6 = tmp5 - tmp0 tmp7 = tmp6 * tmp6 tmp8 = tmp4 * tmp7 tmp10 = tmp9 == tmp5 tmp11 = tmp10.to(tl.float32) tmp12 = tmp8 * tmp11 tmp13 = tmp6 + tmp1 tmp14 = tl_math.log(tmp13) tmp15 = -tmp14 tmp16 = tmp0 * tmp0 tmp17 = tmp15 * tmp16 tmp18 = tmp5 - tmp9 tmp19 = tmp18 * tmp18 tmp20 = tmp19 * tmp19 tmp21 = tmp17 * tmp20 tmp22 = tmp12 + tmp21 tmp23 = tl.broadcast_to(tmp22, [RBLOCK]) tmp25 = triton_helpers.promote_to_tensor(tl.sum(tmp23, 0)) tmp26 = 256.0 tmp27 = tmp25 / tmp26 tmp28 = tmp27 * tmp5 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([1], 0, tl.int32), tmp28, None) def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) buf1 = buf0 del buf0 get_raw_stream(0) triton_per_fused_add_eq_log_mean_mul_neg_pow_rsub_0[grid(1)](buf1, arg0_1, arg1_1, 1, 256, num_warps=2, num_stages=1) del arg0_1 del arg1_1 return buf1, def reduce_loss(loss, reduction): """Reduce loss as specified. Args: loss (Tensor): Elementwise loss tensor. reduction (str): Options are "none", "mean" and "sum". Return: Tensor: Reduced loss tensor. """ reduction_enum = F._Reduction.get_enum(reduction) if reduction_enum == 0: return loss elif reduction_enum == 1: return loss.mean() elif reduction_enum == 2: return loss.sum() def weight_reduce_loss(loss, weight=None, reduction='mean', avg_factor=None): """Apply element-wise weight and reduce loss. Args: loss (Tensor): Element-wise loss. weight (Tensor): Element-wise weights. reduction (str): Same as built-in losses of PyTorch. avg_factor (float): Avarage factor when computing the mean of losses. Returns: Tensor: Processed loss values. """ if weight is not None: loss = loss * weight if avg_factor is None: loss = reduce_loss(loss, reduction) elif reduction == 'mean': loss = loss.sum() / avg_factor elif reduction != 'none': raise ValueError('avg_factor can not be used with reduction="sum"') return loss def weighted_loss(loss_func): """Create a weighted version of a given loss function. To use this decorator, the loss function must have the signature like `loss_func(pred, target, kwargs)`. The function only needs to compute element-wise loss without any reduction. This decorator will add weight and reduction arguments to the function. The decorated function will have the signature like `loss_func(pred, target, weight=None, reduction='mean', avg_factor=None, kwargs)`. :Example: >>> import torch >>> @weighted_loss >>> def l1_loss(pred, target): >>> return (pred - target).abs() >>> pred = torch.Tensor([0, 2, 3]) >>> target = torch.Tensor([1, 1, 1]) >>> weight = torch.Tensor([1, 0, 1]) >>> l1_loss(pred, target) tensor(1.3333) >>> l1_loss(pred, target, weight) tensor(1.) >>> l1_loss(pred, target, reduction='none') tensor([1., 1., 2.]) >>> l1_loss(pred, target, weight, avg_factor=2) tensor(1.5000) """ @functools.wraps(loss_func) def wrapper(pred, target, weight=None, reduction='mean', avg_factor= None, kwargs): loss = loss_func(pred, target, kwargs) loss = weight_reduce_loss(loss, weight, reduction, avg_factor) return loss return wrapper @weighted_loss def gaussian_focal_loss(pred, gaussian_target, alpha=2.0, gamma=4.0): """`Focal Loss <https://arxiv.org/abs/1708.02002>`_ for targets in gaussian distribution. Args: pred (torch.Tensor): The prediction. gaussian_target (torch.Tensor): The learning target of the prediction in gaussian distribution. alpha (float, optional): A balanced form for Focal Loss. Defaults to 2.0. gamma (float, optional): The gamma for calculating the modulating factor. Defaults to 4.0. """ eps = 1e-12 pos_weights = gaussian_target.eq(1) neg_weights = (1 - gaussian_target).pow(gamma) pos_loss = -(pred + eps).log() * (1 - pred).pow(alpha) * pos_weights neg_loss = -(1 - pred + eps).log() * pred.pow(alpha) * neg_weights return pos_loss + neg_loss class GaussianFocalLossNew(nn.Module): """GaussianFocalLoss is a variant of focal loss. More details can be found in the `paper <https://arxiv.org/abs/1808.01244>`_ Code is modified from `kp_utils.py <https://github.com/princeton-vl/CornerNet/blob/master/models/py_utils/kp_utils.py#L152>`_ # noqa: E501 Please notice that the target in GaussianFocalLoss is a gaussian heatmap, not 0/1 binary target. Args: alpha (float): Power of prediction. gamma (float): Power of target for negtive samples. reduction (str): Options are "none", "mean" and "sum". loss_weight (float): Loss weight of current loss. """ def __init__(self, alpha=2.0, gamma=4.0, reduction='mean', loss_weight=1.0 ): super(GaussianFocalLossNew, self).__init__() self.alpha = alpha self.gamma = gamma self.reduction = reduction self.loss_weight = loss_weight def forward(self, input_0, input_1): arg0_1 = input_0 arg1_1 = input_1 output = call([arg0_1, arg1_1]) return output[0]	ChHanXiao/mmdetection	GaussianFocalLoss	false	9,147	[ "Apache-2.0" ]	324aa5a042857a9b57abe37385e1210709a20d02	https://github.com/ChHanXiao/mmdetection/tree/324aa5a042857a9b57abe37385e1210709a20d02
SimpleModel	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/sd/csdfq3pwxme6skykh2xidrwr6t4ujkpebegmshqc4a6ptefksvl7.py # Topologically Sorted Source Nodes: [mul], Original ATen: [aten.mul] # Source node to ATen node mapping: # mul => mul # Graph fragment: # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%arg0_1, 2), kwargs = {}) triton_poi_fused_mul_0 = async_compile.triton('triton_poi_fused_mul_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_mul_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_mul_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = 2.0 tmp2 = tmp0 * tmp1 tl.store(out_ptr0 + (x0), tmp2, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [mul], Original ATen: [aten.mul] stream0 = get_raw_stream(0) triton_poi_fused_mul_0.run(arg0_1, buf0, 256, grid=grid(256), stream=stream0) del arg0_1 return (buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class SimpleModel(nn.Module): def __init__(self): super(SimpleModel, self).__init__() def forward(self, x): return x * 2 def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_mul_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = 2.0 tmp2 = tmp0 * tmp1 tl.store(out_ptr0 + x0, tmp2, xmask) def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_mul_0[grid(256)](arg0_1, buf0, 256, XBLOCK=256, num_warps=4, num_stages=1) del arg0_1 return buf0, class SimpleModelNew(nn.Module): def __init__(self): super(SimpleModelNew, self).__init__() def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	JimmyCai91/tensorboardX	SimpleModel	false	9,148	[ "MIT" ]	9bff602008d71f4bbf6e83e99125033629f4ee6f	https://github.com/JimmyCai91/tensorboardX/tree/9bff602008d71f4bbf6e83e99125033629f4ee6f
BasicBlock	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/p7/cp7mjs4cvfmmk3xanldfhbfyw3iz6jtioejhqhvyiw5cvteee5uz.py # Topologically Sorted Source Nodes: [_weight_norm], Original ATen: [aten._weight_norm_interface] # Source node to ATen node mapping: # _weight_norm => div, mul, pow_1, pow_2, sum_1 # Graph fragment: # %pow_1 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%primals_2, 2), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%pow_1, [1, 2, 3], True), kwargs = {}) # %pow_2 : [num_users=2] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sum_1, 0.5), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%primals_1, %pow_2), kwargs = {}) # %mul : [num_users=2] = call_function[target=torch.ops.aten.mul.Tensor](args = (%primals_2, %div), kwargs = {}) triton_per_fused__weight_norm_interface_0 = async_compile.triton('triton_per_fused__weight_norm_interface_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[4, 64], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32', 5: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused__weight_norm_interface_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 1, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused__weight_norm_interface_0(in_out_ptr0, in_ptr0, in_ptr1, out_ptr0, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 4 rnumel = 36 RBLOCK: tl.constexpr = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = rindex < rnumel r1 = rindex x0 = xindex tmp0 = tl.load(in_ptr0 + (r1 + (36x0)), rmask & xmask, other=0.0) tmp7 = tl.load(in_ptr1 + (x0), xmask, eviction_policy='evict_last') tmp1 = tmp0 tmp0 tmp2 = tl.broadcast_to(tmp1, [XBLOCK, RBLOCK]) tmp4 = tl.where(rmask & xmask, tmp2, 0) tmp5 = tl.sum(tmp4, 1)[:, None] tmp6 = libdevice.sqrt(tmp5) tmp8 = tmp7 / tmp6 tmp9 = tmp0 * tmp8 tl.debug_barrier() tl.store(in_out_ptr0 + (x0), tmp6, xmask) tl.store(out_ptr0 + (r1 + (36x0)), tmp9, rmask & xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/nv/cnvdbfyfdbxtpncclnbabjm26fof5xpzppwtrmvdrw7jk2nf4pwe.py # Topologically Sorted Source Nodes: [conv2d, sub, relu, x], Original ATen: [aten.convolution, aten.sub, aten.relu, aten.add, aten.threshold_backward] # Source node to ATen node mapping: # conv2d => convolution # relu => relu # sub => sub # x => add # Graph fragment: # %convolution : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_4, %mul, %primals_3, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%convolution, %primals_5), kwargs = {}) # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%sub,), kwargs = {}) # %add : [num_users=2] = call_function[target=torch.ops.aten.add.Tensor](args = (%relu, %primals_5), kwargs = {}) # %le_1 : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu, 0), kwargs = {}) triton_poi_fused_add_convolution_relu_sub_threshold_backward_1 = async_compile.triton('triton_poi_fused_add_convolution_relu_sub_threshold_backward_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i1', 5: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_convolution_relu_sub_threshold_backward_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 3, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_convolution_relu_sub_threshold_backward_1(in_ptr0, in_ptr1, in_ptr2, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 16) % 4 tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr1 + (x1), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + (0)) tmp4 = tl.broadcast_to(tmp3, [XBLOCK]) tmp2 = tmp0 + tmp1 tmp5 = tmp2 - tmp4 tmp6 = tl.full([1], 0, tl.int32) tmp7 = triton_helpers.maximum(tmp6, tmp5) tmp8 = tmp7 + tmp4 tmp9 = 0.0 tmp10 = tmp7 <= tmp9 tl.store(out_ptr0 + (x3), tmp8, xmask) tl.store(out_ptr1 + (x3), tmp10, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/rw/crwhyerteo5xwfa3sfmuoxn746ux3ykv2a4bvfxwb75n543lkk3a.py # Topologically Sorted Source Nodes: [out, out_1, sub_1, relu_1, x_1], Original ATen: [aten.convolution, aten.add, aten.sub, aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # out => convolution_1 # out_1 => add_1 # relu_1 => relu_1 # sub_1 => sub_1 # x_1 => add_2 # Graph fragment: # %convolution_1 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%add, %mul_1, %primals_8, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%convolution_1, %primals_4), kwargs = {}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%add_1, %primals_9), kwargs = {}) # %relu_1 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%sub_1,), kwargs = {}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%relu_1, %primals_9), kwargs = {}) # %le : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu_1, 0), kwargs = {}) triton_poi_fused_add_convolution_relu_sub_threshold_backward_2 = async_compile.triton('triton_poi_fused_add_convolution_relu_sub_threshold_backward_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'i1', 6: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_convolution_relu_sub_threshold_backward_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_convolution_relu_sub_threshold_backward_2(in_ptr0, in_ptr1, in_ptr2, in_ptr3, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 16) % 4 tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr1 + (x1), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + (x3), xmask) tmp5 = tl.load(in_ptr3 + (0)) tmp6 = tl.broadcast_to(tmp5, [XBLOCK]) tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp7 = tmp4 - tmp6 tmp8 = tl.full([1], 0, tl.int32) tmp9 = triton_helpers.maximum(tmp8, tmp7) tmp10 = tmp9 + tmp6 tmp11 = 0.0 tmp12 = tmp9 <= tmp11 tl.store(out_ptr0 + (x3), tmp10, xmask) tl.store(out_ptr1 + (x3), tmp12, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9 = args args.clear() assert_size_stride(primals_1, (4, 1, 1, 1), (1, 1, 1, 1)) assert_size_stride(primals_2, (4, 4, 3, 3), (36, 9, 3, 1)) assert_size_stride(primals_3, (4, ), (1, )) assert_size_stride(primals_4, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_5, (1, ), (1, )) assert_size_stride(primals_6, (4, 1, 1, 1), (1, 1, 1, 1)) assert_size_stride(primals_7, (4, 4, 3, 3), (36, 9, 3, 1)) assert_size_stride(primals_8, (4, ), (1, )) assert_size_stride(primals_9, (1, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 1, 1, 1), (1, 4, 4, 4), torch.float32) buf1 = reinterpret_tensor(buf0, (4, 1, 1, 1), (1, 1, 1, 1), 0); del buf0 # reuse buf2 = empty_strided_cuda((4, 4, 3, 3), (36, 9, 3, 1), torch.float32) # Topologically Sorted Source Nodes: [_weight_norm], Original ATen: [aten._weight_norm_interface] stream0 = get_raw_stream(0) triton_per_fused__weight_norm_interface_0.run(buf1, primals_2, primals_1, buf2, 4, 36, grid=grid(4), stream=stream0) # Topologically Sorted Source Nodes: [conv2d], Original ATen: [aten.convolution] buf3 = extern_kernels.convolution(primals_4, buf2, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf3, (4, 4, 4, 4), (64, 16, 4, 1)) buf4 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf11 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) # Topologically Sorted Source Nodes: [conv2d, sub, relu, x], Original ATen: [aten.convolution, aten.sub, aten.relu, aten.add, aten.threshold_backward] triton_poi_fused_add_convolution_relu_sub_threshold_backward_1.run(buf3, primals_3, primals_5, buf4, buf11, 256, grid=grid(256), stream=stream0) del primals_3 del primals_5 buf5 = empty_strided_cuda((4, 1, 1, 1), (1, 4, 4, 4), torch.float32) buf6 = reinterpret_tensor(buf5, (4, 1, 1, 1), (1, 1, 1, 1), 0); del buf5 # reuse buf7 = empty_strided_cuda((4, 4, 3, 3), (36, 9, 3, 1), torch.float32) # Topologically Sorted Source Nodes: [_weight_norm_1], Original ATen: [aten._weight_norm_interface] triton_per_fused__weight_norm_interface_0.run(buf6, primals_7, primals_6, buf7, 4, 36, grid=grid(4), stream=stream0) # Topologically Sorted Source Nodes: [out], Original ATen: [aten.convolution] buf8 = extern_kernels.convolution(buf4, buf7, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf8, (4, 4, 4, 4), (64, 16, 4, 1)) buf9 = buf3; del buf3 # reuse buf10 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) # Topologically Sorted Source Nodes: [out, out_1, sub_1, relu_1, x_1], Original ATen: [aten.convolution, aten.add, aten.sub, aten.relu, aten.threshold_backward] triton_poi_fused_add_convolution_relu_sub_threshold_backward_2.run(buf8, primals_8, primals_4, primals_9, buf9, buf10, 256, grid=grid(256), stream=stream0) del buf8 del primals_8 del primals_9 return (buf9, buf2, buf7, primals_1, primals_2, primals_4, primals_6, primals_7, buf1, buf2, buf4, buf6, buf7, buf10, buf11, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 1, 1, 1), (1, 1, 1, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4, 3, 3), (36, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((1, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((4, 1, 1, 1), (1, 1, 1, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((4, 4, 3, 3), (36, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((1, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.nn.functional as F import torch.nn.utils.weight_norm as weightNorm def conv3x3(in_planes, out_planes, stride=1): return weightNorm(nn.Conv2d(in_planes, out_planes, kernel_size=3, stride=stride, padding=1, bias=True)) class TReLU(nn.Module): def __init__(self): super(TReLU, self).__init__() self.alpha = nn.Parameter(torch.FloatTensor(1), requires_grad=True) self.alpha.data.fill_(0) def forward(self, x): x = F.relu(x - self.alpha) + self.alpha return x class BasicBlock(nn.Module): expansion = 1 def __init__(self, in_planes, planes, stride=1): super(BasicBlock, self).__init__() self.conv1 = conv3x3(in_planes, planes, stride) self.conv2 = conv3x3(planes, planes) self.shortcut = nn.Sequential() if stride != 1 or in_planes != self.expansion * planes: self.shortcut = nn.Sequential(weightNorm(nn.Conv2d(in_planes, self.expansion * planes, kernel_size=1, stride=stride, bias =True))) self.relu_1 = TReLU() self.relu_2 = TReLU() def forward(self, x): out = self.relu_1(self.conv1(x)) out = self.conv2(out) out += self.shortcut(x) out = self.relu_2(out) return out def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'in_planes': 4, 'planes': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import libdevice import torch.nn as nn import torch.nn.functional as F import torch.nn.utils.weight_norm as weightNorm assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_per_fused__weight_norm_interface_0(in_out_ptr0, in_ptr0, in_ptr1, out_ptr0, xnumel, rnumel, XBLOCK: tl.constexpr): xnumel = 4 rnumel = 36 RBLOCK: tl.constexpr = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] rmask = rindex < rnumel r1 = rindex x0 = xindex tmp0 = tl.load(in_ptr0 + (r1 + 36 * x0), rmask & xmask, other=0.0) tmp7 = tl.load(in_ptr1 + x0, xmask, eviction_policy='evict_last') tmp1 = tmp0 * tmp0 tmp2 = tl.broadcast_to(tmp1, [XBLOCK, RBLOCK]) tmp4 = tl.where(rmask & xmask, tmp2, 0) tmp5 = tl.sum(tmp4, 1)[:, None] tmp6 = libdevice.sqrt(tmp5) tmp8 = tmp7 / tmp6 tmp9 = tmp0 * tmp8 tl.debug_barrier() tl.store(in_out_ptr0 + x0, tmp6, xmask) tl.store(out_ptr0 + (r1 + 36 * x0), tmp9, rmask & xmask) @triton.jit def triton_poi_fused_add_convolution_relu_sub_threshold_backward_1(in_ptr0, in_ptr1, in_ptr2, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = xindex // 16 % 4 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr1 + x1, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + 0) tmp4 = tl.broadcast_to(tmp3, [XBLOCK]) tmp2 = tmp0 + tmp1 tmp5 = tmp2 - tmp4 tmp6 = tl.full([1], 0, tl.int32) tmp7 = triton_helpers.maximum(tmp6, tmp5) tmp8 = tmp7 + tmp4 tmp9 = 0.0 tmp10 = tmp7 <= tmp9 tl.store(out_ptr0 + x3, tmp8, xmask) tl.store(out_ptr1 + x3, tmp10, xmask) @triton.jit def triton_poi_fused_add_convolution_relu_sub_threshold_backward_2(in_ptr0, in_ptr1, in_ptr2, in_ptr3, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr ): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = xindex // 16 % 4 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr1 + x1, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + x3, xmask) tmp5 = tl.load(in_ptr3 + 0) tmp6 = tl.broadcast_to(tmp5, [XBLOCK]) tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp7 = tmp4 - tmp6 tmp8 = tl.full([1], 0, tl.int32) tmp9 = triton_helpers.maximum(tmp8, tmp7) tmp10 = tmp9 + tmp6 tmp11 = 0.0 tmp12 = tmp9 <= tmp11 tl.store(out_ptr0 + x3, tmp10, xmask) tl.store(out_ptr1 + x3, tmp12, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9) = args args.clear() assert_size_stride(primals_1, (4, 1, 1, 1), (1, 1, 1, 1)) assert_size_stride(primals_2, (4, 4, 3, 3), (36, 9, 3, 1)) assert_size_stride(primals_3, (4,), (1,)) assert_size_stride(primals_4, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_5, (1,), (1,)) assert_size_stride(primals_6, (4, 1, 1, 1), (1, 1, 1, 1)) assert_size_stride(primals_7, (4, 4, 3, 3), (36, 9, 3, 1)) assert_size_stride(primals_8, (4,), (1,)) assert_size_stride(primals_9, (1,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 1, 1, 1), (1, 4, 4, 4), torch.float32) buf1 = reinterpret_tensor(buf0, (4, 1, 1, 1), (1, 1, 1, 1), 0) del buf0 buf2 = empty_strided_cuda((4, 4, 3, 3), (36, 9, 3, 1), torch.float32) get_raw_stream(0) triton_per_fused__weight_norm_interface_0[grid(4)](buf1, primals_2, primals_1, buf2, 4, 36, XBLOCK=1, num_warps=2, num_stages=1) buf3 = extern_kernels.convolution(primals_4, buf2, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf3, (4, 4, 4, 4), (64, 16, 4, 1)) buf4 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf11 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) triton_poi_fused_add_convolution_relu_sub_threshold_backward_1[grid (256)](buf3, primals_3, primals_5, buf4, buf11, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_3 del primals_5 buf5 = empty_strided_cuda((4, 1, 1, 1), (1, 4, 4, 4), torch.float32) buf6 = reinterpret_tensor(buf5, (4, 1, 1, 1), (1, 1, 1, 1), 0) del buf5 buf7 = empty_strided_cuda((4, 4, 3, 3), (36, 9, 3, 1), torch.float32) triton_per_fused__weight_norm_interface_0[grid(4)](buf6, primals_7, primals_6, buf7, 4, 36, XBLOCK=1, num_warps=2, num_stages=1) buf8 = extern_kernels.convolution(buf4, buf7, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf8, (4, 4, 4, 4), (64, 16, 4, 1)) buf9 = buf3 del buf3 buf10 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) triton_poi_fused_add_convolution_relu_sub_threshold_backward_2[grid (256)](buf8, primals_8, primals_4, primals_9, buf9, buf10, 256, XBLOCK=128, num_warps=4, num_stages=1) del buf8 del primals_8 del primals_9 return (buf9, buf2, buf7, primals_1, primals_2, primals_4, primals_6, primals_7, buf1, buf2, buf4, buf6, buf7, buf10, buf11) def conv3x3(in_planes, out_planes, stride=1): return weightNorm(nn.Conv2d(in_planes, out_planes, kernel_size=3, stride=stride, padding=1, bias=True)) class TReLU(nn.Module): def __init__(self): super(TReLU, self).__init__() self.alpha = nn.Parameter(torch.FloatTensor(1), requires_grad=True) self.alpha.data.fill_(0) def forward(self, x): x = F.relu(x - self.alpha) + self.alpha return x class BasicBlockNew(nn.Module): expansion = 1 def __init__(self, in_planes, planes, stride=1): super(BasicBlockNew, self).__init__() self.conv1 = conv3x3(in_planes, planes, stride) self.conv2 = conv3x3(planes, planes) self.shortcut = nn.Sequential() if stride != 1 or in_planes != self.expansion * planes: self.shortcut = nn.Sequential(weightNorm(nn.Conv2d(in_planes, self.expansion * planes, kernel_size=1, stride=stride, bias =True))) self.relu_1 = TReLU() self.relu_2 = TReLU() def forward(self, input_0): primals_3 = self.conv1.bias primals_1 = self.conv1.weight_g primals_2 = self.conv1.weight_v primals_8 = self.conv2.bias primals_6 = self.conv2.weight_g primals_7 = self.conv2.weight_v primals_5 = self.relu_1.alpha primals_9 = self.relu_2.alpha primals_4 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9]) return output[0]	HenryOsborne/LearningToPaint	BasicBlock	false	9,149	[ "MIT" ]	d8fdf41c8d193b91c78f73b7a092897e846e19eb	https://github.com/HenryOsborne/LearningToPaint/tree/d8fdf41c8d193b91c78f73b7a092897e846e19eb
VocabGraphConvolution	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/vm/cvmrqlqqvxp6blioafkdkaofn7wkkon7u6khr2fbp4aqo66xm6mo.py # Topologically Sorted Source Nodes: [fused_H_2], Original ATen: [aten.add] # Source node to ATen node mapping: # fused_H_2 => add_2 # Graph fragment: # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%view_10, %view_13), kwargs = {}) triton_poi_fused_add_0 = async_compile.triton('triton_poi_fused_add_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_0(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_out_ptr0 + (x0), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask) tmp3 = tl.load(in_ptr1 + (x0), xmask) tmp5 = tl.load(in_ptr2 + (x0), xmask) tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp6 = tmp4 + tmp5 tl.store(in_out_ptr0 + (x0), tmp6, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/m4/cm4e5xfc44dx4qte74bwfdb35u6flb4coxohln57fmueoitjynx7.py # Topologically Sorted Source Nodes: [out], Original ATen: [aten.view] # Source node to ATen node mapping: # out => view_19 # Graph fragment: # %view_19 : [num_users=2] = call_function[target=torch.ops.aten.reshape.default](args = (%view_18, [16, 4]), kwargs = {}) triton_poi_fused_view_1 = async_compile.triton('triton_poi_fused_view_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_view_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_view_1(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = (xindex // 4) x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + (4x1) + (16((x1 % 4) // 4))), xmask) tl.store(out_ptr0 + (x2), tmp0, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8 = args args.clear() assert_size_stride(primals_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_2, (4, 4), (4, 1)) assert_size_stride(primals_3, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (4, 4), (4, 1)) assert_size_stride(primals_6, (4, 4), (4, 1)) assert_size_stride(primals_7, (4, 4), (4, 1)) assert_size_stride(primals_8, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [H_vh], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(primals_1, (4, 4), (4, 1), 0), primals_2, out=buf0) del primals_2 buf1 = empty_strided_cuda((16, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [H_dh], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(primals_3, (16, 4), (4, 1), 0), buf0, out=buf1) buf2 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [H_vh_2], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(primals_1, (4, 4), (4, 1), 16), primals_4, out=buf2) del primals_4 buf3 = empty_strided_cuda((16, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [H_dh_1], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(primals_3, (16, 4), (4, 1), 0), buf2, out=buf3) buf4 = buf2; del buf2 # reuse # Topologically Sorted Source Nodes: [H_vh_4], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(primals_1, (4, 4), (4, 1), 32), primals_5, out=buf4) del primals_5 buf5 = empty_strided_cuda((16, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [H_dh_2], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(primals_3, (16, 4), (4, 1), 0), buf4, out=buf5) buf6 = buf4; del buf4 # reuse # Topologically Sorted Source Nodes: [H_vh_6], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(primals_1, (4, 4), (4, 1), 48), primals_6, out=buf6) del primals_6 buf7 = empty_strided_cuda((16, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [H_dh_3], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(primals_3, (16, 4), (4, 1), 0), buf6, out=buf7) del buf6 buf8 = reinterpret_tensor(buf1, (4, 4, 4), (16, 4, 1), 0); del buf1 # reuse # Topologically Sorted Source Nodes: [fused_H_2], Original ATen: [aten.add] stream0 = get_raw_stream(0) triton_poi_fused_add_0.run(buf8, buf3, buf5, buf7, 64, grid=grid(64), stream=stream0) del buf3 del buf5 buf9 = buf7; del buf7 # reuse # Topologically Sorted Source Nodes: [out], Original ATen: [aten.view] triton_poi_fused_view_1.run(buf8, buf9, 64, grid=grid(64), stream=stream0) buf10 = reinterpret_tensor(buf8, (16, 4), (4, 1), 0); del buf8 # reuse # Topologically Sorted Source Nodes: [out], Original ATen: [aten.addmm] extern_kernels.addmm(primals_8, buf9, reinterpret_tensor(primals_7, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf10) del primals_8 return (reinterpret_tensor(buf10, (4, 4, 4), (16, 4, 1), 0), buf9, primals_7, reinterpret_tensor(primals_3, (4, 16), (1, 4), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 48), reinterpret_tensor(primals_1, (4, 4), (1, 4), 32), reinterpret_tensor(primals_1, (4, 4), (1, 4), 16), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import math import torch import torch.nn as nn import torch.nn.init as init class VocabGraphConvolution(nn.Module): """Vocabulary GCN module. Params: `voc_dim`: The size of vocabulary graph `num_adj`: The number of the adjacency matrix of Vocabulary graph `hid_dim`: The hidden dimension after XAW `out_dim`: The output dimension after Relu(XAW)W `dropout_rate`: The dropout probabilitiy for all fully connected layers in the embeddings, encoder, and pooler. Inputs: `vocab_adj_list`: The list of the adjacency matrix `X_dv`: the feature of mini batch document, can be TF-IDF (batch, vocab), or word embedding (batch, word_embedding_dim, vocab) Outputs: The graph embedding representation, dimension (batch, `out_dim`) or (batch, word_embedding_dim, `out_dim`) """ def __init__(self, voc_dim, num_adj, hid_dim, out_dim, dropout_rate=0.2): super(VocabGraphConvolution, self).__init__() self.voc_dim = voc_dim self.num_adj = num_adj self.hid_dim = hid_dim self.out_dim = out_dim for i in range(self.num_adj): setattr(self, 'W%d_vh' % i, nn.Parameter(torch.randn(voc_dim, hid_dim))) self.fc_hc = nn.Linear(hid_dim, out_dim) self.act_func = nn.ReLU() self.dropout = nn.Dropout(dropout_rate) self.reset_parameters() def reset_parameters(self): for n, p in self.named_parameters(): if n.startswith('W') or n.startswith('a') or n in ('W', 'a', 'dense'): init.kaiming_uniform_(p, a=math.sqrt(5)) def forward(self, vocab_adj_list, X_dv, add_linear_mapping_term=False): for i in range(self.num_adj): H_vh = vocab_adj_list[i].mm(getattr(self, 'W%d_vh' % i)) H_vh = self.dropout(H_vh) H_dh = X_dv.matmul(H_vh) if add_linear_mapping_term: H_linear = X_dv.matmul(getattr(self, 'W%d_vh' % i)) H_linear = self.dropout(H_linear) H_dh += H_linear if i == 0: fused_H = H_dh else: fused_H += H_dh out = self.fc_hc(fused_H) return out def get_inputs(): return [torch.rand([4, 4, 4]), torch.rand([4, 4, 4])] def get_init_inputs(): return [[], {'voc_dim': 4, 'num_adj': 4, 'hid_dim': 4, 'out_dim': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import math import torch.nn as nn import torch.nn.init as init assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_add_0(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_out_ptr0 + x0, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask) tmp3 = tl.load(in_ptr1 + x0, xmask) tmp5 = tl.load(in_ptr2 + x0, xmask) tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp6 = tmp4 + tmp5 tl.store(in_out_ptr0 + x0, tmp6, xmask) @triton.jit def triton_poi_fused_view_1(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = xindex // 4 x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + 4 * x1 + 16 * (x1 % 4 // 4)), xmask) tl.store(out_ptr0 + x2, tmp0, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8) = args args.clear() assert_size_stride(primals_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_2, (4, 4), (4, 1)) assert_size_stride(primals_3, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (4, 4), (4, 1)) assert_size_stride(primals_6, (4, 4), (4, 1)) assert_size_stride(primals_7, (4, 4), (4, 1)) assert_size_stride(primals_8, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_1, (4, 4), (4, 1), 0), primals_2, out=buf0) del primals_2 buf1 = empty_strided_cuda((16, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_3, (16, 4), (4, 1), 0), buf0, out=buf1) buf2 = buf0 del buf0 extern_kernels.mm(reinterpret_tensor(primals_1, (4, 4), (4, 1), 16), primals_4, out=buf2) del primals_4 buf3 = empty_strided_cuda((16, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_3, (16, 4), (4, 1), 0), buf2, out=buf3) buf4 = buf2 del buf2 extern_kernels.mm(reinterpret_tensor(primals_1, (4, 4), (4, 1), 32), primals_5, out=buf4) del primals_5 buf5 = empty_strided_cuda((16, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_3, (16, 4), (4, 1), 0), buf4, out=buf5) buf6 = buf4 del buf4 extern_kernels.mm(reinterpret_tensor(primals_1, (4, 4), (4, 1), 48), primals_6, out=buf6) del primals_6 buf7 = empty_strided_cuda((16, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_3, (16, 4), (4, 1), 0), buf6, out=buf7) del buf6 buf8 = reinterpret_tensor(buf1, (4, 4, 4), (16, 4, 1), 0) del buf1 get_raw_stream(0) triton_poi_fused_add_0[grid(64)](buf8, buf3, buf5, buf7, 64, XBLOCK =64, num_warps=1, num_stages=1) del buf3 del buf5 buf9 = buf7 del buf7 triton_poi_fused_view_1[grid(64)](buf8, buf9, 64, XBLOCK=64, num_warps=1, num_stages=1) buf10 = reinterpret_tensor(buf8, (16, 4), (4, 1), 0) del buf8 extern_kernels.addmm(primals_8, buf9, reinterpret_tensor(primals_7, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf10) del primals_8 return reinterpret_tensor(buf10, (4, 4, 4), (16, 4, 1), 0 ), buf9, primals_7, reinterpret_tensor(primals_3, (4, 16), (1, 4), 0 ), reinterpret_tensor(primals_1, (4, 4), (1, 4), 48 ), reinterpret_tensor(primals_1, (4, 4), (1, 4), 32 ), reinterpret_tensor(primals_1, (4, 4), (1, 4), 16 ), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0) class VocabGraphConvolutionNew(nn.Module): """Vocabulary GCN module. Params: `voc_dim`: The size of vocabulary graph `num_adj`: The number of the adjacency matrix of Vocabulary graph `hid_dim`: The hidden dimension after XAW `out_dim`: The output dimension after Relu(XAW)W `dropout_rate`: The dropout probabilitiy for all fully connected layers in the embeddings, encoder, and pooler. Inputs: `vocab_adj_list`: The list of the adjacency matrix `X_dv`: the feature of mini batch document, can be TF-IDF (batch, vocab), or word embedding (batch, word_embedding_dim, vocab) Outputs: The graph embedding representation, dimension (batch, `out_dim`) or (batch, word_embedding_dim, `out_dim`) """ def __init__(self, voc_dim, num_adj, hid_dim, out_dim, dropout_rate=0.2): super(VocabGraphConvolutionNew, self).__init__() self.voc_dim = voc_dim self.num_adj = num_adj self.hid_dim = hid_dim self.out_dim = out_dim for i in range(self.num_adj): setattr(self, 'W%d_vh' % i, nn.Parameter(torch.randn(voc_dim, hid_dim))) self.fc_hc = nn.Linear(hid_dim, out_dim) self.act_func = nn.ReLU() self.dropout = nn.Dropout(dropout_rate) self.reset_parameters() def reset_parameters(self): for n, p in self.named_parameters(): if n.startswith('W') or n.startswith('a') or n in ('W', 'a', 'dense'): init.kaiming_uniform_(p, a=math.sqrt(5)) def forward(self, input_0, input_1): primals_2 = self.W0_vh primals_4 = self.W1_vh primals_5 = self.W2_vh primals_6 = self.W3_vh primals_7 = self.fc_hc.weight primals_8 = self.fc_hc.bias primals_1 = input_0 primals_3 = input_1 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8]) return output[0]	JakobVokac/VGCN-BERT	VocabGraphConvolution	false	9,150	[ "MIT" ]	f82f1922c0d461c12d43c45bc58b61b92534b99b	https://github.com/JakobVokac/VGCN-BERT/tree/f82f1922c0d461c12d43c45bc58b61b92534b99b
GHMC	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/eu/ceuv7b3vtgnm54c77ljfgp5gdzt44um3527nmb7duufsy6ufr57k.py # Topologically Sorted Source Nodes: [valid, float_3, sum_1], Original ATen: [aten.gt, aten._to_copy, aten.sum] # Source node to ATen node mapping: # float_3 => convert_element_type # sum_1 => sum_1 # valid => gt # Graph fragment: # %gt : [num_users=2] = call_function[target=torch.ops.aten.gt.Scalar](args = (%arg2_1, 0), kwargs = {}) # %convert_element_type : [num_users=1] = call_function[target=torch.ops.prims.convert_element_type.default](args = (%gt, torch.float32), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%convert_element_type,), kwargs = {}) triton_per_fused__to_copy_gt_sum_0 = async_compile.triton('triton_per_fused__to_copy_gt_sum_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[1, 256], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'i1', 2: 'fp32', 3: 'i32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {3: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 4), equal_to_1=(3,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused__to_copy_gt_sum_0', 'mutated_arg_names': [], 'no_x_dim': True, 'num_load': 1, 'num_reduction': 1, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused__to_copy_gt_sum_0(in_ptr0, out_ptr0, out_ptr1, xnumel, rnumel): xnumel = 1 XBLOCK: tl.constexpr = 1 rnumel = 256 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) XBLOCK xindex = tl.full([1], xoffset, tl.int32) xmask = tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] roffset = 0 rmask = tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + (r0), None) tmp1 = 0.0 tmp2 = tmp0 > tmp1 tmp3 = tmp2.to(tl.float32) tmp4 = tl.broadcast_to(tmp3, [RBLOCK]) tmp6 = triton_helpers.promote_to_tensor(tl.sum(tmp4, 0)) tl.store(out_ptr0 + (tl.broadcast_to(r0, [RBLOCK])), tmp2, None) tl.store(out_ptr1 + (tl.full([1], 0, tl.int32)), tmp6, None) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/yx/cyx33b4cuc5wetqcfqkvlznxkkeck5wuib3zqzten6pdyhb3nib2.py # Topologically Sorted Source Nodes: [weights], Original ATen: [aten.zeros_like] # Source node to ATen node mapping: # weights => full_default # Graph fragment: # %full_default : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([4, 4, 4, 4], 0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) triton_poi_fused_zeros_like_1 = async_compile.triton('triton_poi_fused_zeros_like_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_zeros_like_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 0, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_zeros_like_1(out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = 0.0 tl.store(out_ptr0 + (x0), tmp0, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/o3/co3ohsiccha2jedxkbuuzgpfkttvcqovi7edh443hag7dzlqgnfb.py # Topologically Sorted Source Nodes: [sigmoid, sub, g], Original ATen: [aten.sigmoid, aten.sub, aten.abs] # Source node to ATen node mapping: # g => abs_1 # sigmoid => sigmoid # sub => sub # Graph fragment: # %sigmoid : [num_users=1] = call_function[target=torch.ops.aten.sigmoid.default](args = (%arg0_1,), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%sigmoid, %arg1_1), kwargs = {}) # %abs_1 : [num_users=1] = call_function[target=torch.ops.aten.abs.default](args = (%sub,), kwargs = {}) triton_poi_fused_abs_sigmoid_sub_2 = async_compile.triton('triton_poi_fused_abs_sigmoid_sub_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_abs_sigmoid_sub_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_abs_sigmoid_sub_2(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp2 = tl.load(in_ptr1 + (x0), xmask) tmp1 = tl.sigmoid(tmp0) tmp3 = tmp1 - tmp2 tmp4 = tl_math.abs(tmp3) tl.store(out_ptr0 + (x0), tmp4, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1, arg2_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg2_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) buf1 = empty_strided_cuda((), (), torch.float32) # Topologically Sorted Source Nodes: [valid, float_3, sum_1], Original ATen: [aten.gt, aten._to_copy, aten.sum] stream0 = get_raw_stream(0) triton_per_fused__to_copy_gt_sum_0.run(arg2_1, buf0, buf1, 1, 256, grid=grid(1), stream=stream0) del arg2_1 buf2 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [weights], Original ATen: [aten.zeros_like] triton_poi_fused_zeros_like_1.run(buf2, 256, grid=grid(256), stream=stream0) buf3 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [sigmoid, sub, g], Original ATen: [aten.sigmoid, aten.sub, aten.abs] triton_poi_fused_abs_sigmoid_sub_2.run(arg0_1, arg1_1, buf3, 256, grid=grid(256), stream=stream0) del arg0_1 return (buf1, arg1_1, buf2, buf3, buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg2_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1, arg2_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn.functional as F import torch.nn as nn def _expand_onehot_labels(labels, label_weights, label_channels): bin_labels = labels.new_full((labels.size(0), label_channels), 0) inds = torch.nonzero((labels >= 0) & (labels < label_channels), as_tuple=False).squeeze() if inds.numel() > 0: bin_labels[inds, labels[inds]] = 1 bin_label_weights = label_weights.view(-1, 1).expand(label_weights.size (0), label_channels) return bin_labels, bin_label_weights class GHMC(nn.Module): """GHM Classification Loss. Details of the theorem can be viewed in the paper `Gradient Harmonized Single-stage Detector <https://arxiv.org/abs/1811.05181>`_. Args: bins (int): Number of the unit regions for distribution calculation. momentum (float): The parameter for moving average. use_sigmoid (bool): Can only be true for BCE based loss now. loss_weight (float): The weight of the total GHM-C loss. """ def __init__(self, bins=10, momentum=0, use_sigmoid=True, loss_weight=1.0): super(GHMC, self).__init__() self.bins = bins self.momentum = momentum edges = torch.arange(bins + 1).float() / bins self.register_buffer('edges', edges) self.edges[-1] += 1e-06 if momentum > 0: acc_sum = torch.zeros(bins) self.register_buffer('acc_sum', acc_sum) self.use_sigmoid = use_sigmoid if not self.use_sigmoid: raise NotImplementedError self.loss_weight = loss_weight def forward(self, pred, target, label_weight, args, kwargs): """Calculate the GHM-C loss. Args: pred (float tensor of size [batch_num, class_num]): The direct prediction of classification fc layer. target (float tensor of size [batch_num, class_num]): Binary class target for each sample. label_weight (float tensor of size [batch_num, class_num]): the value is 1 if the sample is valid and 0 if ignored. Returns: The gradient harmonized loss. """ if pred.dim() != target.dim(): target, label_weight = _expand_onehot_labels(target, label_weight, pred.size(-1)) target, label_weight = target.float(), label_weight.float() edges = self.edges mmt = self.momentum weights = torch.zeros_like(pred) g = torch.abs(pred.sigmoid().detach() - target) valid = label_weight > 0 tot = max(valid.float().sum().item(), 1.0) n = 0 for i in range(self.bins): inds = (g >= edges[i]) & (g < edges[i + 1]) & valid num_in_bin = inds.sum().item() if num_in_bin > 0: if mmt > 0: self.acc_sum[i] = mmt self.acc_sum[i] + (1 - mmt ) * num_in_bin weights[inds] = tot / self.acc_sum[i] else: weights[inds] = tot / num_in_bin n += 1 if n > 0: weights = weights / n loss = F.binary_cross_entropy_with_logits(pred, target, weights, reduction='sum') / tot return loss * self.loss_weight def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4]), torch.rand( [4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_per_fused__to_copy_gt_sum_0(in_ptr0, out_ptr0, out_ptr1, xnumel, rnumel): XBLOCK: tl.constexpr = 1 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) * XBLOCK tl.full([1], xoffset, tl.int32) tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + r0, None) tmp1 = 0.0 tmp2 = tmp0 > tmp1 tmp3 = tmp2.to(tl.float32) tmp4 = tl.broadcast_to(tmp3, [RBLOCK]) tmp6 = triton_helpers.promote_to_tensor(tl.sum(tmp4, 0)) tl.store(out_ptr0 + tl.broadcast_to(r0, [RBLOCK]), tmp2, None) tl.store(out_ptr1 + tl.full([1], 0, tl.int32), tmp6, None) @triton.jit def triton_poi_fused_zeros_like_1(out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = 0.0 tl.store(out_ptr0 + x0, tmp0, xmask) @triton.jit def triton_poi_fused_abs_sigmoid_sub_2(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp2 = tl.load(in_ptr1 + x0, xmask) tmp1 = tl.sigmoid(tmp0) tmp3 = tmp1 - tmp2 tmp4 = tl_math.abs(tmp3) tl.store(out_ptr0 + x0, tmp4, xmask) def call(args): arg0_1, arg1_1, arg2_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg2_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) buf1 = empty_strided_cuda((), (), torch.float32) get_raw_stream(0) triton_per_fused__to_copy_gt_sum_0[grid(1)](arg2_1, buf0, buf1, 1, 256, num_warps=2, num_stages=1) del arg2_1 buf2 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) triton_poi_fused_zeros_like_1[grid(256)](buf2, 256, XBLOCK=128, num_warps=4, num_stages=1) buf3 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) triton_poi_fused_abs_sigmoid_sub_2[grid(256)](arg0_1, arg1_1, buf3, 256, XBLOCK=256, num_warps=4, num_stages=1) del arg0_1 return buf1, arg1_1, buf2, buf3, buf0 def _expand_onehot_labels(labels, label_weights, label_channels): bin_labels = labels.new_full((labels.size(0), label_channels), 0) inds = torch.nonzero((labels >= 0) & (labels < label_channels), as_tuple=False).squeeze() if inds.numel() > 0: bin_labels[inds, labels[inds]] = 1 bin_label_weights = label_weights.view(-1, 1).expand(label_weights.size (0), label_channels) return bin_labels, bin_label_weights class GHMCNew(nn.Module): """GHM Classification Loss. Details of the theorem can be viewed in the paper `Gradient Harmonized Single-stage Detector <https://arxiv.org/abs/1811.05181>`_. Args: bins (int): Number of the unit regions for distribution calculation. momentum (float): The parameter for moving average. use_sigmoid (bool): Can only be true for BCE based loss now. loss_weight (float): The weight of the total GHM-C loss. """ def __init__(self, bins=10, momentum=0, use_sigmoid=True, loss_weight=1.0): super(GHMCNew, self).__init__() self.bins = bins self.momentum = momentum edges = torch.arange(bins + 1).float() / bins self.register_buffer('edges', edges) self.edges[-1] += 1e-06 if momentum > 0: acc_sum = torch.zeros(bins) self.register_buffer('acc_sum', acc_sum) self.use_sigmoid = use_sigmoid if not self.use_sigmoid: raise NotImplementedError self.loss_weight = loss_weight def forward(self, input_0, input_1, input_2): arg0_1 = input_0 arg1_1 = input_1 arg2_1 = input_2 output = call([arg0_1, arg1_1, arg2_1]) return output[0]	ChHanXiao/mmdetection	GHMC	false	9,151	[ "Apache-2.0" ]	324aa5a042857a9b57abe37385e1210709a20d02	https://github.com/ChHanXiao/mmdetection/tree/324aa5a042857a9b57abe37385e1210709a20d02
DenseCrossEntropy	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/nr/cnrkptzsuv7qm3ss6i6xgoxkou23z76h2vmwqkwz2zkgpdbxhedc.py # Topologically Sorted Source Nodes: [logprobs], Original ATen: [aten._log_softmax] # Source node to ATen node mapping: # logprobs => amax, sub # Graph fragment: # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%arg0_1, [-1], True), kwargs = {}) # %sub : [num_users=2] = call_function[target=torch.ops.aten.sub.Tensor](args = (%arg0_1, %amax), kwargs = {}) triton_poi_fused__log_softmax_0 = async_compile.triton('triton_poi_fused__log_softmax_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__log_softmax_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__log_softmax_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (4x1), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + (4x1)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + (4x1)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + (4x1)), xmask, eviction_policy='evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tl.store(out_ptr0 + (x2), tmp8, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/nb/cnbdxy34iv6vkig4bfuqrxbegug3ek6lhyugevz3qctt7efdvtge.py # Topologically Sorted Source Nodes: [logprobs, neg, loss, loss_1, mean], Original ATen: [aten._log_softmax, aten.neg, aten.mul, aten.sum, aten.mean] # Source node to ATen node mapping: # logprobs => exp, log, sub_1, sum_1 # loss => mul # loss_1 => sum_2 # mean => mean # neg => neg # Graph fragment: # %exp : [num_users=1] = call_function[target=torch.ops.aten.exp.default](args = (%sub,), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp, [-1], True), kwargs = {}) # %log : [num_users=1] = call_function[target=torch.ops.aten.log.default](args = (%sum_1,), kwargs = {}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%sub, %log), kwargs = {}) # %neg : [num_users=1] = call_function[target=torch.ops.aten.neg.default](args = (%sub_1,), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%neg, %arg1_1), kwargs = {}) # %sum_2 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%mul, [-1]), kwargs = {}) # %mean : [num_users=1] = call_function[target=torch.ops.aten.mean.default](args = (%sum_2,), kwargs = {}) triton_per_fused__log_softmax_mean_mul_neg_sum_1 = async_compile.triton('triton_per_fused__log_softmax_mean_mul_neg_sum_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[1, 64], reduction_hint=ReductionHint.DEFAULT, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {3: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 4), equal_to_1=(3,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused__log_softmax_mean_mul_neg_sum_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 8, 'num_reduction': 1, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused__log_softmax_mean_mul_neg_sum_1(in_out_ptr0, in_ptr0, in_ptr1, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 1 rnumel = 64 RBLOCK: tl.constexpr = 64 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + (4r0), None, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + (4r0)), None, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (2 + (4r0)), None, eviction_policy='evict_last') tmp8 = tl.load(in_ptr0 + (3 + (4r0)), None, eviction_policy='evict_last') tmp14 = tl.load(in_ptr1 + (4r0), None, eviction_policy='evict_last') tmp18 = tl.load(in_ptr1 + (1 + (4r0)), None, eviction_policy='evict_last') tmp23 = tl.load(in_ptr1 + (2 + (4r0)), None, eviction_policy='evict_last') tmp28 = tl.load(in_ptr1 + (3 + (4r0)), None, eviction_policy='evict_last') tmp1 = tl_math.exp(tmp0) tmp3 = tl_math.exp(tmp2) tmp4 = tmp1 + tmp3 tmp6 = tl_math.exp(tmp5) tmp7 = tmp4 + tmp6 tmp9 = tl_math.exp(tmp8) tmp10 = tmp7 + tmp9 tmp11 = tl_math.log(tmp10) tmp12 = tmp0 - tmp11 tmp13 = -tmp12 tmp15 = tmp13 * tmp14 tmp16 = tmp2 - tmp11 tmp17 = -tmp16 tmp19 = tmp17 * tmp18 tmp20 = tmp15 + tmp19 tmp21 = tmp5 - tmp11 tmp22 = -tmp21 tmp24 = tmp22 * tmp23 tmp25 = tmp20 + tmp24 tmp26 = tmp8 - tmp11 tmp27 = -tmp26 tmp29 = tmp27 * tmp28 tmp30 = tmp25 + tmp29 tmp31 = tl.broadcast_to(tmp30, [XBLOCK, RBLOCK]) tmp33 = tl.sum(tmp31, 1)[:, None] tmp34 = 64.0 tmp35 = tmp33 / tmp34 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([XBLOCK, 1], 0, tl.int32)), tmp35, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [logprobs], Original ATen: [aten._log_softmax] stream0 = get_raw_stream(0) triton_poi_fused__log_softmax_0.run(arg0_1, buf0, 256, grid=grid(256), stream=stream0) del arg0_1 buf2 = empty_strided_cuda((), (), torch.float32) buf3 = buf2; del buf2 # reuse # Topologically Sorted Source Nodes: [logprobs, neg, loss, loss_1, mean], Original ATen: [aten._log_softmax, aten.neg, aten.mul, aten.sum, aten.mean] triton_per_fused__log_softmax_mean_mul_neg_sum_1.run(buf3, buf0, arg1_1, 1, 64, grid=grid(1), stream=stream0) del arg1_1 del buf0 return (buf3, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class DenseCrossEntropy(nn.Module): def forward(self, x, target): x = x.float() target = target.float() logprobs = torch.nn.functional.log_softmax(x, dim=-1) loss = -logprobs * target loss = loss.sum(-1) return loss.mean() def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused__log_softmax_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + 4 * x1, xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + 4 * x1), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + 4 * x1), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + 4 * x1), xmask, eviction_policy='evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tl.store(out_ptr0 + x2, tmp8, xmask) @triton.jit def triton_per_fused__log_softmax_mean_mul_neg_sum_1(in_out_ptr0, in_ptr0, in_ptr1, xnumel, rnumel, XBLOCK: tl.constexpr): RBLOCK: tl.constexpr = 64 xoffset = tl.program_id(0) * XBLOCK xoffset + tl.arange(0, XBLOCK)[:, None] tl.full([XBLOCK, RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[None, :] tl.full([XBLOCK, RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + 4 * r0, None, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + 4 * r0), None, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (2 + 4 * r0), None, eviction_policy='evict_last') tmp8 = tl.load(in_ptr0 + (3 + 4 * r0), None, eviction_policy='evict_last') tmp14 = tl.load(in_ptr1 + 4 * r0, None, eviction_policy='evict_last') tmp18 = tl.load(in_ptr1 + (1 + 4 * r0), None, eviction_policy='evict_last') tmp23 = tl.load(in_ptr1 + (2 + 4 * r0), None, eviction_policy='evict_last') tmp28 = tl.load(in_ptr1 + (3 + 4 * r0), None, eviction_policy='evict_last') tmp1 = tl_math.exp(tmp0) tmp3 = tl_math.exp(tmp2) tmp4 = tmp1 + tmp3 tmp6 = tl_math.exp(tmp5) tmp7 = tmp4 + tmp6 tmp9 = tl_math.exp(tmp8) tmp10 = tmp7 + tmp9 tmp11 = tl_math.log(tmp10) tmp12 = tmp0 - tmp11 tmp13 = -tmp12 tmp15 = tmp13 * tmp14 tmp16 = tmp2 - tmp11 tmp17 = -tmp16 tmp19 = tmp17 * tmp18 tmp20 = tmp15 + tmp19 tmp21 = tmp5 - tmp11 tmp22 = -tmp21 tmp24 = tmp22 * tmp23 tmp25 = tmp20 + tmp24 tmp26 = tmp8 - tmp11 tmp27 = -tmp26 tmp29 = tmp27 * tmp28 tmp30 = tmp25 + tmp29 tmp31 = tl.broadcast_to(tmp30, [XBLOCK, RBLOCK]) tmp33 = tl.sum(tmp31, 1)[:, None] tmp34 = 64.0 tmp35 = tmp33 / tmp34 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([XBLOCK, 1], 0, tl.int32), tmp35, None) def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused__log_softmax_0[grid(256)](arg0_1, buf0, 256, XBLOCK=256, num_warps=4, num_stages=1) del arg0_1 buf2 = empty_strided_cuda((), (), torch.float32) buf3 = buf2 del buf2 triton_per_fused__log_softmax_mean_mul_neg_sum_1[grid(1)](buf3, buf0, arg1_1, 1, 64, XBLOCK=1, num_warps=2, num_stages=1) del arg1_1 del buf0 return buf3, class DenseCrossEntropyNew(nn.Module): def forward(self, input_0, input_1): arg0_1 = input_0 arg1_1 = input_1 output = call([arg0_1, arg1_1]) return output[0]	Husky95/Google-Landmark-Recognition-2020-3rd-Place-Solution	DenseCrossEntropy	false	9,152	[ "Apache-2.0" ]	48806b9e09beabf74e8f96575855dcfa13a4f996	https://github.com/Husky95/Google-Landmark-Recognition-2020-3rd-Place-Solution/tree/48806b9e09beabf74e8f96575855dcfa13a4f996
GE2ELoss	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/xs/cxsrpt6fc6keotwox53jqah3sh3dxvxtz3kwc2blhwib6t3qy42k.py # Topologically Sorted Source Nodes: [sub, centroids_1], Original ATen: [aten.sub, aten.div] # Source node to ATen node mapping: # centroids_1 => div # sub => sub # Graph fragment: # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%view, %primals_2), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%sub, 3), kwargs = {}) triton_poi_fused_div_sub_0 = async_compile.triton('triton_poi_fused_div_sub_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_div_sub_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_div_sub_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x2 = (xindex // 16) x3 = xindex tmp0 = tl.load(in_ptr0 + (x0 + (16x2)), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (4 + x0 + (16x2)), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (8 + x0 + (16x2)), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (12 + x0 + (16x2)), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr0 + (x3), xmask) tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp6 = tmp4 + tmp5 tmp8 = tmp6 - tmp7 tmp9 = 0.3333333333333333 tmp10 = tmp8 * tmp9 tl.store(out_ptr0 + (x3), tmp10, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/dv/cdvje63sjkelf3el4u53unnyfy2sevhogihzqbwx6hsyrbsy7cbg.py # Topologically Sorted Source Nodes: [cos_same], Original ATen: [aten.linalg_vector_norm, aten.clamp_min, aten.div, aten.mul] # Source node to ATen node mapping: # cos_same => clamp_min_1, clamp_min_2, div_1, div_2, mul, pow_1, pow_2, pow_3, pow_4, sum_2, sum_3 # Graph fragment: # %pow_1 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%view_2, 2), kwargs = {}) # %sum_2 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%pow_1, [1], True), kwargs = {}) # %pow_2 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sum_2, 0.5), kwargs = {}) # %pow_3 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%view_1, 2), kwargs = {}) # %sum_3 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%pow_3, [1], True), kwargs = {}) # %pow_4 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sum_3, 0.5), kwargs = {}) # %clamp_min_1 : [num_users=1] = call_function[target=torch.ops.aten.clamp_min.default](args = (%pow_2, 1e-08), kwargs = {}) # %clamp_min_2 : [num_users=1] = call_function[target=torch.ops.aten.clamp_min.default](args = (%pow_4, 1e-08), kwargs = {}) # %div_1 : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%view_1, %clamp_min_2), kwargs = {}) # %div_2 : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%view_2, %clamp_min_1), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%div_2, %div_1), kwargs = {}) triton_poi_fused_clamp_min_div_linalg_vector_norm_mul_1 = async_compile.triton('triton_poi_fused_clamp_min_div_linalg_vector_norm_mul_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_clamp_min_div_linalg_vector_norm_mul_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 10, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_clamp_min_div_linalg_vector_norm_mul_1(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (4x1), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (1 + (4x1)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (2 + (4x1)), xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr0 + (3 + (4x1)), xmask, eviction_policy='evict_last') tmp16 = tl.load(in_ptr1 + (x2), xmask) tmp17 = tl.load(in_ptr1 + (4x1), xmask, eviction_policy='evict_last') tmp19 = tl.load(in_ptr1 + (1 + (4x1)), xmask, eviction_policy='evict_last') tmp22 = tl.load(in_ptr1 + (2 + (4x1)), xmask, eviction_policy='evict_last') tmp25 = tl.load(in_ptr1 + (3 + (4x1)), xmask, eviction_policy='evict_last') tmp2 = tmp1 * tmp1 tmp4 = tmp3 * tmp3 tmp5 = tmp2 + tmp4 tmp7 = tmp6 * tmp6 tmp8 = tmp5 + tmp7 tmp10 = tmp9 * tmp9 tmp11 = tmp8 + tmp10 tmp12 = libdevice.sqrt(tmp11) tmp13 = 1e-08 tmp14 = triton_helpers.maximum(tmp12, tmp13) tmp15 = tmp0 / tmp14 tmp18 = tmp17 * tmp17 tmp20 = tmp19 * tmp19 tmp21 = tmp18 + tmp20 tmp23 = tmp22 * tmp22 tmp24 = tmp21 + tmp23 tmp26 = tmp25 * tmp25 tmp27 = tmp24 + tmp26 tmp28 = libdevice.sqrt(tmp27) tmp29 = triton_helpers.maximum(tmp28, tmp13) tmp30 = tmp16 / tmp29 tmp31 = tmp15 * tmp30 tl.store(out_ptr0 + (x2), tmp31, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/bd/cbdptvqpyegwucijcr6uwn6bfx3eo4vhu5rbuhfpm7rxzwz5eeqd.py # Topologically Sorted Source Nodes: [centroids, centroids_expand, cos_diff], Original ATen: [aten.mean, aten.repeat, aten.linalg_vector_norm] # Source node to ATen node mapping: # centroids => mean # centroids_expand => repeat # cos_diff => pow_7, sum_6 # Graph fragment: # %mean : [num_users=1] = call_function[target=torch.ops.aten.mean.dim](args = (%primals_2, [1]), kwargs = {}) # %repeat : [num_users=2] = call_function[target=torch.ops.aten.repeat.default](args = (%mean, [16, 1]), kwargs = {}) # %pow_7 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%repeat, 2), kwargs = {}) # %sum_6 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%pow_7, [1], True), kwargs = {}) triton_poi_fused_linalg_vector_norm_mean_repeat_2 = async_compile.triton('triton_poi_fused_linalg_vector_norm_mean_repeat_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_linalg_vector_norm_mean_repeat_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 16, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_linalg_vector_norm_mean_repeat_2(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (16(x0 % 4)), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (4 + (16(x0 % 4))), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (8 + (16(x0 % 4))), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (12 + (16(x0 % 4))), xmask, eviction_policy='evict_last') tmp10 = tl.load(in_ptr0 + (1 + (16(x0 % 4))), xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr0 + (5 + (16(x0 % 4))), xmask, eviction_policy='evict_last') tmp13 = tl.load(in_ptr0 + (9 + (16(x0 % 4))), xmask, eviction_policy='evict_last') tmp15 = tl.load(in_ptr0 + (13 + (16(x0 % 4))), xmask, eviction_policy='evict_last') tmp20 = tl.load(in_ptr0 + (2 + (16(x0 % 4))), xmask, eviction_policy='evict_last') tmp21 = tl.load(in_ptr0 + (6 + (16(x0 % 4))), xmask, eviction_policy='evict_last') tmp23 = tl.load(in_ptr0 + (10 + (16(x0 % 4))), xmask, eviction_policy='evict_last') tmp25 = tl.load(in_ptr0 + (14 + (16(x0 % 4))), xmask, eviction_policy='evict_last') tmp30 = tl.load(in_ptr0 + (3 + (16(x0 % 4))), xmask, eviction_policy='evict_last') tmp31 = tl.load(in_ptr0 + (7 + (16(x0 % 4))), xmask, eviction_policy='evict_last') tmp33 = tl.load(in_ptr0 + (11 + (16(x0 % 4))), xmask, eviction_policy='evict_last') tmp35 = tl.load(in_ptr0 + (15 + (16(x0 % 4))), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp6 = tmp4 + tmp5 tmp7 = 4.0 tmp8 = tmp6 / tmp7 tmp9 = tmp8 * tmp8 tmp12 = tmp10 + tmp11 tmp14 = tmp12 + tmp13 tmp16 = tmp14 + tmp15 tmp17 = tmp16 / tmp7 tmp18 = tmp17 * tmp17 tmp19 = tmp9 + tmp18 tmp22 = tmp20 + tmp21 tmp24 = tmp22 + tmp23 tmp26 = tmp24 + tmp25 tmp27 = tmp26 / tmp7 tmp28 = tmp27 * tmp27 tmp29 = tmp19 + tmp28 tmp32 = tmp30 + tmp31 tmp34 = tmp32 + tmp33 tmp36 = tmp34 + tmp35 tmp37 = tmp36 / tmp7 tmp38 = tmp37 * tmp37 tmp39 = tmp29 + tmp38 tl.store(out_ptr0 + (x0), tmp39, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/nh/cnhrs5oppznwegybmgag7bb4gbadinbwe6rek6ylphkotmgrmcpa.py # Topologically Sorted Source Nodes: [centroids, centroids_expand, cos_diff], Original ATen: [aten.mean, aten.repeat, aten.linalg_vector_norm, aten.clamp_min, aten.div, aten.mul] # Source node to ATen node mapping: # centroids => mean # centroids_expand => repeat # cos_diff => clamp_min_3, clamp_min_4, div_3, div_4, mul_1, pow_5, pow_6, pow_8, sum_5 # Graph fragment: # %mean : [num_users=1] = call_function[target=torch.ops.aten.mean.dim](args = (%primals_2, [1]), kwargs = {}) # %repeat : [num_users=2] = call_function[target=torch.ops.aten.repeat.default](args = (%mean, [16, 1]), kwargs = {}) # %pow_5 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%view_3, 2), kwargs = {}) # %sum_5 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%pow_5, [1], True), kwargs = {}) # %pow_6 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sum_5, 0.5), kwargs = {}) # %pow_8 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sum_6, 0.5), kwargs = {}) # %clamp_min_3 : [num_users=1] = call_function[target=torch.ops.aten.clamp_min.default](args = (%pow_6, 1e-08), kwargs = {}) # %clamp_min_4 : [num_users=1] = call_function[target=torch.ops.aten.clamp_min.default](args = (%pow_8, 1e-08), kwargs = {}) # %div_3 : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%repeat, %clamp_min_4), kwargs = {}) # %div_4 : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%view_3, %clamp_min_3), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%div_4, %div_3), kwargs = {}) triton_poi_fused_clamp_min_div_linalg_vector_norm_mean_mul_repeat_3 = async_compile.triton('triton_poi_fused_clamp_min_div_linalg_vector_norm_mean_mul_repeat_3', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_clamp_min_div_linalg_vector_norm_mean_mul_repeat_3', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 10, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_clamp_min_div_linalg_vector_norm_mean_mul_repeat_3(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = (xindex // 4) x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + (4(x1 // 4))), xmask) tmp1 = tl.load(in_ptr0 + (4(x1 // 4)), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (1 + (4(x1 // 4))), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (2 + (4(x1 // 4))), xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr0 + (3 + (4(x1 // 4))), xmask, eviction_policy='evict_last') tmp16 = tl.load(in_ptr0 + (x0 + (16(x1 % 4))), xmask) tmp17 = tl.load(in_ptr0 + (4 + x0 + (16(x1 % 4))), xmask) tmp19 = tl.load(in_ptr0 + (8 + x0 + (16(x1 % 4))), xmask) tmp21 = tl.load(in_ptr0 + (12 + x0 + (16(x1 % 4))), xmask) tmp25 = tl.load(in_ptr1 + (x1), xmask, eviction_policy='evict_last') tmp2 = tmp1 tmp1 tmp4 = tmp3 * tmp3 tmp5 = tmp2 + tmp4 tmp7 = tmp6 * tmp6 tmp8 = tmp5 + tmp7 tmp10 = tmp9 * tmp9 tmp11 = tmp8 + tmp10 tmp12 = libdevice.sqrt(tmp11) tmp13 = 1e-08 tmp14 = triton_helpers.maximum(tmp12, tmp13) tmp15 = tmp0 / tmp14 tmp18 = tmp16 + tmp17 tmp20 = tmp18 + tmp19 tmp22 = tmp20 + tmp21 tmp23 = 4.0 tmp24 = tmp22 / tmp23 tmp26 = libdevice.sqrt(tmp25) tmp27 = triton_helpers.maximum(tmp26, tmp13) tmp28 = tmp24 / tmp27 tmp29 = tmp15 * tmp28 tl.store(out_ptr0 + (x2), tmp29, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/ir/cirx4jc3ufwibutztgyf7asd3mqxh5khmvscvbnbn4jwbtzmxwex.py # Topologically Sorted Source Nodes: [cos_diff], Original ATen: [aten.sum] # Source node to ATen node mapping: # cos_diff => sum_7 # Graph fragment: # %sum_7 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%mul_1, [1]), kwargs = {}) triton_poi_fused_sum_4 = async_compile.triton('triton_poi_fused_sum_4', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_sum_4', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_sum_4(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (4x0), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + (4x0)), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (2 + (4x0)), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (3 + (4x0)), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp6 = tmp4 + tmp5 tl.store(out_ptr0 + (x0), tmp6, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/ql/cqls67w2vyuytuch5eevuasqxfpvx6dzsfraeuvrtvwpy4pinmbt.py # Topologically Sorted Source Nodes: [setitem], Original ATen: [aten.index_put] # Source node to ATen node mapping: # setitem => index_put # Graph fragment: # %index_put : [num_users=2] = call_function[target=torch.ops.aten.index_put_.default](args = (%view_4, [%lift_fresh_copy, None, %lift_fresh_copy_1], %view_5), kwargs = {}) triton_poi_fused_index_put_5 = async_compile.triton('triton_poi_fused_index_put_5', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_index_put_5', 'mutated_arg_names': ['out_ptr0'], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_index_put_5(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = (xindex // 4) x2 = xindex x0 = xindex % 4 tmp11 = tl.load(in_ptr0 + (4x2), xmask, eviction_policy='evict_last') tmp12 = tl.load(in_ptr0 + (1 + (4x2)), xmask, eviction_policy='evict_last') tmp14 = tl.load(in_ptr0 + (2 + (4x2)), xmask, eviction_policy='evict_last') tmp16 = tl.load(in_ptr0 + (3 + (4x2)), xmask, eviction_policy='evict_last') tmp0 = x1 tmp1 = tl.full([1], 2, tl.int64) tmp2 = tmp0 < tmp1 tmp3 = tl.full([1], 1, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.full([1], 0, tl.int64) tmp6 = tl.where(tmp4, tmp5, tmp3) tmp7 = tl.full([1], 3, tl.int64) tmp8 = tmp0 < tmp7 tmp9 = tl.where(tmp8, tmp1, tmp7) tmp10 = tl.where(tmp2, tmp6, tmp9) tmp13 = tmp11 + tmp12 tmp15 = tmp13 + tmp14 tmp17 = tmp15 + tmp16 tl.store(out_ptr0 + ((4x0) + (17tmp10)), tmp17, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/lc/clc6rso4dneipezyns6n5nqji3ursl6dn5npzhlm6jd7b6k2a73q.py # Topologically Sorted Source Nodes: [cos_diff_2, mul, sim_matrix, pos, exp, sum_2, add_2, neg, sub_1, per_embedding_loss, loss], Original ATen: [aten.add, aten.mul, aten.index, aten.exp, aten.sum, aten.log, aten.sub] # Source node to ATen node mapping: # add_2 => add_2 # cos_diff_2 => add # exp => exp # loss => sum_9 # mul => mul_2 # neg => log # per_embedding_loss => mul_3 # pos => index # sim_matrix => add_1 # sub_1 => sub_1 # sum_2 => sum_8 # Graph fragment: # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%view_9, 1e-06), kwargs = {}) # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%primals_1, %add), kwargs = {}) # %add_1 : [num_users=2] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_2, %primals_3), kwargs = {}) # %index : [num_users=1] = call_function[target=torch.ops.aten.index.Tensor](args = (%add_1, [%lift_fresh_copy_2, None, %lift_fresh_copy_3]), kwargs = {}) # %exp : [num_users=1] = call_function[target=torch.ops.aten.exp.default](args = (%add_1,), kwargs = {}) # %sum_8 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp, [2]), kwargs = {}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%sum_8, 1e-06), kwargs = {}) # %log : [num_users=1] = call_function[target=torch.ops.aten.log.default](args = (%add_2,), kwargs = {}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%index, %log), kwargs = {}) # %mul_3 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub_1, -1), kwargs = {}) # %sum_9 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%mul_3,), kwargs = {}) triton_per_fused_add_exp_index_log_mul_sub_sum_6 = async_compile.triton('triton_per_fused_add_exp_index_log_mul_sub_sum_6', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[1, 16], reduction_hint=ReductionHint.DEFAULT, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32', 5: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {4: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 5), equal_to_1=(4,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_add_exp_index_log_mul_sub_sum_6', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 6, 'num_reduction': 1, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_add_exp_index_log_mul_sub_sum_6(in_ptr0, in_ptr1, in_ptr2, out_ptr1, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 1 rnumel = 16 RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) r1 = (rindex // 4) r0 = rindex % 4 r2 = rindex tmp11 = tl.load(in_ptr0 + (0)) tmp12 = tl.broadcast_to(tmp11, [XBLOCK, RBLOCK]) tmp17 = tl.load(in_ptr2 + (0)) tmp18 = tl.broadcast_to(tmp17, [XBLOCK, RBLOCK]) tmp20 = tl.load(in_ptr1 + (4r2), None, eviction_policy='evict_last') tmp25 = tl.load(in_ptr1 + (1 + (4r2)), None, eviction_policy='evict_last') tmp31 = tl.load(in_ptr1 + (2 + (4r2)), None, eviction_policy='evict_last') tmp37 = tl.load(in_ptr1 + (3 + (4r2)), None, eviction_policy='evict_last') tmp0 = r1 tmp1 = tl.full([1, 1], 2, tl.int64) tmp2 = tmp0 < tmp1 tmp3 = tl.full([1, 1], 1, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.full([1, 1], 0, tl.int64) tmp6 = tl.where(tmp4, tmp5, tmp3) tmp7 = tl.full([1, 1], 3, tl.int64) tmp8 = tmp0 < tmp7 tmp9 = tl.where(tmp8, tmp1, tmp7) tmp10 = tl.where(tmp2, tmp6, tmp9) tmp13 = tl.load(in_ptr1 + ((4r0) + (17tmp10)), None, eviction_policy='evict_last') tmp14 = 1e-06 tmp15 = tmp13 + tmp14 tmp16 = tmp12 * tmp15 tmp19 = tmp16 + tmp18 tmp21 = tmp20 + tmp14 tmp22 = tmp12 * tmp21 tmp23 = tmp22 + tmp18 tmp24 = tl_math.exp(tmp23) tmp26 = tmp25 + tmp14 tmp27 = tmp12 * tmp26 tmp28 = tmp27 + tmp18 tmp29 = tl_math.exp(tmp28) tmp30 = tmp24 + tmp29 tmp32 = tmp31 + tmp14 tmp33 = tmp12 * tmp32 tmp34 = tmp33 + tmp18 tmp35 = tl_math.exp(tmp34) tmp36 = tmp30 + tmp35 tmp38 = tmp37 + tmp14 tmp39 = tmp12 * tmp38 tmp40 = tmp39 + tmp18 tmp41 = tl_math.exp(tmp40) tmp42 = tmp36 + tmp41 tmp43 = tmp42 + tmp14 tmp44 = tl_math.log(tmp43) tmp45 = tmp19 - tmp44 tmp46 = -1.0 tmp47 = tmp45 * tmp46 tmp48 = tl.broadcast_to(tmp47, [XBLOCK, RBLOCK]) tmp50 = tl.sum(tmp48, 1)[:, None] tl.store(out_ptr1 + (tl.full([XBLOCK, 1], 0, tl.int32)), tmp50, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (), ()) assert_size_stride(primals_2, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_3, (), ()) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [sub, centroids_1], Original ATen: [aten.sub, aten.div] stream0 = get_raw_stream(0) triton_poi_fused_div_sub_0.run(primals_2, buf0, 64, grid=grid(64), stream=stream0) buf1 = empty_strided_cuda((16, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [cos_same], Original ATen: [aten.linalg_vector_norm, aten.clamp_min, aten.div, aten.mul] triton_poi_fused_clamp_min_div_linalg_vector_norm_mul_1.run(primals_2, buf0, buf1, 64, grid=grid(64), stream=stream0) buf2 = reinterpret_tensor(buf0, (64, 1), (1, 64), 0); del buf0 # reuse # Topologically Sorted Source Nodes: [centroids, centroids_expand, cos_diff], Original ATen: [aten.mean, aten.repeat, aten.linalg_vector_norm] triton_poi_fused_linalg_vector_norm_mean_repeat_2.run(primals_2, buf2, 64, grid=grid(64), stream=stream0) buf3 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [centroids, centroids_expand, cos_diff], Original ATen: [aten.mean, aten.repeat, aten.linalg_vector_norm, aten.clamp_min, aten.div, aten.mul] triton_poi_fused_clamp_min_div_linalg_vector_norm_mean_mul_repeat_3.run(primals_2, buf2, buf3, 256, grid=grid(256), stream=stream0) del primals_2 buf4 = reinterpret_tensor(buf2, (64, ), (1, ), 0); del buf2 # reuse # Topologically Sorted Source Nodes: [cos_diff], Original ATen: [aten.sum] triton_poi_fused_sum_4.run(buf3, buf4, 64, grid=grid(64), stream=stream0) del buf3 # Topologically Sorted Source Nodes: [setitem], Original ATen: [aten.index_put] triton_poi_fused_index_put_5.run(buf1, buf4, 16, grid=grid(16), stream=stream0) del buf1 buf7 = empty_strided_cuda((), (), torch.float32) # Topologically Sorted Source Nodes: [cos_diff_2, mul, sim_matrix, pos, exp, sum_2, add_2, neg, sub_1, per_embedding_loss, loss], Original ATen: [aten.add, aten.mul, aten.index, aten.exp, aten.sum, aten.log, aten.sub] triton_per_fused_add_exp_index_log_mul_sub_sum_6.run(primals_1, buf4, primals_3, buf7, 1, 16, grid=grid(1), stream=stream0) return (buf7, primals_1, primals_3, reinterpret_tensor(buf4, (4, 4, 4), (16, 4, 1), 0), ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((), (), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((), (), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.nn.functional as F def calc_loss(sim_matrix): same_idx = list(range(sim_matrix.size(0))) pos = sim_matrix[same_idx, :, same_idx] neg = (torch.exp(sim_matrix).sum(dim=2) + 1e-06).log_() per_embedding_loss = -1 * (pos - neg) loss = per_embedding_loss.sum() return loss, per_embedding_loss def get_centroids(embeddings): centroids = embeddings.mean(dim=1) return centroids def get_utterance_centroids(embeddings): """ Returns the centroids for each utterance of a speaker, where the utterance centroid is the speaker centroid without considering this utterance Shape of embeddings should be: (speaker_ct, utterance_per_speaker_ct, embedding_size) """ sum_centroids = embeddings.sum(dim=1) sum_centroids = sum_centroids.reshape(sum_centroids.shape[0], 1, sum_centroids.shape[-1]) num_utterances = embeddings.shape[1] - 1 centroids = (sum_centroids - embeddings) / num_utterances return centroids def get_cossim(embeddings, centroids): num_utterances = embeddings.shape[1] utterance_centroids = get_utterance_centroids(embeddings) utterance_centroids_flat = utterance_centroids.view(utterance_centroids .shape[0] * utterance_centroids.shape[1], -1) embeddings_flat = embeddings.view(embeddings.shape[0] * num_utterances, -1) cos_same = F.cosine_similarity(embeddings_flat, utterance_centroids_flat) centroids_expand = centroids.repeat((num_utterances * embeddings.shape[ 0], 1)) embeddings_expand = embeddings_flat.unsqueeze(1).repeat(1, embeddings. shape[0], 1) embeddings_expand = embeddings_expand.view(embeddings_expand.shape[0] * embeddings_expand.shape[1], embeddings_expand.shape[-1]) cos_diff = F.cosine_similarity(embeddings_expand, centroids_expand) cos_diff = cos_diff.view(embeddings.size(0), num_utterances, centroids. size(0)) same_idx = list(range(embeddings.size(0))) cos_diff[same_idx, :, same_idx] = cos_same.view(embeddings.shape[0], num_utterances) cos_diff = cos_diff + 1e-06 return cos_diff class GE2ELoss(nn.Module): def __init__(self, device): super(GE2ELoss, self).__init__() self.w = nn.Parameter(torch.tensor(10.0), requires_grad=True) self.b = nn.Parameter(torch.tensor(-5.0), requires_grad=True) self.device = device def forward(self, embeddings): torch.clamp(self.w, 1e-06) centroids = get_centroids(embeddings) cossim = get_cossim(embeddings, centroids) sim_matrix = self.w * cossim + self.b loss, _ = calc_loss(sim_matrix) return loss def get_inputs(): return [torch.rand([4, 4, 4])] def get_init_inputs(): return [[], {'device': 0}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math import torch.nn as nn import torch.nn.functional as F assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_div_sub_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x2 = xindex // 16 x3 = xindex tmp0 = tl.load(in_ptr0 + (x0 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp1 = tl.load(in_ptr0 + (4 + x0 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp3 = tl.load(in_ptr0 + (8 + x0 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp5 = tl.load(in_ptr0 + (12 + x0 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp7 = tl.load(in_ptr0 + x3, xmask) tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp6 = tmp4 + tmp5 tmp8 = tmp6 - tmp7 tmp9 = 0.3333333333333333 tmp10 = tmp8 * tmp9 tl.store(out_ptr0 + x3, tmp10, xmask) @triton.jit def triton_poi_fused_clamp_min_div_linalg_vector_norm_mul_1(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + 4 * x1, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (1 + 4 * x1), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (2 + 4 * x1), xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr0 + (3 + 4 * x1), xmask, eviction_policy='evict_last') tmp16 = tl.load(in_ptr1 + x2, xmask) tmp17 = tl.load(in_ptr1 + 4 * x1, xmask, eviction_policy='evict_last') tmp19 = tl.load(in_ptr1 + (1 + 4 * x1), xmask, eviction_policy='evict_last' ) tmp22 = tl.load(in_ptr1 + (2 + 4 * x1), xmask, eviction_policy='evict_last' ) tmp25 = tl.load(in_ptr1 + (3 + 4 * x1), xmask, eviction_policy='evict_last' ) tmp2 = tmp1 * tmp1 tmp4 = tmp3 * tmp3 tmp5 = tmp2 + tmp4 tmp7 = tmp6 * tmp6 tmp8 = tmp5 + tmp7 tmp10 = tmp9 * tmp9 tmp11 = tmp8 + tmp10 tmp12 = libdevice.sqrt(tmp11) tmp13 = 1e-08 tmp14 = triton_helpers.maximum(tmp12, tmp13) tmp15 = tmp0 / tmp14 tmp18 = tmp17 * tmp17 tmp20 = tmp19 * tmp19 tmp21 = tmp18 + tmp20 tmp23 = tmp22 * tmp22 tmp24 = tmp21 + tmp23 tmp26 = tmp25 * tmp25 tmp27 = tmp24 + tmp26 tmp28 = libdevice.sqrt(tmp27) tmp29 = triton_helpers.maximum(tmp28, tmp13) tmp30 = tmp16 / tmp29 tmp31 = tmp15 * tmp30 tl.store(out_ptr0 + x2, tmp31, xmask) @triton.jit def triton_poi_fused_linalg_vector_norm_mean_repeat_2(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + 16 * (x0 % 4), xmask, eviction_policy='evict_last' ) tmp1 = tl.load(in_ptr0 + (4 + 16 * (x0 % 4)), xmask, eviction_policy= 'evict_last') tmp3 = tl.load(in_ptr0 + (8 + 16 * (x0 % 4)), xmask, eviction_policy= 'evict_last') tmp5 = tl.load(in_ptr0 + (12 + 16 * (x0 % 4)), xmask, eviction_policy= 'evict_last') tmp10 = tl.load(in_ptr0 + (1 + 16 * (x0 % 4)), xmask, eviction_policy= 'evict_last') tmp11 = tl.load(in_ptr0 + (5 + 16 * (x0 % 4)), xmask, eviction_policy= 'evict_last') tmp13 = tl.load(in_ptr0 + (9 + 16 * (x0 % 4)), xmask, eviction_policy= 'evict_last') tmp15 = tl.load(in_ptr0 + (13 + 16 * (x0 % 4)), xmask, eviction_policy= 'evict_last') tmp20 = tl.load(in_ptr0 + (2 + 16 * (x0 % 4)), xmask, eviction_policy= 'evict_last') tmp21 = tl.load(in_ptr0 + (6 + 16 * (x0 % 4)), xmask, eviction_policy= 'evict_last') tmp23 = tl.load(in_ptr0 + (10 + 16 * (x0 % 4)), xmask, eviction_policy= 'evict_last') tmp25 = tl.load(in_ptr0 + (14 + 16 * (x0 % 4)), xmask, eviction_policy= 'evict_last') tmp30 = tl.load(in_ptr0 + (3 + 16 * (x0 % 4)), xmask, eviction_policy= 'evict_last') tmp31 = tl.load(in_ptr0 + (7 + 16 * (x0 % 4)), xmask, eviction_policy= 'evict_last') tmp33 = tl.load(in_ptr0 + (11 + 16 * (x0 % 4)), xmask, eviction_policy= 'evict_last') tmp35 = tl.load(in_ptr0 + (15 + 16 * (x0 % 4)), xmask, eviction_policy= 'evict_last') tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp6 = tmp4 + tmp5 tmp7 = 4.0 tmp8 = tmp6 / tmp7 tmp9 = tmp8 * tmp8 tmp12 = tmp10 + tmp11 tmp14 = tmp12 + tmp13 tmp16 = tmp14 + tmp15 tmp17 = tmp16 / tmp7 tmp18 = tmp17 * tmp17 tmp19 = tmp9 + tmp18 tmp22 = tmp20 + tmp21 tmp24 = tmp22 + tmp23 tmp26 = tmp24 + tmp25 tmp27 = tmp26 / tmp7 tmp28 = tmp27 * tmp27 tmp29 = tmp19 + tmp28 tmp32 = tmp30 + tmp31 tmp34 = tmp32 + tmp33 tmp36 = tmp34 + tmp35 tmp37 = tmp36 / tmp7 tmp38 = tmp37 * tmp37 tmp39 = tmp29 + tmp38 tl.store(out_ptr0 + x0, tmp39, xmask) @triton.jit def triton_poi_fused_clamp_min_div_linalg_vector_norm_mean_mul_repeat_3(in_ptr0 , in_ptr1, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = xindex // 4 x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + 4 * (x1 // 4)), xmask) tmp1 = tl.load(in_ptr0 + 4 * (x1 // 4), xmask, eviction_policy='evict_last' ) tmp3 = tl.load(in_ptr0 + (1 + 4 * (x1 // 4)), xmask, eviction_policy= 'evict_last') tmp6 = tl.load(in_ptr0 + (2 + 4 * (x1 // 4)), xmask, eviction_policy= 'evict_last') tmp9 = tl.load(in_ptr0 + (3 + 4 * (x1 // 4)), xmask, eviction_policy= 'evict_last') tmp16 = tl.load(in_ptr0 + (x0 + 16 * (x1 % 4)), xmask) tmp17 = tl.load(in_ptr0 + (4 + x0 + 16 * (x1 % 4)), xmask) tmp19 = tl.load(in_ptr0 + (8 + x0 + 16 * (x1 % 4)), xmask) tmp21 = tl.load(in_ptr0 + (12 + x0 + 16 * (x1 % 4)), xmask) tmp25 = tl.load(in_ptr1 + x1, xmask, eviction_policy='evict_last') tmp2 = tmp1 * tmp1 tmp4 = tmp3 * tmp3 tmp5 = tmp2 + tmp4 tmp7 = tmp6 * tmp6 tmp8 = tmp5 + tmp7 tmp10 = tmp9 * tmp9 tmp11 = tmp8 + tmp10 tmp12 = libdevice.sqrt(tmp11) tmp13 = 1e-08 tmp14 = triton_helpers.maximum(tmp12, tmp13) tmp15 = tmp0 / tmp14 tmp18 = tmp16 + tmp17 tmp20 = tmp18 + tmp19 tmp22 = tmp20 + tmp21 tmp23 = 4.0 tmp24 = tmp22 / tmp23 tmp26 = libdevice.sqrt(tmp25) tmp27 = triton_helpers.maximum(tmp26, tmp13) tmp28 = tmp24 / tmp27 tmp29 = tmp15 * tmp28 tl.store(out_ptr0 + x2, tmp29, xmask) @triton.jit def triton_poi_fused_sum_4(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + 4 * x0, xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + 4 * x0), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (2 + 4 * x0), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (3 + 4 * x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp6 = tmp4 + tmp5 tl.store(out_ptr0 + x0, tmp6, xmask) @triton.jit def triton_poi_fused_index_put_5(in_ptr0, out_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = xindex // 4 x2 = xindex x0 = xindex % 4 tmp11 = tl.load(in_ptr0 + 4 * x2, xmask, eviction_policy='evict_last') tmp12 = tl.load(in_ptr0 + (1 + 4 * x2), xmask, eviction_policy='evict_last' ) tmp14 = tl.load(in_ptr0 + (2 + 4 * x2), xmask, eviction_policy='evict_last' ) tmp16 = tl.load(in_ptr0 + (3 + 4 * x2), xmask, eviction_policy='evict_last' ) tmp0 = x1 tmp1 = tl.full([1], 2, tl.int64) tmp2 = tmp0 < tmp1 tmp3 = tl.full([1], 1, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.full([1], 0, tl.int64) tmp6 = tl.where(tmp4, tmp5, tmp3) tmp7 = tl.full([1], 3, tl.int64) tmp8 = tmp0 < tmp7 tmp9 = tl.where(tmp8, tmp1, tmp7) tmp10 = tl.where(tmp2, tmp6, tmp9) tmp13 = tmp11 + tmp12 tmp15 = tmp13 + tmp14 tmp17 = tmp15 + tmp16 tl.store(out_ptr0 + (4 * x0 + 17 * tmp10), tmp17, xmask) @triton.jit def triton_per_fused_add_exp_index_log_mul_sub_sum_6(in_ptr0, in_ptr1, in_ptr2, out_ptr1, xnumel, rnumel, XBLOCK: tl.constexpr): RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) * XBLOCK xoffset + tl.arange(0, XBLOCK)[:, None] tl.full([XBLOCK, RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[None, :] tl.full([XBLOCK, RBLOCK], True, tl.int1) r1 = rindex // 4 r0 = rindex % 4 r2 = rindex tmp11 = tl.load(in_ptr0 + 0) tmp12 = tl.broadcast_to(tmp11, [XBLOCK, RBLOCK]) tmp17 = tl.load(in_ptr2 + 0) tmp18 = tl.broadcast_to(tmp17, [XBLOCK, RBLOCK]) tmp20 = tl.load(in_ptr1 + 4 * r2, None, eviction_policy='evict_last') tmp25 = tl.load(in_ptr1 + (1 + 4 * r2), None, eviction_policy='evict_last') tmp31 = tl.load(in_ptr1 + (2 + 4 * r2), None, eviction_policy='evict_last') tmp37 = tl.load(in_ptr1 + (3 + 4 * r2), None, eviction_policy='evict_last') tmp0 = r1 tmp1 = tl.full([1, 1], 2, tl.int64) tmp2 = tmp0 < tmp1 tmp3 = tl.full([1, 1], 1, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.full([1, 1], 0, tl.int64) tmp6 = tl.where(tmp4, tmp5, tmp3) tmp7 = tl.full([1, 1], 3, tl.int64) tmp8 = tmp0 < tmp7 tmp9 = tl.where(tmp8, tmp1, tmp7) tmp10 = tl.where(tmp2, tmp6, tmp9) tmp13 = tl.load(in_ptr1 + (4 * r0 + 17 * tmp10), None, eviction_policy= 'evict_last') tmp14 = 1e-06 tmp15 = tmp13 + tmp14 tmp16 = tmp12 * tmp15 tmp19 = tmp16 + tmp18 tmp21 = tmp20 + tmp14 tmp22 = tmp12 * tmp21 tmp23 = tmp22 + tmp18 tmp24 = tl_math.exp(tmp23) tmp26 = tmp25 + tmp14 tmp27 = tmp12 * tmp26 tmp28 = tmp27 + tmp18 tmp29 = tl_math.exp(tmp28) tmp30 = tmp24 + tmp29 tmp32 = tmp31 + tmp14 tmp33 = tmp12 * tmp32 tmp34 = tmp33 + tmp18 tmp35 = tl_math.exp(tmp34) tmp36 = tmp30 + tmp35 tmp38 = tmp37 + tmp14 tmp39 = tmp12 * tmp38 tmp40 = tmp39 + tmp18 tmp41 = tl_math.exp(tmp40) tmp42 = tmp36 + tmp41 tmp43 = tmp42 + tmp14 tmp44 = tl_math.log(tmp43) tmp45 = tmp19 - tmp44 tmp46 = -1.0 tmp47 = tmp45 * tmp46 tmp48 = tl.broadcast_to(tmp47, [XBLOCK, RBLOCK]) tmp50 = tl.sum(tmp48, 1)[:, None] tl.store(out_ptr1 + tl.full([XBLOCK, 1], 0, tl.int32), tmp50, None) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (), ()) assert_size_stride(primals_2, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_3, (), ()) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_div_sub_0[grid(64)](primals_2, buf0, 64, XBLOCK=64, num_warps=1, num_stages=1) buf1 = empty_strided_cuda((16, 4), (4, 1), torch.float32) triton_poi_fused_clamp_min_div_linalg_vector_norm_mul_1[grid(64)]( primals_2, buf0, buf1, 64, XBLOCK=64, num_warps=1, num_stages=1) buf2 = reinterpret_tensor(buf0, (64, 1), (1, 64), 0) del buf0 triton_poi_fused_linalg_vector_norm_mean_repeat_2[grid(64)](primals_2, buf2, 64, XBLOCK=64, num_warps=1, num_stages=1) buf3 = empty_strided_cuda((64, 4), (4, 1), torch.float32) triton_poi_fused_clamp_min_div_linalg_vector_norm_mean_mul_repeat_3[ grid(256)](primals_2, buf2, buf3, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 buf4 = reinterpret_tensor(buf2, (64,), (1,), 0) del buf2 triton_poi_fused_sum_4[grid(64)](buf3, buf4, 64, XBLOCK=64, num_warps=1, num_stages=1) del buf3 triton_poi_fused_index_put_5[grid(16)](buf1, buf4, 16, XBLOCK=16, num_warps=1, num_stages=1) del buf1 buf7 = empty_strided_cuda((), (), torch.float32) triton_per_fused_add_exp_index_log_mul_sub_sum_6[grid(1)](primals_1, buf4, primals_3, buf7, 1, 16, XBLOCK=1, num_warps=2, num_stages=1) return buf7, primals_1, primals_3, reinterpret_tensor(buf4, (4, 4, 4), (16, 4, 1), 0) def calc_loss(sim_matrix): same_idx = list(range(sim_matrix.size(0))) pos = sim_matrix[same_idx, :, same_idx] neg = (torch.exp(sim_matrix).sum(dim=2) + 1e-06).log_() per_embedding_loss = -1 * (pos - neg) loss = per_embedding_loss.sum() return loss, per_embedding_loss def get_centroids(embeddings): centroids = embeddings.mean(dim=1) return centroids def get_utterance_centroids(embeddings): """ Returns the centroids for each utterance of a speaker, where the utterance centroid is the speaker centroid without considering this utterance Shape of embeddings should be: (speaker_ct, utterance_per_speaker_ct, embedding_size) """ sum_centroids = embeddings.sum(dim=1) sum_centroids = sum_centroids.reshape(sum_centroids.shape[0], 1, sum_centroids.shape[-1]) num_utterances = embeddings.shape[1] - 1 centroids = (sum_centroids - embeddings) / num_utterances return centroids def get_cossim(embeddings, centroids): num_utterances = embeddings.shape[1] utterance_centroids = get_utterance_centroids(embeddings) utterance_centroids_flat = utterance_centroids.view(utterance_centroids .shape[0] * utterance_centroids.shape[1], -1) embeddings_flat = embeddings.view(embeddings.shape[0] * num_utterances, -1) cos_same = F.cosine_similarity(embeddings_flat, utterance_centroids_flat) centroids_expand = centroids.repeat((num_utterances * embeddings.shape[ 0], 1)) embeddings_expand = embeddings_flat.unsqueeze(1).repeat(1, embeddings. shape[0], 1) embeddings_expand = embeddings_expand.view(embeddings_expand.shape[0] * embeddings_expand.shape[1], embeddings_expand.shape[-1]) cos_diff = F.cosine_similarity(embeddings_expand, centroids_expand) cos_diff = cos_diff.view(embeddings.size(0), num_utterances, centroids. size(0)) same_idx = list(range(embeddings.size(0))) cos_diff[same_idx, :, same_idx] = cos_same.view(embeddings.shape[0], num_utterances) cos_diff = cos_diff + 1e-06 return cos_diff class GE2ELossNew(nn.Module): def __init__(self, device): super(GE2ELossNew, self).__init__() self.w = nn.Parameter(torch.tensor(10.0), requires_grad=True) self.b = nn.Parameter(torch.tensor(-5.0), requires_grad=True) self.device = device def forward(self, input_0): primals_1 = self.w primals_3 = self.b primals_2 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	JeffT13/SCOTUS_Speaker_Verification	GE2ELoss	false	9,153	[ "BSD-3-Clause" ]	276f52c23fe40d1f55ae77889b202350f3220d1d	https://github.com/JeffT13/SCOTUS_Speaker_Verification/tree/276f52c23fe40d1f55ae77889b202350f3220d1d
MSELoss	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/3o/c3ojeovop77jtjsbc2sbf6phxmf3ewz3f7gszih7ehz6obviaiu2.py # Topologically Sorted Source Nodes: [loss, loss_1, loss_2], Original ATen: [aten.mse_loss, aten.mean, aten.mul] # Source node to ATen node mapping: # loss => pow_1, sub # loss_1 => mean # loss_2 => mul # Graph fragment: # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%arg0_1, %arg1_1), kwargs = {}) # %pow_1 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sub, 2), kwargs = {}) # %mean : [num_users=1] = call_function[target=torch.ops.aten.mean.default](args = (%pow_1,), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mean, 1.0), kwargs = {}) triton_per_fused_mean_mse_loss_mul_0 = async_compile.triton('triton_per_fused_mean_mse_loss_mul_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[1, 256], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {3: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 4), equal_to_1=(3,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_mean_mse_loss_mul_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': True, 'num_load': 2, 'num_reduction': 1, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_mean_mse_loss_mul_0(in_out_ptr0, in_ptr0, in_ptr1, xnumel, rnumel): xnumel = 1 XBLOCK: tl.constexpr = 1 rnumel = 256 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) XBLOCK xindex = tl.full([1], xoffset, tl.int32) xmask = tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] roffset = 0 rmask = tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + (r0), None) tmp1 = tl.load(in_ptr1 + (r0), None) tmp2 = tmp0 - tmp1 tmp3 = tmp2 * tmp2 tmp4 = tl.broadcast_to(tmp3, [RBLOCK]) tmp6 = triton_helpers.promote_to_tensor(tl.sum(tmp4, 0)) tmp7 = 256.0 tmp8 = tmp6 / tmp7 tmp9 = 1.0 tmp10 = tmp8 * tmp9 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([1], 0, tl.int32)), tmp10, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [loss, loss_1, loss_2], Original ATen: [aten.mse_loss, aten.mean, aten.mul] stream0 = get_raw_stream(0) triton_per_fused_mean_mse_loss_mul_0.run(buf1, arg0_1, arg1_1, 1, 256, grid=grid(1), stream=stream0) del arg0_1 del arg1_1 return (buf1, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import functools import torch import torch.nn.functional as F import torch.nn as nn def reduce_loss(loss, reduction): """Reduce loss as specified. Args: loss (Tensor): Elementwise loss tensor. reduction (str): Options are "none", "mean" and "sum". Return: Tensor: Reduced loss tensor. """ reduction_enum = F._Reduction.get_enum(reduction) if reduction_enum == 0: return loss elif reduction_enum == 1: return loss.mean() elif reduction_enum == 2: return loss.sum() def weight_reduce_loss(loss, weight=None, reduction='mean', avg_factor=None): """Apply element-wise weight and reduce loss. Args: loss (Tensor): Element-wise loss. weight (Tensor): Element-wise weights. reduction (str): Same as built-in losses of PyTorch. avg_factor (float): Avarage factor when computing the mean of losses. Returns: Tensor: Processed loss values. """ if weight is not None: loss = loss * weight if avg_factor is None: loss = reduce_loss(loss, reduction) elif reduction == 'mean': loss = loss.sum() / avg_factor elif reduction != 'none': raise ValueError('avg_factor can not be used with reduction="sum"') return loss def weighted_loss(loss_func): """Create a weighted version of a given loss function. To use this decorator, the loss function must have the signature like `loss_func(pred, target, kwargs)`. The function only needs to compute element-wise loss without any reduction. This decorator will add weight and reduction arguments to the function. The decorated function will have the signature like `loss_func(pred, target, weight=None, reduction='mean', avg_factor=None, kwargs)`. :Example: >>> import torch >>> @weighted_loss >>> def l1_loss(pred, target): >>> return (pred - target).abs() >>> pred = torch.Tensor([0, 2, 3]) >>> target = torch.Tensor([1, 1, 1]) >>> weight = torch.Tensor([1, 0, 1]) >>> l1_loss(pred, target) tensor(1.3333) >>> l1_loss(pred, target, weight) tensor(1.) >>> l1_loss(pred, target, reduction='none') tensor([1., 1., 2.]) >>> l1_loss(pred, target, weight, avg_factor=2) tensor(1.5000) """ @functools.wraps(loss_func) def wrapper(pred, target, weight=None, reduction='mean', avg_factor= None, kwargs): loss = loss_func(pred, target, kwargs) loss = weight_reduce_loss(loss, weight, reduction, avg_factor) return loss return wrapper @weighted_loss def mse_loss(pred, target): """Warpper of mse loss.""" return F.mse_loss(pred, target, reduction='none') class MSELoss(nn.Module): """MSELoss. Args: reduction (str, optional): The method that reduces the loss to a scalar. Options are "none", "mean" and "sum". loss_weight (float, optional): The weight of the loss. Defaults to 1.0 """ def __init__(self, reduction='mean', loss_weight=1.0): super().__init__() self.reduction = reduction self.loss_weight = loss_weight def forward(self, pred, target, weight=None, avg_factor=None): """Forward function of loss. Args: pred (torch.Tensor): The prediction. target (torch.Tensor): The learning target of the prediction. weight (torch.Tensor, optional): Weight of the loss for each prediction. Defaults to None. avg_factor (int, optional): Average factor that is used to average the loss. Defaults to None. Returns: torch.Tensor: The calculated loss """ loss = self.loss_weight * mse_loss(pred, target, weight, reduction= self.reduction, avg_factor=avg_factor) return loss def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers import functools import torch.nn.functional as F import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_per_fused_mean_mse_loss_mul_0(in_out_ptr0, in_ptr0, in_ptr1, xnumel, rnumel): XBLOCK: tl.constexpr = 1 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) * XBLOCK tl.full([1], xoffset, tl.int32) tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + r0, None) tmp1 = tl.load(in_ptr1 + r0, None) tmp2 = tmp0 - tmp1 tmp3 = tmp2 * tmp2 tmp4 = tl.broadcast_to(tmp3, [RBLOCK]) tmp6 = triton_helpers.promote_to_tensor(tl.sum(tmp4, 0)) tmp7 = 256.0 tmp8 = tmp6 / tmp7 tmp9 = 1.0 tmp10 = tmp8 * tmp9 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([1], 0, tl.int32), tmp10, None) def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) buf1 = buf0 del buf0 get_raw_stream(0) triton_per_fused_mean_mse_loss_mul_0[grid(1)](buf1, arg0_1, arg1_1, 1, 256, num_warps=2, num_stages=1) del arg0_1 del arg1_1 return buf1, def reduce_loss(loss, reduction): """Reduce loss as specified. Args: loss (Tensor): Elementwise loss tensor. reduction (str): Options are "none", "mean" and "sum". Return: Tensor: Reduced loss tensor. """ reduction_enum = F._Reduction.get_enum(reduction) if reduction_enum == 0: return loss elif reduction_enum == 1: return loss.mean() elif reduction_enum == 2: return loss.sum() def weight_reduce_loss(loss, weight=None, reduction='mean', avg_factor=None): """Apply element-wise weight and reduce loss. Args: loss (Tensor): Element-wise loss. weight (Tensor): Element-wise weights. reduction (str): Same as built-in losses of PyTorch. avg_factor (float): Avarage factor when computing the mean of losses. Returns: Tensor: Processed loss values. """ if weight is not None: loss = loss * weight if avg_factor is None: loss = reduce_loss(loss, reduction) elif reduction == 'mean': loss = loss.sum() / avg_factor elif reduction != 'none': raise ValueError('avg_factor can not be used with reduction="sum"') return loss def weighted_loss(loss_func): """Create a weighted version of a given loss function. To use this decorator, the loss function must have the signature like `loss_func(pred, target, kwargs)`. The function only needs to compute element-wise loss without any reduction. This decorator will add weight and reduction arguments to the function. The decorated function will have the signature like `loss_func(pred, target, weight=None, reduction='mean', avg_factor=None, kwargs)`. :Example: >>> import torch >>> @weighted_loss >>> def l1_loss(pred, target): >>> return (pred - target).abs() >>> pred = torch.Tensor([0, 2, 3]) >>> target = torch.Tensor([1, 1, 1]) >>> weight = torch.Tensor([1, 0, 1]) >>> l1_loss(pred, target) tensor(1.3333) >>> l1_loss(pred, target, weight) tensor(1.) >>> l1_loss(pred, target, reduction='none') tensor([1., 1., 2.]) >>> l1_loss(pred, target, weight, avg_factor=2) tensor(1.5000) """ @functools.wraps(loss_func) def wrapper(pred, target, weight=None, reduction='mean', avg_factor= None, kwargs): loss = loss_func(pred, target, kwargs) loss = weight_reduce_loss(loss, weight, reduction, avg_factor) return loss return wrapper @weighted_loss def mse_loss(pred, target): """Warpper of mse loss.""" return F.mse_loss(pred, target, reduction='none') class MSELossNew(nn.Module): """MSELoss. Args: reduction (str, optional): The method that reduces the loss to a scalar. Options are "none", "mean" and "sum". loss_weight (float, optional): The weight of the loss. Defaults to 1.0 """ def __init__(self, reduction='mean', loss_weight=1.0): super().__init__() self.reduction = reduction self.loss_weight = loss_weight def forward(self, input_0, input_1): arg0_1 = input_0 arg1_1 = input_1 output = call([arg0_1, arg1_1]) return output[0]	ChHanXiao/mmdetection	MSELoss	false	9,154	[ "Apache-2.0" ]	324aa5a042857a9b57abe37385e1210709a20d02	https://github.com/ChHanXiao/mmdetection/tree/324aa5a042857a9b57abe37385e1210709a20d02
LabelwiseLinearOutput	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/lv/clvhqra465e7rlmwkbu5xr6rfzlyh72yhs7d3zsjnfgsh2neujk4.py # Topologically Sorted Source Nodes: [mul, sum_1, add], Original ATen: [aten.mul, aten.sum, aten.add] # Source node to ATen node mapping: # add => add # mul => mul # sum_1 => sum_1 # Graph fragment: # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%primals_1, %primals_2), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%mul, [-1]), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%sum_1, %primals_3), kwargs = {}) triton_poi_fused_add_mul_sum_0 = async_compile.triton('triton_poi_fused_add_mul_sum_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_mul_sum_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 9, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_mul_sum_0(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x2 = xindex tmp0 = tl.load(in_ptr0 + (4x0), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (4x2), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (1 + (4x0)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr1 + (1 + (4x2)), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr0 + (2 + (4x0)), xmask, eviction_policy='evict_last') tmp8 = tl.load(in_ptr1 + (2 + (4x2)), xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr0 + (3 + (4x0)), xmask, eviction_policy='evict_last') tmp12 = tl.load(in_ptr1 + (3 + (4x2)), xmask, eviction_policy='evict_last') tmp15 = tl.load(in_ptr2 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 * tmp1 tmp5 = tmp3 * tmp4 tmp6 = tmp2 + tmp5 tmp9 = tmp7 * tmp8 tmp10 = tmp6 + tmp9 tmp13 = tmp11 * tmp12 tmp14 = tmp10 + tmp13 tmp16 = tmp14 + tmp15 tl.store(out_ptr0 + (x2), tmp16, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_3, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [mul, sum_1, add], Original ATen: [aten.mul, aten.sum, aten.add] stream0 = get_raw_stream(0) triton_poi_fused_add_mul_sum_0.run(primals_1, primals_2, primals_3, buf0, 64, grid=grid(64), stream=stream0) del primals_1 del primals_3 return (buf0, primals_2, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class LabelwiseLinearOutput(nn.Module): """Applies a linear transformation to the incoming data for each label Args: input_size (int): The number of expected features in the input. num_classes (int): Total number of classes. """ def __init__(self, input_size, num_classes): super(LabelwiseLinearOutput, self).__init__() self.output = nn.Linear(input_size, num_classes) def forward(self, input): return (self.output.weight * input).sum(dim=-1) + self.output.bias def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'input_size': 4, 'num_classes': 4}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_add_mul_sum_0(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x2 = xindex tmp0 = tl.load(in_ptr0 + 4 * x0, xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + 4 * x2, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (1 + 4 * x0), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr1 + (1 + 4 * x2), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr0 + (2 + 4 * x0), xmask, eviction_policy='evict_last') tmp8 = tl.load(in_ptr1 + (2 + 4 * x2), xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr0 + (3 + 4 * x0), xmask, eviction_policy='evict_last' ) tmp12 = tl.load(in_ptr1 + (3 + 4 * x2), xmask, eviction_policy='evict_last' ) tmp15 = tl.load(in_ptr2 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 * tmp1 tmp5 = tmp3 * tmp4 tmp6 = tmp2 + tmp5 tmp9 = tmp7 * tmp8 tmp10 = tmp6 + tmp9 tmp13 = tmp11 * tmp12 tmp14 = tmp10 + tmp13 tmp16 = tmp14 + tmp15 tl.store(out_ptr0 + x2, tmp16, xmask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_3, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_add_mul_sum_0[grid(64)](primals_1, primals_2, primals_3, buf0, 64, XBLOCK=64, num_warps=1, num_stages=1) del primals_1 del primals_3 return buf0, primals_2 class LabelwiseLinearOutputNew(nn.Module): """Applies a linear transformation to the incoming data for each label Args: input_size (int): The number of expected features in the input. num_classes (int): Total number of classes. """ def __init__(self, input_size, num_classes): super(LabelwiseLinearOutputNew, self).__init__() self.output = nn.Linear(input_size, num_classes) def forward(self, input_0): primals_1 = self.output.weight primals_3 = self.output.bias primals_2 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	JamesLYC88/LibMultiLabel	LabelwiseLinearOutput	false	9,155	[ "MIT" ]	042b76b3564409d916cf735ace617319009ae118	https://github.com/JamesLYC88/LibMultiLabel/tree/042b76b3564409d916cf735ace617319009ae118
GHMR	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/oz/cozsertrqgjrqyur62xx2dwoox3tbac6et7fykm33ltnl7jxfmfm.py # Topologically Sorted Source Nodes: [sum_1, valid], Original ATen: [aten.sum, aten.gt] # Source node to ATen node mapping: # sum_1 => sum_1 # valid => gt # Graph fragment: # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%arg2_1,), kwargs = {}) # %gt : [num_users=1] = call_function[target=torch.ops.aten.gt.Scalar](args = (%arg2_1, 0), kwargs = {}) triton_per_fused_gt_sum_0 = async_compile.triton('triton_per_fused_gt_sum_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[1, 256], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i1', 3: 'i32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {3: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 4), equal_to_1=(3,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_gt_sum_0', 'mutated_arg_names': [], 'no_x_dim': True, 'num_load': 1, 'num_reduction': 1, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_gt_sum_0(in_ptr0, out_ptr0, out_ptr1, xnumel, rnumel): xnumel = 1 XBLOCK: tl.constexpr = 1 rnumel = 256 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) XBLOCK xindex = tl.full([1], xoffset, tl.int32) xmask = tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] roffset = 0 rmask = tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + (r0), None) tmp1 = tl.broadcast_to(tmp0, [RBLOCK]) tmp3 = triton_helpers.promote_to_tensor(tl.sum(tmp1, 0)) tmp4 = 0.0 tmp5 = tmp0 > tmp4 tl.store(out_ptr1 + (tl.broadcast_to(r0, [RBLOCK])), tmp5, None) tl.store(out_ptr0 + (tl.full([1], 0, tl.int32)), tmp3, None) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/2a/c2ayatl72atxz7llof44xg6xfcod4w34uyxjsxirgoqzc6bhc5er.py # Topologically Sorted Source Nodes: [diff, mul, add, sqrt, loss, mul_1, add_1, sqrt_1, truediv, abs_1], Original ATen: [aten.sub, aten.mul, aten.add, aten.sqrt, aten.div, aten.abs] # Source node to ATen node mapping: # abs_1 => abs_1 # add => add # add_1 => add_1 # diff => sub # loss => sub_1 # mul => mul # mul_1 => mul_1 # sqrt => sqrt # sqrt_1 => sqrt_1 # truediv => div # Graph fragment: # %sub : [num_users=3] = call_function[target=torch.ops.aten.sub.Tensor](args = (%arg0_1, %arg1_1), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub, %sub), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul, 0.0004), kwargs = {}) # %sqrt : [num_users=1] = call_function[target=torch.ops.aten.sqrt.default](args = (%add,), kwargs = {}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%sqrt, 0.02), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub, %sub), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_1, 0.0004), kwargs = {}) # %sqrt_1 : [num_users=1] = call_function[target=torch.ops.aten.sqrt.default](args = (%add_1,), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%sub, %sqrt_1), kwargs = {}) # %abs_1 : [num_users=1] = call_function[target=torch.ops.aten.abs.default](args = (%div,), kwargs = {}) triton_poi_fused_abs_add_div_mul_sqrt_sub_1 = async_compile.triton('triton_poi_fused_abs_add_div_mul_sqrt_sub_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_abs_add_div_mul_sqrt_sub_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_abs_add_div_mul_sqrt_sub_1(in_ptr0, in_ptr1, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = tl.load(in_ptr1 + (x0), xmask) tmp2 = tmp0 - tmp1 tmp3 = tmp2 * tmp2 tmp4 = 0.0004 tmp5 = tmp3 + tmp4 tmp6 = libdevice.sqrt(tmp5) tmp7 = 0.02 tmp8 = tmp6 - tmp7 tmp9 = tmp2 / tmp6 tmp10 = tl_math.abs(tmp9) tl.store(out_ptr0 + (x0), tmp8, xmask) tl.store(out_ptr1 + (x0), tmp10, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/zd/czdhovzy3i75dbb4lrrvs36jdqekoz77qi3q3aloxdafcrzuwdjh.py # Topologically Sorted Source Nodes: [weights], Original ATen: [aten.zeros_like] # Source node to ATen node mapping: # weights => full_default # Graph fragment: # %full_default : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([4, 4, 4, 4], 0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) triton_poi_fused_zeros_like_2 = async_compile.triton('triton_poi_fused_zeros_like_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_zeros_like_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 0, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_zeros_like_2(out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = 0.0 tl.store(out_ptr0 + (x0), tmp0, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1, arg2_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg2_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) buf4 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) # Topologically Sorted Source Nodes: [sum_1, valid], Original ATen: [aten.sum, aten.gt] stream0 = get_raw_stream(0) triton_per_fused_gt_sum_0.run(arg2_1, buf0, buf4, 1, 256, grid=grid(1), stream=stream0) del arg2_1 buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf2 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [diff, mul, add, sqrt, loss, mul_1, add_1, sqrt_1, truediv, abs_1], Original ATen: [aten.sub, aten.mul, aten.add, aten.sqrt, aten.div, aten.abs] triton_poi_fused_abs_add_div_mul_sqrt_sub_1.run(arg0_1, arg1_1, buf1, buf2, 256, grid=grid(256), stream=stream0) del arg0_1 del arg1_1 buf3 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [weights], Original ATen: [aten.zeros_like] triton_poi_fused_zeros_like_2.run(buf3, 256, grid=grid(256), stream=stream0) return (buf0, buf1, buf2, buf3, buf4, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg2_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1, arg2_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class GHMR(nn.Module): """GHM Regression Loss. Details of the theorem can be viewed in the paper `Gradient Harmonized Single-stage Detector <https://arxiv.org/abs/1811.05181>`_. Args: mu (float): The parameter for the Authentic Smooth L1 loss. bins (int): Number of the unit regions for distribution calculation. momentum (float): The parameter for moving average. loss_weight (float): The weight of the total GHM-R loss. """ def __init__(self, mu=0.02, bins=10, momentum=0, loss_weight=1.0): super(GHMR, self).__init__() self.mu = mu self.bins = bins edges = torch.arange(bins + 1).float() / bins self.register_buffer('edges', edges) self.edges[-1] = 1000.0 self.momentum = momentum if momentum > 0: acc_sum = torch.zeros(bins) self.register_buffer('acc_sum', acc_sum) self.loss_weight = loss_weight def forward(self, pred, target, label_weight, avg_factor=None): """Calculate the GHM-R loss. Args: pred (float tensor of size [batch_num, 4 (* class_num)]): The prediction of box regression layer. Channel number can be 4 or 4 * class_num depending on whether it is class-agnostic. target (float tensor of size [batch_num, 4 (* class_num)]): The target regression values with the same size of pred. label_weight (float tensor of size [batch_num, 4 (* class_num)]): The weight of each sample, 0 if ignored. Returns: The gradient harmonized loss. """ mu = self.mu edges = self.edges mmt = self.momentum diff = pred - target loss = torch.sqrt(diff * diff + mu * mu) - mu g = torch.abs(diff / torch.sqrt(mu * mu + diff * diff)).detach() weights = torch.zeros_like(g) valid = label_weight > 0 tot = max(label_weight.float().sum().item(), 1.0) n = 0 for i in range(self.bins): inds = (g >= edges[i]) & (g < edges[i + 1]) & valid num_in_bin = inds.sum().item() if num_in_bin > 0: n += 1 if mmt > 0: self.acc_sum[i] = mmt * self.acc_sum[i] + (1 - mmt ) * num_in_bin weights[inds] = tot / self.acc_sum[i] else: weights[inds] = tot / num_in_bin if n > 0: weights /= n loss = loss * weights loss = loss.sum() / tot return loss * self.loss_weight def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4]), torch.rand( [4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_per_fused_gt_sum_0(in_ptr0, out_ptr0, out_ptr1, xnumel, rnumel): XBLOCK: tl.constexpr = 1 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) * XBLOCK tl.full([1], xoffset, tl.int32) tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + r0, None) tmp1 = tl.broadcast_to(tmp0, [RBLOCK]) tmp3 = triton_helpers.promote_to_tensor(tl.sum(tmp1, 0)) tmp4 = 0.0 tmp5 = tmp0 > tmp4 tl.store(out_ptr1 + tl.broadcast_to(r0, [RBLOCK]), tmp5, None) tl.store(out_ptr0 + tl.full([1], 0, tl.int32), tmp3, None) @triton.jit def triton_poi_fused_abs_add_div_mul_sqrt_sub_1(in_ptr0, in_ptr1, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = tl.load(in_ptr1 + x0, xmask) tmp2 = tmp0 - tmp1 tmp3 = tmp2 * tmp2 tmp4 = 0.0004 tmp5 = tmp3 + tmp4 tmp6 = libdevice.sqrt(tmp5) tmp7 = 0.02 tmp8 = tmp6 - tmp7 tmp9 = tmp2 / tmp6 tmp10 = tl_math.abs(tmp9) tl.store(out_ptr0 + x0, tmp8, xmask) tl.store(out_ptr1 + x0, tmp10, xmask) @triton.jit def triton_poi_fused_zeros_like_2(out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = 0.0 tl.store(out_ptr0 + x0, tmp0, xmask) def call(args): arg0_1, arg1_1, arg2_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg2_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) buf4 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) get_raw_stream(0) triton_per_fused_gt_sum_0[grid(1)](arg2_1, buf0, buf4, 1, 256, num_warps=2, num_stages=1) del arg2_1 buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf2 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) triton_poi_fused_abs_add_div_mul_sqrt_sub_1[grid(256)](arg0_1, arg1_1, buf1, buf2, 256, XBLOCK=256, num_warps=4, num_stages=1) del arg0_1 del arg1_1 buf3 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) triton_poi_fused_zeros_like_2[grid(256)](buf3, 256, XBLOCK=128, num_warps=4, num_stages=1) return buf0, buf1, buf2, buf3, buf4 class GHMRNew(nn.Module): """GHM Regression Loss. Details of the theorem can be viewed in the paper `Gradient Harmonized Single-stage Detector <https://arxiv.org/abs/1811.05181>`_. Args: mu (float): The parameter for the Authentic Smooth L1 loss. bins (int): Number of the unit regions for distribution calculation. momentum (float): The parameter for moving average. loss_weight (float): The weight of the total GHM-R loss. """ def __init__(self, mu=0.02, bins=10, momentum=0, loss_weight=1.0): super(GHMRNew, self).__init__() self.mu = mu self.bins = bins edges = torch.arange(bins + 1).float() / bins self.register_buffer('edges', edges) self.edges[-1] = 1000.0 self.momentum = momentum if momentum > 0: acc_sum = torch.zeros(bins) self.register_buffer('acc_sum', acc_sum) self.loss_weight = loss_weight def forward(self, input_0, input_1, input_2): arg0_1 = input_0 arg1_1 = input_1 arg2_1 = input_2 output = call([arg0_1, arg1_1, arg2_1]) return output[0]	ChHanXiao/mmdetection	GHMR	false	9,156	[ "Apache-2.0" ]	324aa5a042857a9b57abe37385e1210709a20d02	https://github.com/ChHanXiao/mmdetection/tree/324aa5a042857a9b57abe37385e1210709a20d02
ArcMarginProduct_subcenter	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/fh/cfhnguw4v6uy4ysjg54ojclakwi3bj2lte6oqizl4rpf4lcxpiyp.py # Topologically Sorted Source Nodes: [normalize], Original ATen: [aten.div] # Source node to ATen node mapping: # normalize => div # Graph fragment: # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%primals_1, %expand), kwargs = {}) triton_poi_fused_div_0 = async_compile.triton('triton_poi_fused_div_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_div_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_div_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 16 x2 = (xindex // 64) tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x0 + (64x2)), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (16 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (32 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr0 + (48 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp2 = tmp1 * tmp1 tmp4 = tmp3 * tmp3 tmp5 = tmp2 + tmp4 tmp7 = tmp6 * tmp6 tmp8 = tmp5 + tmp7 tmp10 = tmp9 * tmp9 tmp11 = tmp8 + tmp10 tmp12 = libdevice.sqrt(tmp11) tmp13 = 1e-12 tmp14 = triton_helpers.maximum(tmp12, tmp13) tmp15 = tmp0 / tmp14 tl.store(out_ptr0 + (x3), tmp15, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/2s/c2s7vvaz25xjuqqa7ymam5rco6ey7ycspmykfxm67txox57kysz2.py # Topologically Sorted Source Nodes: [normalize_1], Original ATen: [aten.div] # Source node to ATen node mapping: # normalize_1 => div_1 # Graph fragment: # %div_1 : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%primals_2, %expand_1), kwargs = {}) triton_poi_fused_div_1 = async_compile.triton('triton_poi_fused_div_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_div_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_div_1(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 48 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (4x1), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (1 + (4x1)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (2 + (4x1)), xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr0 + (3 + (4x1)), xmask, eviction_policy='evict_last') tmp2 = tmp1 * tmp1 tmp4 = tmp3 * tmp3 tmp5 = tmp2 + tmp4 tmp7 = tmp6 * tmp6 tmp8 = tmp5 + tmp7 tmp10 = tmp9 * tmp9 tmp11 = tmp8 + tmp10 tmp12 = libdevice.sqrt(tmp11) tmp13 = 1e-12 tmp14 = triton_helpers.maximum(tmp12, tmp13) tmp15 = tmp0 / tmp14 tl.store(out_ptr0 + (x2), tmp15, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/o7/co7bzw6oskv7grmzjusyhgf3movzeocopdg3tnslwlwhxsiewsyw.py # Topologically Sorted Source Nodes: [max_1], Original ATen: [aten.max] # Source node to ATen node mapping: # max_1 => getitem, max_1 # Graph fragment: # %max_1 : [num_users=2] = call_function[target=torch.ops.aten.max.dim](args = (%view_2, 2), kwargs = {}) # %getitem : [num_users=1] = call_function[target=operator.getitem](args = (%max_1, 0), kwargs = {}) triton_poi_fused_max_2 = async_compile.triton('triton_poi_fused_max_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i64', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_max_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 3, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_max_2(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (3x0), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + (3x0)), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (2 + (3*x0)), xmask, eviction_policy='evict_last') tmp2 = triton_helpers.maximum(tmp0, tmp1) tmp4 = triton_helpers.maximum(tmp2, tmp3) tmp5 = tmp0 > tmp1 tmp6 = tmp0 == tmp1 tmp7 = tmp0 != tmp0 tmp8 = tmp1 != tmp1 tmp9 = tmp7 > tmp8 tmp10 = tmp5 \| tmp9 tmp11 = tmp7 & tmp8 tmp12 = tmp6 \| tmp11 tmp13 = tl.full([1], 0, tl.int64) tmp14 = tl.full([1], 1, tl.int64) tmp15 = tmp13 < tmp14 tmp16 = tmp12 & tmp15 tmp17 = tmp10 \| tmp16 tmp18 = tl.where(tmp17, tmp0, tmp1) tmp19 = tl.where(tmp17, tmp13, tmp14) tmp20 = tmp18 > tmp3 tmp21 = tmp18 == tmp3 tmp22 = tmp18 != tmp18 tmp23 = tmp3 != tmp3 tmp24 = tmp22 > tmp23 tmp25 = tmp20 \| tmp24 tmp26 = tmp22 & tmp23 tmp27 = tmp21 \| tmp26 tmp28 = tl.full([1], 2, tl.int64) tmp29 = tmp19 < tmp28 tmp30 = tmp27 & tmp29 tmp31 = tmp25 \| tmp30 tmp32 = tl.where(tmp31, tmp18, tmp3) tmp33 = tl.where(tmp31, tmp19, tmp28) tl.store(out_ptr0 + (x0), tmp4, xmask) tl.store(out_ptr1 + (x0), tmp33, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (12, 4), (4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [normalize], Original ATen: [aten.div] stream0 = get_raw_stream(0) triton_poi_fused_div_0.run(primals_1, buf0, 256, grid=grid(256), stream=stream0) del primals_1 buf1 = empty_strided_cuda((12, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [normalize_1], Original ATen: [aten.div] triton_poi_fused_div_1.run(primals_2, buf1, 48, grid=grid(48), stream=stream0) buf2 = empty_strided_cuda((64, 12), (12, 1), torch.float32) # Topologically Sorted Source Nodes: [cosine_all], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(buf0, (64, 4), (4, 1), 0), reinterpret_tensor(buf1, (4, 12), (1, 4), 0), out=buf2) del buf1 buf3 = empty_strided_cuda((64, 4), (4, 1), torch.float32) buf4 = empty_strided_cuda((64, 4), (4, 1), torch.int64) # Topologically Sorted Source Nodes: [max_1], Original ATen: [aten.max] triton_poi_fused_max_2.run(buf2, buf3, buf4, 256, grid=grid(256), stream=stream0) del buf2 return (buf3, primals_2, reinterpret_tensor(buf0, (64, 4), (4, 1), 0), reinterpret_tensor(buf4, (64, 4, 1), (4, 1, 1), 0), ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((12, 4), (4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import math import torch import torch.nn as nn import torch.nn.functional as F class ArcMarginProduct_subcenter(nn.Module): def __init__(self, in_features, out_features, k=3): super().__init__() self.weight = nn.Parameter(torch.FloatTensor(out_features * k, in_features)) self.reset_parameters() self.k = k self.out_features = out_features def reset_parameters(self): stdv = 1.0 / math.sqrt(self.weight.size(1)) self.weight.data.uniform_(-stdv, stdv) def forward(self, features): cosine_all = F.linear(F.normalize(features), F.normalize(self.weight)) cosine_all = cosine_all.view(-1, self.out_features, self.k) cosine, _ = torch.max(cosine_all, dim=2) return cosine def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'in_features': 4, 'out_features': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import libdevice import math import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_div_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 16 x2 = xindex // 64 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + (x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp3 = tl.load(in_ptr0 + (16 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp6 = tl.load(in_ptr0 + (32 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp9 = tl.load(in_ptr0 + (48 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp2 = tmp1 * tmp1 tmp4 = tmp3 * tmp3 tmp5 = tmp2 + tmp4 tmp7 = tmp6 * tmp6 tmp8 = tmp5 + tmp7 tmp10 = tmp9 * tmp9 tmp11 = tmp8 + tmp10 tmp12 = libdevice.sqrt(tmp11) tmp13 = 1e-12 tmp14 = triton_helpers.maximum(tmp12, tmp13) tmp15 = tmp0 / tmp14 tl.store(out_ptr0 + x3, tmp15, xmask) @triton.jit def triton_poi_fused_div_1(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 48 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + 4 * x1, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (1 + 4 * x1), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (2 + 4 * x1), xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr0 + (3 + 4 * x1), xmask, eviction_policy='evict_last') tmp2 = tmp1 * tmp1 tmp4 = tmp3 * tmp3 tmp5 = tmp2 + tmp4 tmp7 = tmp6 * tmp6 tmp8 = tmp5 + tmp7 tmp10 = tmp9 * tmp9 tmp11 = tmp8 + tmp10 tmp12 = libdevice.sqrt(tmp11) tmp13 = 1e-12 tmp14 = triton_helpers.maximum(tmp12, tmp13) tmp15 = tmp0 / tmp14 tl.store(out_ptr0 + x2, tmp15, xmask) @triton.jit def triton_poi_fused_max_2(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK: tl. constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + 3 * x0, xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + 3 * x0), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (2 + 3 * x0), xmask, eviction_policy='evict_last') tmp2 = triton_helpers.maximum(tmp0, tmp1) tmp4 = triton_helpers.maximum(tmp2, tmp3) tmp5 = tmp0 > tmp1 tmp6 = tmp0 == tmp1 tmp7 = tmp0 != tmp0 tmp8 = tmp1 != tmp1 tmp9 = tmp7 > tmp8 tmp10 = tmp5 \| tmp9 tmp11 = tmp7 & tmp8 tmp12 = tmp6 \| tmp11 tmp13 = tl.full([1], 0, tl.int64) tmp14 = tl.full([1], 1, tl.int64) tmp15 = tmp13 < tmp14 tmp16 = tmp12 & tmp15 tmp17 = tmp10 \| tmp16 tmp18 = tl.where(tmp17, tmp0, tmp1) tmp19 = tl.where(tmp17, tmp13, tmp14) tmp20 = tmp18 > tmp3 tmp21 = tmp18 == tmp3 tmp22 = tmp18 != tmp18 tmp23 = tmp3 != tmp3 tmp24 = tmp22 > tmp23 tmp25 = tmp20 \| tmp24 tmp26 = tmp22 & tmp23 tmp27 = tmp21 \| tmp26 tmp28 = tl.full([1], 2, tl.int64) tmp29 = tmp19 < tmp28 tmp30 = tmp27 & tmp29 tmp31 = tmp25 \| tmp30 tl.where(tmp31, tmp18, tmp3) tmp33 = tl.where(tmp31, tmp19, tmp28) tl.store(out_ptr0 + x0, tmp4, xmask) tl.store(out_ptr1 + x0, tmp33, xmask) def call(args): primals_1, primals_2 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (12, 4), (4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_div_0[grid(256)](primals_1, buf0, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_1 buf1 = empty_strided_cuda((12, 4), (4, 1), torch.float32) triton_poi_fused_div_1[grid(48)](primals_2, buf1, 48, XBLOCK=64, num_warps=1, num_stages=1) buf2 = empty_strided_cuda((64, 12), (12, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf0, (64, 4), (4, 1), 0), reinterpret_tensor(buf1, (4, 12), (1, 4), 0), out=buf2) del buf1 buf3 = empty_strided_cuda((64, 4), (4, 1), torch.float32) buf4 = empty_strided_cuda((64, 4), (4, 1), torch.int64) triton_poi_fused_max_2[grid(256)](buf2, buf3, buf4, 256, XBLOCK=256, num_warps=4, num_stages=1) del buf2 return buf3, primals_2, reinterpret_tensor(buf0, (64, 4), (4, 1), 0 ), reinterpret_tensor(buf4, (64, 4, 1), (4, 1, 1), 0) class ArcMarginProduct_subcenterNew(nn.Module): def __init__(self, in_features, out_features, k=3): super().__init__() self.weight = nn.Parameter(torch.FloatTensor(out_features * k, in_features)) self.reset_parameters() self.k = k self.out_features = out_features def reset_parameters(self): stdv = 1.0 / math.sqrt(self.weight.size(1)) self.weight.data.uniform_(-stdv, stdv) def forward(self, input_0): primals_2 = self.weight primals_1 = input_0 output = call([primals_1, primals_2]) return output[0]	Husky95/Google-Landmark-Recognition-2020-3rd-Place-Solution	ArcMarginProduct_subcenter	false	9,157	[ "Apache-2.0" ]	48806b9e09beabf74e8f96575855dcfa13a4f996	https://github.com/Husky95/Google-Landmark-Recognition-2020-3rd-Place-Solution/tree/48806b9e09beabf74e8f96575855dcfa13a4f996
maximum_absolute_error	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/yg/cygryzz4bcululecdyzexvxkjtohep2mt3elt4sgbgc7t3nv25bw.py # Topologically Sorted Source Nodes: [sub, abs_1, max_1], Original ATen: [aten.sub, aten.abs, aten.max] # Source node to ATen node mapping: # abs_1 => abs_1 # max_1 => max_1 # sub => sub # Graph fragment: # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%arg1_1, %arg0_1), kwargs = {}) # %abs_1 : [num_users=1] = call_function[target=torch.ops.aten.abs.default](args = (%sub,), kwargs = {}) # %max_1 : [num_users=1] = call_function[target=torch.ops.aten.max.default](args = (%abs_1,), kwargs = {}) triton_per_fused_abs_max_sub_0 = async_compile.triton('triton_per_fused_abs_max_sub_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[1, 256], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {3: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 4), equal_to_1=(3,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_abs_max_sub_0', 'mutated_arg_names': [], 'no_x_dim': True, 'num_load': 2, 'num_reduction': 1, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_abs_max_sub_0(in_ptr0, in_ptr1, out_ptr0, xnumel, rnumel): xnumel = 1 XBLOCK: tl.constexpr = 1 rnumel = 256 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) XBLOCK xindex = tl.full([1], xoffset, tl.int32) xmask = tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] roffset = 0 rmask = tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + (r0), None) tmp1 = tl.load(in_ptr1 + (r0), None) tmp2 = tmp0 - tmp1 tmp3 = tl_math.abs(tmp2) tmp4 = tl.broadcast_to(tmp3, [RBLOCK]) tmp6 = triton_helpers.promote_to_tensor(triton_helpers.max2(tmp4, 0)) tl.store(out_ptr0 + (tl.full([1], 0, tl.int32)), tmp6, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) # Topologically Sorted Source Nodes: [sub, abs_1, max_1], Original ATen: [aten.sub, aten.abs, aten.max] stream0 = get_raw_stream(0) triton_per_fused_abs_max_sub_0.run(arg1_1, arg0_1, buf0, 1, 256, grid=grid(1), stream=stream0) del arg0_1 del arg1_1 return (buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch from torch import nn class maximum_absolute_error(nn.Module): def forward(self, yhat, y): return torch.max(torch.abs(torch.sub(y, yhat))) def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math from torch import nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_per_fused_abs_max_sub_0(in_ptr0, in_ptr1, out_ptr0, xnumel, rnumel): XBLOCK: tl.constexpr = 1 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) * XBLOCK tl.full([1], xoffset, tl.int32) tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + r0, None) tmp1 = tl.load(in_ptr1 + r0, None) tmp2 = tmp0 - tmp1 tmp3 = tl_math.abs(tmp2) tmp4 = tl.broadcast_to(tmp3, [RBLOCK]) tmp6 = triton_helpers.promote_to_tensor(triton_helpers.max2(tmp4, 0)) tl.store(out_ptr0 + tl.full([1], 0, tl.int32), tmp6, None) def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) get_raw_stream(0) triton_per_fused_abs_max_sub_0[grid(1)](arg1_1, arg0_1, buf0, 1, 256, num_warps=2, num_stages=1) del arg0_1 del arg1_1 return buf0, class maximum_absolute_errorNew(nn.Module): def forward(self, input_0, input_1): arg0_1 = input_0 arg1_1 = input_1 output = call([arg0_1, arg1_1]) return output[0]	JonasBrusokas/ModelarDB-ext	maximum_absolute_error	false	9,158	[ "Apache-2.0" ]	354678994cc5fa2d2264436f1d33f250e11d990d	https://github.com/JonasBrusokas/ModelarDB-ext/tree/354678994cc5fa2d2264436f1d33f250e11d990d
SmoothL1Loss	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/t7/ct7n4vk2rjfplrvzzjcijiow2tdczppexhay5gcikb3dfjajcdzu.py # Topologically Sorted Source Nodes: [sub, diff, lt, mul, mul_1, truediv, sub_1, loss, loss_1, loss_bbox], Original ATen: [aten.sub, aten.abs, aten.lt, aten.mul, aten.div, aten.where, aten.mean] # Source node to ATen node mapping: # diff => abs_1 # loss => where # loss_1 => mean # loss_bbox => mul_2 # lt => lt # mul => mul # mul_1 => mul_1 # sub => sub # sub_1 => sub_1 # truediv => div # Graph fragment: # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%arg0_1, %arg1_1), kwargs = {}) # %abs_1 : [num_users=4] = call_function[target=torch.ops.aten.abs.default](args = (%sub,), kwargs = {}) # %lt : [num_users=1] = call_function[target=torch.ops.aten.lt.Scalar](args = (%abs_1, 1.0), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%abs_1, 0.5), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul, %abs_1), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%mul_1, 1.0), kwargs = {}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%abs_1, 0.5), kwargs = {}) # %where : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%lt, %div, %sub_1), kwargs = {}) # %mean : [num_users=1] = call_function[target=torch.ops.aten.mean.default](args = (%where,), kwargs = {}) # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mean, 1.0), kwargs = {}) triton_per_fused_abs_div_lt_mean_mul_sub_where_0 = async_compile.triton('triton_per_fused_abs_div_lt_mean_mul_sub_where_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[1, 256], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {3: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 4), equal_to_1=(3,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_abs_div_lt_mean_mul_sub_where_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': True, 'num_load': 2, 'num_reduction': 1, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_abs_div_lt_mean_mul_sub_where_0(in_out_ptr0, in_ptr0, in_ptr1, xnumel, rnumel): xnumel = 1 XBLOCK: tl.constexpr = 1 rnumel = 256 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) XBLOCK xindex = tl.full([1], xoffset, tl.int32) xmask = tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] roffset = 0 rmask = tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + (r0), None) tmp1 = tl.load(in_ptr1 + (r0), None) tmp2 = tmp0 - tmp1 tmp3 = tl_math.abs(tmp2) tmp4 = 1.0 tmp5 = tmp3 < tmp4 tmp6 = 0.5 tmp7 = tmp3 * tmp6 tmp8 = tmp7 * tmp3 tmp9 = tmp8 * tmp4 tmp10 = tmp3 - tmp6 tmp11 = tl.where(tmp5, tmp9, tmp10) tmp12 = tl.broadcast_to(tmp11, [RBLOCK]) tmp14 = triton_helpers.promote_to_tensor(tl.sum(tmp12, 0)) tmp15 = 256.0 tmp16 = tmp14 / tmp15 tmp17 = tmp16 * tmp4 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([1], 0, tl.int32)), tmp17, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [sub, diff, lt, mul, mul_1, truediv, sub_1, loss, loss_1, loss_bbox], Original ATen: [aten.sub, aten.abs, aten.lt, aten.mul, aten.div, aten.where, aten.mean] stream0 = get_raw_stream(0) triton_per_fused_abs_div_lt_mean_mul_sub_where_0.run(buf1, arg0_1, arg1_1, 1, 256, grid=grid(1), stream=stream0) del arg0_1 del arg1_1 return (buf1, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import functools import torch import torch.nn.functional as F import torch.nn as nn def reduce_loss(loss, reduction): """Reduce loss as specified. Args: loss (Tensor): Elementwise loss tensor. reduction (str): Options are "none", "mean" and "sum". Return: Tensor: Reduced loss tensor. """ reduction_enum = F._Reduction.get_enum(reduction) if reduction_enum == 0: return loss elif reduction_enum == 1: return loss.mean() elif reduction_enum == 2: return loss.sum() def weight_reduce_loss(loss, weight=None, reduction='mean', avg_factor=None): """Apply element-wise weight and reduce loss. Args: loss (Tensor): Element-wise loss. weight (Tensor): Element-wise weights. reduction (str): Same as built-in losses of PyTorch. avg_factor (float): Avarage factor when computing the mean of losses. Returns: Tensor: Processed loss values. """ if weight is not None: loss = loss * weight if avg_factor is None: loss = reduce_loss(loss, reduction) elif reduction == 'mean': loss = loss.sum() / avg_factor elif reduction != 'none': raise ValueError('avg_factor can not be used with reduction="sum"') return loss def weighted_loss(loss_func): """Create a weighted version of a given loss function. To use this decorator, the loss function must have the signature like `loss_func(pred, target, kwargs)`. The function only needs to compute element-wise loss without any reduction. This decorator will add weight and reduction arguments to the function. The decorated function will have the signature like `loss_func(pred, target, weight=None, reduction='mean', avg_factor=None, kwargs)`. :Example: >>> import torch >>> @weighted_loss >>> def l1_loss(pred, target): >>> return (pred - target).abs() >>> pred = torch.Tensor([0, 2, 3]) >>> target = torch.Tensor([1, 1, 1]) >>> weight = torch.Tensor([1, 0, 1]) >>> l1_loss(pred, target) tensor(1.3333) >>> l1_loss(pred, target, weight) tensor(1.) >>> l1_loss(pred, target, reduction='none') tensor([1., 1., 2.]) >>> l1_loss(pred, target, weight, avg_factor=2) tensor(1.5000) """ @functools.wraps(loss_func) def wrapper(pred, target, weight=None, reduction='mean', avg_factor= None, kwargs): loss = loss_func(pred, target, kwargs) loss = weight_reduce_loss(loss, weight, reduction, avg_factor) return loss return wrapper @weighted_loss def smooth_l1_loss(pred, target, beta=1.0): """Smooth L1 loss. Args: pred (torch.Tensor): The prediction. target (torch.Tensor): The learning target of the prediction. beta (float, optional): The threshold in the piecewise function. Defaults to 1.0. Returns: torch.Tensor: Calculated loss """ assert beta > 0 assert pred.size() == target.size() and target.numel() > 0 diff = torch.abs(pred - target) loss = torch.where(diff < beta, 0.5 * diff * diff / beta, diff - 0.5 * beta ) return loss class SmoothL1Loss(nn.Module): """Smooth L1 loss. Args: beta (float, optional): The threshold in the piecewise function. Defaults to 1.0. reduction (str, optional): The method to reduce the loss. Options are "none", "mean" and "sum". Defaults to "mean". loss_weight (float, optional): The weight of loss. """ def __init__(self, beta=1.0, reduction='mean', loss_weight=1.0): super(SmoothL1Loss, self).__init__() self.beta = beta self.reduction = reduction self.loss_weight = loss_weight def forward(self, pred, target, weight=None, avg_factor=None, reduction_override=None, *kwargs): """Forward function. Args: pred (torch.Tensor): The prediction. target (torch.Tensor): The learning target of the prediction. weight (torch.Tensor, optional): The weight of loss for each prediction. Defaults to None. avg_factor (int, optional): Average factor that is used to average the loss. Defaults to None. reduction_override (str, optional): The reduction method used to override the original reduction method of the loss. Defaults to None. """ assert reduction_override in (None, 'none', 'mean', 'sum') reduction = (reduction_override if reduction_override else self. reduction) loss_bbox = self.loss_weight smooth_l1_loss(pred, target, weight, beta=self.beta, reduction=reduction, avg_factor=avg_factor, ** kwargs) return loss_bbox def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math import functools import torch.nn.functional as F import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_per_fused_abs_div_lt_mean_mul_sub_where_0(in_out_ptr0, in_ptr0, in_ptr1, xnumel, rnumel): XBLOCK: tl.constexpr = 1 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) * XBLOCK tl.full([1], xoffset, tl.int32) tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + r0, None) tmp1 = tl.load(in_ptr1 + r0, None) tmp2 = tmp0 - tmp1 tmp3 = tl_math.abs(tmp2) tmp4 = 1.0 tmp5 = tmp3 < tmp4 tmp6 = 0.5 tmp7 = tmp3 * tmp6 tmp8 = tmp7 * tmp3 tmp9 = tmp8 * tmp4 tmp10 = tmp3 - tmp6 tmp11 = tl.where(tmp5, tmp9, tmp10) tmp12 = tl.broadcast_to(tmp11, [RBLOCK]) tmp14 = triton_helpers.promote_to_tensor(tl.sum(tmp12, 0)) tmp15 = 256.0 tmp16 = tmp14 / tmp15 tmp17 = tmp16 * tmp4 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([1], 0, tl.int32), tmp17, None) def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) buf1 = buf0 del buf0 get_raw_stream(0) triton_per_fused_abs_div_lt_mean_mul_sub_where_0[grid(1)](buf1, arg0_1, arg1_1, 1, 256, num_warps=2, num_stages=1) del arg0_1 del arg1_1 return buf1, def reduce_loss(loss, reduction): """Reduce loss as specified. Args: loss (Tensor): Elementwise loss tensor. reduction (str): Options are "none", "mean" and "sum". Return: Tensor: Reduced loss tensor. """ reduction_enum = F._Reduction.get_enum(reduction) if reduction_enum == 0: return loss elif reduction_enum == 1: return loss.mean() elif reduction_enum == 2: return loss.sum() def weight_reduce_loss(loss, weight=None, reduction='mean', avg_factor=None): """Apply element-wise weight and reduce loss. Args: loss (Tensor): Element-wise loss. weight (Tensor): Element-wise weights. reduction (str): Same as built-in losses of PyTorch. avg_factor (float): Avarage factor when computing the mean of losses. Returns: Tensor: Processed loss values. """ if weight is not None: loss = loss * weight if avg_factor is None: loss = reduce_loss(loss, reduction) elif reduction == 'mean': loss = loss.sum() / avg_factor elif reduction != 'none': raise ValueError('avg_factor can not be used with reduction="sum"') return loss def weighted_loss(loss_func): """Create a weighted version of a given loss function. To use this decorator, the loss function must have the signature like `loss_func(pred, target, kwargs)`. The function only needs to compute element-wise loss without any reduction. This decorator will add weight and reduction arguments to the function. The decorated function will have the signature like `loss_func(pred, target, weight=None, reduction='mean', avg_factor=None, kwargs)`. :Example: >>> import torch >>> @weighted_loss >>> def l1_loss(pred, target): >>> return (pred - target).abs() >>> pred = torch.Tensor([0, 2, 3]) >>> target = torch.Tensor([1, 1, 1]) >>> weight = torch.Tensor([1, 0, 1]) >>> l1_loss(pred, target) tensor(1.3333) >>> l1_loss(pred, target, weight) tensor(1.) >>> l1_loss(pred, target, reduction='none') tensor([1., 1., 2.]) >>> l1_loss(pred, target, weight, avg_factor=2) tensor(1.5000) """ @functools.wraps(loss_func) def wrapper(pred, target, weight=None, reduction='mean', avg_factor= None, kwargs): loss = loss_func(pred, target, kwargs) loss = weight_reduce_loss(loss, weight, reduction, avg_factor) return loss return wrapper @weighted_loss def smooth_l1_loss(pred, target, beta=1.0): """Smooth L1 loss. Args: pred (torch.Tensor): The prediction. target (torch.Tensor): The learning target of the prediction. beta (float, optional): The threshold in the piecewise function. Defaults to 1.0. Returns: torch.Tensor: Calculated loss """ assert beta > 0 assert pred.size() == target.size() and target.numel() > 0 diff = torch.abs(pred - target) loss = torch.where(diff < beta, 0.5 * diff * diff / beta, diff - 0.5 * beta ) return loss class SmoothL1LossNew(nn.Module): """Smooth L1 loss. Args: beta (float, optional): The threshold in the piecewise function. Defaults to 1.0. reduction (str, optional): The method to reduce the loss. Options are "none", "mean" and "sum". Defaults to "mean". loss_weight (float, optional): The weight of loss. """ def __init__(self, beta=1.0, reduction='mean', loss_weight=1.0): super(SmoothL1LossNew, self).__init__() self.beta = beta self.reduction = reduction self.loss_weight = loss_weight def forward(self, input_0, input_1): arg0_1 = input_0 arg1_1 = input_1 output = call([arg0_1, arg1_1]) return output[0]	ChHanXiao/mmdetection	SmoothL1Loss	false	9,159	[ "Apache-2.0" ]	324aa5a042857a9b57abe37385e1210709a20d02	https://github.com/ChHanXiao/mmdetection/tree/324aa5a042857a9b57abe37385e1210709a20d02
VarifocalLoss	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/ax/caxbx6i4bwtsbtfhik5fb25fzuvlc7qeuptufx227j5xebtapxg3.py # Topologically Sorted Source Nodes: [binary_cross_entropy_with_logits, gt, float_1, mul, pred_sigmoid, sub, abs_1, pow_1, mul_1, le, float_2, mul_2, focal_weight, loss, loss_1, loss_cls], Original ATen: [aten.binary_cross_entropy_with_logits, aten.gt, aten._to_copy, aten.mul, aten.sigmoid, aten.sub, aten.abs, aten.pow, aten.le, aten.add, aten.mean] # Source node to ATen node mapping: # abs_1 => abs_1 # binary_cross_entropy_with_logits => abs_2, exp, full_default, log1p, minimum, mul_3, neg, sub_1, sub_2, sub_3 # float_1 => convert_element_type # float_2 => convert_element_type_1 # focal_weight => add # gt => gt # le => le # loss => mul_4 # loss_1 => mean # loss_cls => mul_5 # mul => mul # mul_1 => mul_1 # mul_2 => mul_2 # pow_1 => pow_1 # pred_sigmoid => sigmoid # sub => sub # Graph fragment: # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (1, %arg1_1), kwargs = {}) # %mul_3 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub_1, %arg0_1), kwargs = {}) # %full_default : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %minimum : [num_users=1] = call_function[target=torch.ops.aten.minimum.default](args = (%full_default, %arg0_1), kwargs = {}) # %abs_2 : [num_users=1] = call_function[target=torch.ops.aten.abs.default](args = (%arg0_1,), kwargs = {}) # %neg : [num_users=1] = call_function[target=torch.ops.aten.neg.default](args = (%abs_2,), kwargs = {}) # %exp : [num_users=1] = call_function[target=torch.ops.aten.exp.default](args = (%neg,), kwargs = {}) # %log1p : [num_users=1] = call_function[target=torch.ops.aten.log1p.default](args = (%exp,), kwargs = {}) # %sub_2 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%minimum, %log1p), kwargs = {}) # %sub_3 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%mul_3, %sub_2), kwargs = {}) # %gt : [num_users=1] = call_function[target=torch.ops.aten.gt.Scalar](args = (%arg1_1, 0.0), kwargs = {}) # %convert_element_type : [num_users=1] = call_function[target=torch.ops.prims.convert_element_type.default](args = (%gt, torch.float32), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%arg1_1, %convert_element_type), kwargs = {}) # %sigmoid : [num_users=1] = call_function[target=torch.ops.aten.sigmoid.default](args = (%arg0_1,), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%sigmoid, %arg1_1), kwargs = {}) # %abs_1 : [num_users=1] = call_function[target=torch.ops.aten.abs.default](args = (%sub,), kwargs = {}) # %pow_1 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%abs_1, 2.0), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%pow_1, 0.75), kwargs = {}) # %le : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%arg1_1, 0.0), kwargs = {}) # %convert_element_type_1 : [num_users=1] = call_function[target=torch.ops.prims.convert_element_type.default](args = (%le, torch.float32), kwargs = {}) # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul_1, %convert_element_type_1), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul, %mul_2), kwargs = {}) # %mul_4 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub_3, %add), kwargs = {}) # %mean : [num_users=1] = call_function[target=torch.ops.aten.mean.default](args = (%mul_4,), kwargs = {}) # %mul_5 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mean, 1.0), kwargs = {}) triton_per_fused__to_copy_abs_add_binary_cross_entropy_with_logits_gt_le_mean_mul_pow_sigmoid_sub_0 = async_compile.triton('triton_per_fused__to_copy_abs_add_binary_cross_entropy_with_logits_gt_le_mean_mul_pow_sigmoid_sub_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[1, 256], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {3: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 4), equal_to_1=(3,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused__to_copy_abs_add_binary_cross_entropy_with_logits_gt_le_mean_mul_pow_sigmoid_sub_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': True, 'num_load': 2, 'num_reduction': 1, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused__to_copy_abs_add_binary_cross_entropy_with_logits_gt_le_mean_mul_pow_sigmoid_sub_0(in_out_ptr0, in_ptr0, in_ptr1, xnumel, rnumel): xnumel = 1 XBLOCK: tl.constexpr = 1 rnumel = 256 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) XBLOCK xindex = tl.full([1], xoffset, tl.int32) xmask = tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] roffset = 0 rmask = tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + (r0), None) tmp3 = tl.load(in_ptr1 + (r0), None) tmp1 = 1.0 tmp2 = tmp1 - tmp0 tmp4 = tmp2 * tmp3 tmp5 = 0.0 tmp6 = triton_helpers.minimum(tmp5, tmp3) tmp7 = tl_math.abs(tmp3) tmp8 = -tmp7 tmp9 = tl_math.exp(tmp8) tmp10 = libdevice.log1p(tmp9) tmp11 = tmp6 - tmp10 tmp12 = tmp4 - tmp11 tmp13 = tmp0 > tmp5 tmp14 = tmp13.to(tl.float32) tmp15 = tmp0 * tmp14 tmp16 = tl.sigmoid(tmp3) tmp17 = tmp16 - tmp0 tmp18 = tl_math.abs(tmp17) tmp19 = tmp18 * tmp18 tmp20 = 0.75 tmp21 = tmp19 * tmp20 tmp22 = tmp0 <= tmp5 tmp23 = tmp22.to(tl.float32) tmp24 = tmp21 * tmp23 tmp25 = tmp15 + tmp24 tmp26 = tmp12 * tmp25 tmp27 = tl.broadcast_to(tmp26, [RBLOCK]) tmp29 = triton_helpers.promote_to_tensor(tl.sum(tmp27, 0)) tmp30 = 256.0 tmp31 = tmp29 / tmp30 tmp32 = tmp31 * tmp1 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([1], 0, tl.int32)), tmp32, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [binary_cross_entropy_with_logits, gt, float_1, mul, pred_sigmoid, sub, abs_1, pow_1, mul_1, le, float_2, mul_2, focal_weight, loss, loss_1, loss_cls], Original ATen: [aten.binary_cross_entropy_with_logits, aten.gt, aten._to_copy, aten.mul, aten.sigmoid, aten.sub, aten.abs, aten.pow, aten.le, aten.add, aten.mean] stream0 = get_raw_stream(0) triton_per_fused__to_copy_abs_add_binary_cross_entropy_with_logits_gt_le_mean_mul_pow_sigmoid_sub_0.run(buf1, arg1_1, arg0_1, 1, 256, grid=grid(1), stream=stream0) del arg0_1 del arg1_1 return (buf1, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn.functional as F import torch.nn as nn def reduce_loss(loss, reduction): """Reduce loss as specified. Args: loss (Tensor): Elementwise loss tensor. reduction (str): Options are "none", "mean" and "sum". Return: Tensor: Reduced loss tensor. """ reduction_enum = F._Reduction.get_enum(reduction) if reduction_enum == 0: return loss elif reduction_enum == 1: return loss.mean() elif reduction_enum == 2: return loss.sum() def weight_reduce_loss(loss, weight=None, reduction='mean', avg_factor=None): """Apply element-wise weight and reduce loss. Args: loss (Tensor): Element-wise loss. weight (Tensor): Element-wise weights. reduction (str): Same as built-in losses of PyTorch. avg_factor (float): Avarage factor when computing the mean of losses. Returns: Tensor: Processed loss values. """ if weight is not None: loss = loss * weight if avg_factor is None: loss = reduce_loss(loss, reduction) elif reduction == 'mean': loss = loss.sum() / avg_factor elif reduction != 'none': raise ValueError('avg_factor can not be used with reduction="sum"') return loss def varifocal_loss(pred, target, weight=None, alpha=0.75, gamma=2.0, iou_weighted=True, reduction='mean', avg_factor=None): """`Varifocal Loss <https://arxiv.org/abs/2008.13367>`_ Args: pred (torch.Tensor): The prediction with shape (N, C), C is the number of classes target (torch.Tensor): The learning target of the iou-aware classification score with shape (N, C), C is the number of classes. weight (torch.Tensor, optional): The weight of loss for each prediction. Defaults to None. alpha (float, optional): A balance factor for the negative part of Varifocal Loss, which is different from the alpha of Focal Loss. Defaults to 0.75. gamma (float, optional): The gamma for calculating the modulating factor. Defaults to 2.0. iou_weighted (bool, optional): Whether to weight the loss of the positive example with the iou target. Defaults to True. reduction (str, optional): The method used to reduce the loss into a scalar. Defaults to 'mean'. Options are "none", "mean" and "sum". avg_factor (int, optional): Average factor that is used to average the loss. Defaults to None. """ assert pred.size() == target.size() pred_sigmoid = pred.sigmoid() target = target.type_as(pred) if iou_weighted: focal_weight = target * (target > 0.0).float() + alpha * (pred_sigmoid - target).abs().pow(gamma) * (target <= 0.0).float() else: focal_weight = (target > 0.0).float() + alpha * (pred_sigmoid - target ).abs().pow(gamma) * (target <= 0.0).float() loss = F.binary_cross_entropy_with_logits(pred, target, reduction='none' ) * focal_weight loss = weight_reduce_loss(loss, weight, reduction, avg_factor) return loss class VarifocalLoss(nn.Module): def __init__(self, use_sigmoid=True, alpha=0.75, gamma=2.0, iou_weighted=True, reduction='mean', loss_weight=1.0): """`Varifocal Loss <https://arxiv.org/abs/2008.13367>`_ Args: use_sigmoid (bool, optional): Whether the prediction is used for sigmoid or softmax. Defaults to True. alpha (float, optional): A balance factor for the negative part of Varifocal Loss, which is different from the alpha of Focal Loss. Defaults to 0.75. gamma (float, optional): The gamma for calculating the modulating factor. Defaults to 2.0. iou_weighted (bool, optional): Whether to weight the loss of the positive examples with the iou target. Defaults to True. reduction (str, optional): The method used to reduce the loss into a scalar. Defaults to 'mean'. Options are "none", "mean" and "sum". loss_weight (float, optional): Weight of loss. Defaults to 1.0. """ super(VarifocalLoss, self).__init__() assert use_sigmoid is True, 'Only sigmoid varifocal loss supported now.' assert alpha >= 0.0 self.use_sigmoid = use_sigmoid self.alpha = alpha self.gamma = gamma self.iou_weighted = iou_weighted self.reduction = reduction self.loss_weight = loss_weight def forward(self, pred, target, weight=None, avg_factor=None, reduction_override=None): """Forward function. Args: pred (torch.Tensor): The prediction. target (torch.Tensor): The learning target of the prediction. weight (torch.Tensor, optional): The weight of loss for each prediction. Defaults to None. avg_factor (int, optional): Average factor that is used to average the loss. Defaults to None. reduction_override (str, optional): The reduction method used to override the original reduction method of the loss. Options are "none", "mean" and "sum". Returns: torch.Tensor: The calculated loss """ assert reduction_override in (None, 'none', 'mean', 'sum') reduction = (reduction_override if reduction_override else self. reduction) if self.use_sigmoid: loss_cls = self.loss_weight * varifocal_loss(pred, target, weight, alpha=self.alpha, gamma=self.gamma, iou_weighted= self.iou_weighted, reduction=reduction, avg_factor=avg_factor) else: raise NotImplementedError return loss_cls def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math import torch.nn.functional as F import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_per_fused__to_copy_abs_add_binary_cross_entropy_with_logits_gt_le_mean_mul_pow_sigmoid_sub_0( in_out_ptr0, in_ptr0, in_ptr1, xnumel, rnumel): XBLOCK: tl.constexpr = 1 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) * XBLOCK tl.full([1], xoffset, tl.int32) tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + r0, None) tmp3 = tl.load(in_ptr1 + r0, None) tmp1 = 1.0 tmp2 = tmp1 - tmp0 tmp4 = tmp2 * tmp3 tmp5 = 0.0 tmp6 = triton_helpers.minimum(tmp5, tmp3) tmp7 = tl_math.abs(tmp3) tmp8 = -tmp7 tmp9 = tl_math.exp(tmp8) tmp10 = libdevice.log1p(tmp9) tmp11 = tmp6 - tmp10 tmp12 = tmp4 - tmp11 tmp13 = tmp0 > tmp5 tmp14 = tmp13.to(tl.float32) tmp15 = tmp0 * tmp14 tmp16 = tl.sigmoid(tmp3) tmp17 = tmp16 - tmp0 tmp18 = tl_math.abs(tmp17) tmp19 = tmp18 * tmp18 tmp20 = 0.75 tmp21 = tmp19 * tmp20 tmp22 = tmp0 <= tmp5 tmp23 = tmp22.to(tl.float32) tmp24 = tmp21 * tmp23 tmp25 = tmp15 + tmp24 tmp26 = tmp12 * tmp25 tmp27 = tl.broadcast_to(tmp26, [RBLOCK]) tmp29 = triton_helpers.promote_to_tensor(tl.sum(tmp27, 0)) tmp30 = 256.0 tmp31 = tmp29 / tmp30 tmp32 = tmp31 * tmp1 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([1], 0, tl.int32), tmp32, None) def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) buf1 = buf0 del buf0 get_raw_stream(0) triton_per_fused__to_copy_abs_add_binary_cross_entropy_with_logits_gt_le_mean_mul_pow_sigmoid_sub_0[ grid(1)](buf1, arg1_1, arg0_1, 1, 256, num_warps=2, num_stages=1) del arg0_1 del arg1_1 return buf1, def reduce_loss(loss, reduction): """Reduce loss as specified. Args: loss (Tensor): Elementwise loss tensor. reduction (str): Options are "none", "mean" and "sum". Return: Tensor: Reduced loss tensor. """ reduction_enum = F._Reduction.get_enum(reduction) if reduction_enum == 0: return loss elif reduction_enum == 1: return loss.mean() elif reduction_enum == 2: return loss.sum() def weight_reduce_loss(loss, weight=None, reduction='mean', avg_factor=None): """Apply element-wise weight and reduce loss. Args: loss (Tensor): Element-wise loss. weight (Tensor): Element-wise weights. reduction (str): Same as built-in losses of PyTorch. avg_factor (float): Avarage factor when computing the mean of losses. Returns: Tensor: Processed loss values. """ if weight is not None: loss = loss * weight if avg_factor is None: loss = reduce_loss(loss, reduction) elif reduction == 'mean': loss = loss.sum() / avg_factor elif reduction != 'none': raise ValueError('avg_factor can not be used with reduction="sum"') return loss def varifocal_loss(pred, target, weight=None, alpha=0.75, gamma=2.0, iou_weighted=True, reduction='mean', avg_factor=None): """`Varifocal Loss <https://arxiv.org/abs/2008.13367>`_ Args: pred (torch.Tensor): The prediction with shape (N, C), C is the number of classes target (torch.Tensor): The learning target of the iou-aware classification score with shape (N, C), C is the number of classes. weight (torch.Tensor, optional): The weight of loss for each prediction. Defaults to None. alpha (float, optional): A balance factor for the negative part of Varifocal Loss, which is different from the alpha of Focal Loss. Defaults to 0.75. gamma (float, optional): The gamma for calculating the modulating factor. Defaults to 2.0. iou_weighted (bool, optional): Whether to weight the loss of the positive example with the iou target. Defaults to True. reduction (str, optional): The method used to reduce the loss into a scalar. Defaults to 'mean'. Options are "none", "mean" and "sum". avg_factor (int, optional): Average factor that is used to average the loss. Defaults to None. """ assert pred.size() == target.size() pred_sigmoid = pred.sigmoid() target = target.type_as(pred) if iou_weighted: focal_weight = target * (target > 0.0).float() + alpha * (pred_sigmoid - target).abs().pow(gamma) * (target <= 0.0).float() else: focal_weight = (target > 0.0).float() + alpha * (pred_sigmoid - target ).abs().pow(gamma) * (target <= 0.0).float() loss = F.binary_cross_entropy_with_logits(pred, target, reduction='none' ) * focal_weight loss = weight_reduce_loss(loss, weight, reduction, avg_factor) return loss class VarifocalLossNew(nn.Module): def __init__(self, use_sigmoid=True, alpha=0.75, gamma=2.0, iou_weighted=True, reduction='mean', loss_weight=1.0): """`Varifocal Loss <https://arxiv.org/abs/2008.13367>`_ Args: use_sigmoid (bool, optional): Whether the prediction is used for sigmoid or softmax. Defaults to True. alpha (float, optional): A balance factor for the negative part of Varifocal Loss, which is different from the alpha of Focal Loss. Defaults to 0.75. gamma (float, optional): The gamma for calculating the modulating factor. Defaults to 2.0. iou_weighted (bool, optional): Whether to weight the loss of the positive examples with the iou target. Defaults to True. reduction (str, optional): The method used to reduce the loss into a scalar. Defaults to 'mean'. Options are "none", "mean" and "sum". loss_weight (float, optional): Weight of loss. Defaults to 1.0. """ super(VarifocalLossNew, self).__init__() assert use_sigmoid is True, 'Only sigmoid varifocal loss supported now.' assert alpha >= 0.0 self.use_sigmoid = use_sigmoid self.alpha = alpha self.gamma = gamma self.iou_weighted = iou_weighted self.reduction = reduction self.loss_weight = loss_weight def forward(self, input_0, input_1): arg0_1 = input_0 arg1_1 = input_1 output = call([arg0_1, arg1_1]) return output[0]	ChHanXiao/mmdetection	VarifocalLoss	false	9,160	[ "Apache-2.0" ]	324aa5a042857a9b57abe37385e1210709a20d02	https://github.com/ChHanXiao/mmdetection/tree/324aa5a042857a9b57abe37385e1210709a20d02
LabelwiseAttention	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/ud/cudbnoor4dpxxdmeqssolgpxcs76nh6jnfj2xf7auyk3sidsohnf.py # Topologically Sorted Source Nodes: [attention_1], Original ATen: [aten._softmax] # Source node to ATen node mapping: # attention_1 => amax, clone, exp, sub # Graph fragment: # %clone : [num_users=2] = call_function[target=torch.ops.aten.clone.default](args = (%permute_1,), kwargs = {memory_format: torch.contiguous_format}) # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%clone, [-1], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%clone, %amax), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub,), kwargs = {}) triton_poi_fused__softmax_0 = async_compile.triton('triton_poi_fused__softmax_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 4 x2 = (xindex // 16) tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x0 + (16x2)), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (4 + x0 + (16x2)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (8 + x0 + (16x2)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (12 + x0 + (16x2)), xmask, eviction_policy='evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + (x3), tmp9, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/qp/cqp3fdf3ecmhmbwcc3rtgik3semb3eaopuhjgnixrrilbp6nufln.py # Topologically Sorted Source Nodes: [attention_1], Original ATen: [aten._softmax] # Source node to ATen node mapping: # attention_1 => div, sum_1 # Graph fragment: # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp, [-1], True), kwargs = {}) # %div : [num_users=2] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp, %sum_1), kwargs = {}) triton_poi_fused__softmax_1 = async_compile.triton('triton_poi_fused__softmax_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16, 4], tile_hint=TileHint.SQUARE, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_1(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 16 xnumel = 4 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y0 = yindex % 4 y1 = (yindex // 4) y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + (4x2) + (16y1)), xmask & ymask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (y0 + (16y1)), ymask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (4 + y0 + (16y1)), ymask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (8 + y0 + (16y1)), ymask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (12 + y0 + (16y1)), ymask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + (x2 + (4*y3)), tmp8, xmask & ymask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, 4, 4), (16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((16, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [linear], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(primals_2, (16, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf0) del primals_1 buf1 = empty_strided_cuda((4, 4, 4), (16, 1, 4), torch.float32) # Topologically Sorted Source Nodes: [attention_1], Original ATen: [aten._softmax] stream0 = get_raw_stream(0) triton_poi_fused__softmax_0.run(buf0, buf1, 64, grid=grid(64), stream=stream0) buf2 = reinterpret_tensor(buf0, (4, 4, 4), (16, 4, 1), 0); del buf0 # reuse # Topologically Sorted Source Nodes: [attention_1], Original ATen: [aten._softmax] triton_poi_fused__softmax_1.run(buf1, buf2, 16, 4, grid=grid(16, 4), stream=stream0) buf3 = reinterpret_tensor(buf1, (4, 4, 4), (16, 4, 1), 0); del buf1 # reuse # Topologically Sorted Source Nodes: [logits], Original ATen: [aten.bmm] extern_kernels.bmm(buf2, primals_2, out=buf3) return (buf3, buf2, primals_2, buf2, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn.functional as F import torch.nn as nn class LabelwiseAttention(nn.Module): """Applies attention technique to summarize the sequence for each label See `Explainable Prediction of Medical Codes from Clinical Text <https://aclanthology.org/N18-1100.pdf>`_ Args: input_size (int): The number of expected features in the input. num_classes (int): Total number of classes. """ def __init__(self, input_size, num_classes): super(LabelwiseAttention, self).__init__() self.attention = nn.Linear(input_size, num_classes, bias=False) def forward(self, input): attention = self.attention(input).transpose(1, 2) attention = F.softmax(attention, -1) logits = torch.bmm(attention, input) return logits, attention def get_inputs(): return [torch.rand([4, 4, 4])] def get_init_inputs(): return [[], {'input_size': 4, 'num_classes': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused__softmax_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 4 x2 = xindex // 16 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + (x0 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp2 = tl.load(in_ptr0 + (4 + x0 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp4 = tl.load(in_ptr0 + (8 + x0 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp6 = tl.load(in_ptr0 + (12 + x0 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + x3, tmp9, xmask) @triton.jit def triton_poi_fused__softmax_1(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK: tl.constexpr, XBLOCK: tl.constexpr): ynumel = 16 xnumel = 4 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y0 = yindex % 4 y1 = yindex // 4 y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + 4 * x2 + 16 * y1), xmask & ymask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (y0 + 16 * y1), ymask, eviction_policy= 'evict_last') tmp2 = tl.load(in_ptr0 + (4 + y0 + 16 * y1), ymask, eviction_policy= 'evict_last') tmp4 = tl.load(in_ptr0 + (8 + y0 + 16 * y1), ymask, eviction_policy= 'evict_last') tmp6 = tl.load(in_ptr0 + (12 + y0 + 16 * y1), ymask, eviction_policy= 'evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + (x2 + 4 * y3), tmp8, xmask & ymask) def call(args): primals_1, primals_2 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, 4, 4), (16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((16, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_2, (16, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf0) del primals_1 buf1 = empty_strided_cuda((4, 4, 4), (16, 1, 4), torch.float32) get_raw_stream(0) triton_poi_fused__softmax_0[grid(64)](buf0, buf1, 64, XBLOCK=64, num_warps=1, num_stages=1) buf2 = reinterpret_tensor(buf0, (4, 4, 4), (16, 4, 1), 0) del buf0 triton_poi_fused__softmax_1[grid(16, 4)](buf1, buf2, 16, 4, XBLOCK= 4, YBLOCK=16, num_warps=1, num_stages=1) buf3 = reinterpret_tensor(buf1, (4, 4, 4), (16, 4, 1), 0) del buf1 extern_kernels.bmm(buf2, primals_2, out=buf3) return buf3, buf2, primals_2, buf2 class LabelwiseAttentionNew(nn.Module): """Applies attention technique to summarize the sequence for each label See `Explainable Prediction of Medical Codes from Clinical Text <https://aclanthology.org/N18-1100.pdf>`_ Args: input_size (int): The number of expected features in the input. num_classes (int): Total number of classes. """ def __init__(self, input_size, num_classes): super(LabelwiseAttentionNew, self).__init__() self.attention = nn.Linear(input_size, num_classes, bias=False) def forward(self, input_0): primals_1 = self.attention.weight primals_2 = input_0 output = call([primals_1, primals_2]) return output[0], output[1]	JamesLYC88/LibMultiLabel	LabelwiseAttention	false	9,161	[ "MIT" ]	042b76b3564409d916cf735ace617319009ae118	https://github.com/JamesLYC88/LibMultiLabel/tree/042b76b3564409d916cf735ace617319009ae118
Psi2QNet	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/jb/cjbh6emqja7rl4lagss2czst5sqfxza2dkqgllp2soznirengezy.py # Topologically Sorted Source Nodes: [matmul], Original ATen: [aten.mv] # Source node to ATen node mapping: # matmul => mul, sum_1 # Graph fragment: # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view, %primals_1), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%mul, [1]), kwargs = {}) triton_poi_fused_mv_0 = async_compile.triton('triton_poi_fused_mv_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_mv_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 8, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_mv_0(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (4x0), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (0)) tmp2 = tl.broadcast_to(tmp1, [XBLOCK]) tmp4 = tl.load(in_ptr0 + (1 + (4x0)), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr1 + (1)) tmp6 = tl.broadcast_to(tmp5, [XBLOCK]) tmp9 = tl.load(in_ptr0 + (2 + (4x0)), xmask, eviction_policy='evict_last') tmp10 = tl.load(in_ptr1 + (2)) tmp11 = tl.broadcast_to(tmp10, [XBLOCK]) tmp14 = tl.load(in_ptr0 + (3 + (4x0)), xmask, eviction_policy='evict_last') tmp15 = tl.load(in_ptr1 + (3)) tmp16 = tl.broadcast_to(tmp15, [XBLOCK]) tmp3 = tmp0 * tmp2 tmp7 = tmp4 * tmp6 tmp8 = tmp3 + tmp7 tmp12 = tmp9 * tmp11 tmp13 = tmp8 + tmp12 tmp17 = tmp14 * tmp16 tmp18 = tmp13 + tmp17 tl.store(out_ptr0 + (x0), tmp18, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2 = args args.clear() assert_size_stride(primals_1, (4, ), (1, )) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, ), (1, ), torch.float32) # Topologically Sorted Source Nodes: [matmul], Original ATen: [aten.mv] stream0 = get_raw_stream(0) triton_poi_fused_mv_0.run(primals_2, primals_1, buf0, 64, grid=grid(64), stream=stream0) del primals_1 return (reinterpret_tensor(buf0, (4, 4, 4), (16, 4, 1), 0), primals_2, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch from torch.nn.parameter import Parameter import torch.nn as nn class Psi2QNet(nn.Module): def __init__(self, output_dim, feature_dim): super(Psi2QNet, self).__init__() self.w = Parameter(torch.Tensor(feature_dim)) nn.init.constant_(self.w, 0) self def forward(self, psi): return torch.matmul(psi, self.w) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'output_dim': 4, 'feature_dim': 4}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch.nn.parameter import Parameter import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_mv_0(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + 4 * x0, xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + 0) tmp2 = tl.broadcast_to(tmp1, [XBLOCK]) tmp4 = tl.load(in_ptr0 + (1 + 4 * x0), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr1 + 1) tmp6 = tl.broadcast_to(tmp5, [XBLOCK]) tmp9 = tl.load(in_ptr0 + (2 + 4 * x0), xmask, eviction_policy='evict_last') tmp10 = tl.load(in_ptr1 + 2) tmp11 = tl.broadcast_to(tmp10, [XBLOCK]) tmp14 = tl.load(in_ptr0 + (3 + 4 * x0), xmask, eviction_policy='evict_last' ) tmp15 = tl.load(in_ptr1 + 3) tmp16 = tl.broadcast_to(tmp15, [XBLOCK]) tmp3 = tmp0 * tmp2 tmp7 = tmp4 * tmp6 tmp8 = tmp3 + tmp7 tmp12 = tmp9 * tmp11 tmp13 = tmp8 + tmp12 tmp17 = tmp14 * tmp16 tmp18 = tmp13 + tmp17 tl.store(out_ptr0 + x0, tmp18, xmask) def call(args): primals_1, primals_2 = args args.clear() assert_size_stride(primals_1, (4,), (1,)) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64,), (1,), torch.float32) get_raw_stream(0) triton_poi_fused_mv_0[grid(64)](primals_2, primals_1, buf0, 64, XBLOCK=64, num_warps=1, num_stages=1) del primals_1 return reinterpret_tensor(buf0, (4, 4, 4), (16, 4, 1), 0), primals_2 class Psi2QNetNew(nn.Module): def __init__(self, output_dim, feature_dim): super(Psi2QNetNew, self).__init__() self.w = Parameter(torch.Tensor(feature_dim)) nn.init.constant_(self.w, 0) self def forward(self, input_0): primals_1 = self.w primals_2 = input_0 output = call([primals_1, primals_2]) return output[0]	IanWangg/Multi-Context-RL	Psi2QNet	false	9,162	[ "MIT" ]	a268b16c5ad421b35339cb85de5347d4cf56b3dd	https://github.com/IanWangg/Multi-Context-RL/tree/a268b16c5ad421b35339cb85de5347d4cf56b3dd
KeypointRCNNPredictor	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/uq/cuqqipmjb7p6orv3tdcuarnwutmc4cxzmucdjhq2nqpzxtjwmxuw.py # Topologically Sorted Source Nodes: [interpolate], Original ATen: [aten._to_copy] # Source node to ATen node mapping: # interpolate => convert_element_type_1 # Graph fragment: # %convert_element_type_1 : [num_users=5] = call_function[target=torch.ops.prims.convert_element_type.default](args = (%view, torch.int64), kwargs = {}) triton_poi_fused__to_copy_0 = async_compile.triton('triton_poi_fused__to_copy_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'i64', 1: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__to_copy_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 0, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__to_copy_0(out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = x0 tmp1 = tmp0.to(tl.float32) tmp2 = 0.5 tmp3 = tmp1 + tmp2 tmp4 = tmp3 * tmp2 tmp5 = tmp4 - tmp2 tmp6 = 0.0 tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp7.to(tl.int32) tl.store(out_ptr0 + (x0), tmp8, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/xj/cxjrp237cfskiqte5qmh4iwxx2uqwhln7qhtrxt226vlgdmrlbhv.py # Topologically Sorted Source Nodes: [interpolate], Original ATen: [aten.add, aten.clamp] # Source node to ATen node mapping: # interpolate => add_1, clamp_max # Graph fragment: # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%convert_element_type_1, 1), kwargs = {}) # %clamp_max : [num_users=3] = call_function[target=torch.ops.aten.clamp_max.default](args = (%add_1, 7), kwargs = {}) triton_poi_fused_add_clamp_1 = async_compile.triton('triton_poi_fused_add_clamp_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'i64', 1: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_clamp_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 0, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_clamp_1(out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = x0 tmp1 = tmp0.to(tl.float32) tmp2 = 0.5 tmp3 = tmp1 + tmp2 tmp4 = tmp3 * tmp2 tmp5 = tmp4 - tmp2 tmp6 = 0.0 tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp7.to(tl.int32) tmp9 = tl.full([1], 1, tl.int64) tmp10 = tmp8 + tmp9 tmp11 = tl.full([1], 7, tl.int64) tmp12 = triton_helpers.minimum(tmp10, tmp11) tl.store(out_ptr0 + (x0), tmp12, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/bc/cbc5424syuoeux5bptl4dkgozldk7mvfcphj74qo42zkoiqqliqy.py # Topologically Sorted Source Nodes: [interpolate], Original ATen: [aten.arange, aten._to_copy, aten.add, aten.mul, aten.sub, aten.clamp] # Source node to ATen node mapping: # interpolate => add, clamp_max_2, clamp_min, clamp_min_2, convert_element_type, iota, mul, sub, sub_2 # Graph fragment: # %iota : [num_users=1] = call_function[target=torch.ops.prims.iota.default](args = (16,), kwargs = {start: 0, step: 1, dtype: torch.int64, device: cuda:0, requires_grad: False}) # %convert_element_type : [num_users=1] = call_function[target=torch.ops.prims.convert_element_type.default](args = (%iota, torch.float32), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%convert_element_type, 0.5), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%add, 0.5), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%mul, 0.5), kwargs = {}) # %clamp_min : [num_users=3] = call_function[target=torch.ops.aten.clamp_min.default](args = (%sub, 0.0), kwargs = {}) # %sub_2 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%clamp_min, %convert_element_type_3), kwargs = {}) # %clamp_min_2 : [num_users=1] = call_function[target=torch.ops.aten.clamp_min.default](args = (%sub_2, 0.0), kwargs = {}) # %clamp_max_2 : [num_users=3] = call_function[target=torch.ops.aten.clamp_max.default](args = (%clamp_min_2, 1.0), kwargs = {}) triton_poi_fused__to_copy_add_arange_clamp_mul_sub_2 = async_compile.triton('triton_poi_fused__to_copy_add_arange_clamp_mul_sub_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__to_copy_add_arange_clamp_mul_sub_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 0, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__to_copy_add_arange_clamp_mul_sub_2(out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = x0 tmp1 = tmp0.to(tl.float32) tmp2 = 0.5 tmp3 = tmp1 + tmp2 tmp4 = tmp3 * tmp2 tmp5 = tmp4 - tmp2 tmp6 = 0.0 tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp7.to(tl.int32) tmp9 = tmp8.to(tl.float32) tmp10 = tmp7 - tmp9 tmp11 = triton_helpers.maximum(tmp10, tmp6) tmp12 = 1.0 tmp13 = triton_helpers.minimum(tmp11, tmp12) tl.store(out_ptr0 + (x0), tmp13, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/5b/c5bffzsxewlxvbkfraxqqe5swsxbe3or6f373tmlab3ohrvakgzb.py # Topologically Sorted Source Nodes: [x, interpolate], Original ATen: [aten.convolution, aten._unsafe_index, aten.sub, aten.mul, aten.add] # Source node to ATen node mapping: # interpolate => _unsafe_index, _unsafe_index_1, _unsafe_index_2, _unsafe_index_3, add_4, add_5, add_6, mul_2, mul_3, mul_4, sub_3, sub_4, sub_6 # x => convolution # Graph fragment: # %convolution : [num_users=4] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_3, %primals_1, %primals_2, [2, 2], [1, 1], [1, 1], True, [0, 0], 1), kwargs = {}) # %_unsafe_index : [num_users=2] = call_function[target=torch.ops.aten._unsafe_index.Tensor](args = (%convolution, [None, None, %convert_element_type_1, %convert_element_type_3]), kwargs = {}) # %_unsafe_index_1 : [num_users=1] = call_function[target=torch.ops.aten._unsafe_index.Tensor](args = (%convolution, [None, None, %convert_element_type_1, %clamp_max_1]), kwargs = {}) # %_unsafe_index_2 : [num_users=2] = call_function[target=torch.ops.aten._unsafe_index.Tensor](args = (%convolution, [None, None, %clamp_max, %convert_element_type_3]), kwargs = {}) # %_unsafe_index_3 : [num_users=1] = call_function[target=torch.ops.aten._unsafe_index.Tensor](args = (%convolution, [None, None, %clamp_max, %clamp_max_1]), kwargs = {}) # %sub_3 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%_unsafe_index_1, %_unsafe_index), kwargs = {}) # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub_3, %clamp_max_2), kwargs = {}) # %add_4 : [num_users=2] = call_function[target=torch.ops.aten.add.Tensor](args = (%_unsafe_index, %mul_2), kwargs = {}) # %sub_4 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%_unsafe_index_3, %_unsafe_index_2), kwargs = {}) # %mul_3 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub_4, %clamp_max_2), kwargs = {}) # %add_5 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%_unsafe_index_2, %mul_3), kwargs = {}) # %sub_6 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%add_5, %add_4), kwargs = {}) # %mul_4 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub_6, %clamp_max_3), kwargs = {}) # %add_6 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%add_4, %mul_4), kwargs = {}) triton_poi_fused__unsafe_index_add_convolution_mul_sub_3 = async_compile.triton('triton_poi_fused__unsafe_index_add_convolution_mul_sub_3', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[4096], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'i64', 2: 'i64', 3: 'fp32', 4: 'fp32', 5: 'i64', 6: 'fp32', 7: 'i64', 8: 'fp32', 9: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6, 7, 8, 9), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__unsafe_index_add_convolution_mul_sub_3', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 7, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__unsafe_index_add_convolution_mul_sub_3(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, in_ptr5, in_ptr6, in_ptr7, xnumel, XBLOCK : tl.constexpr): xnumel = 4096 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x1 = (xindex // 16) % 16 x0 = xindex % 16 x6 = (xindex // 256) x2 = (xindex // 256) % 4 x4 = xindex tmp0 = tl.load(in_ptr0 + (x1), None, eviction_policy='evict_last') tmp5 = tl.load(in_ptr1 + (x0), None, eviction_policy='evict_last') tmp10 = tl.load(in_ptr3 + (x2), None, eviction_policy='evict_last') tmp12 = tl.load(in_ptr4 + (x0), None, eviction_policy='evict_last') tmp19 = tl.load(in_ptr5 + (x0), None, eviction_policy='evict_last') tmp22 = tl.load(in_ptr6 + (x1), None, eviction_policy='evict_last') tmp34 = tl.load(in_ptr7 + (x1), None, eviction_policy='evict_last') tmp1 = tl.full([XBLOCK], 8, tl.int32) tmp2 = tmp0 + tmp1 tmp3 = tmp0 < 0 tmp4 = tl.where(tmp3, tmp2, tmp0) tmp6 = tmp5 + tmp1 tmp7 = tmp5 < 0 tmp8 = tl.where(tmp7, tmp6, tmp5) tmp9 = tl.load(in_ptr2 + (tmp8 + (8tmp4) + (64x6)), None, eviction_policy='evict_last') tmp11 = tmp9 + tmp10 tmp13 = tmp12 + tmp1 tmp14 = tmp12 < 0 tmp15 = tl.where(tmp14, tmp13, tmp12) tmp16 = tl.load(in_ptr2 + (tmp15 + (8tmp4) + (64x6)), None, eviction_policy='evict_last') tmp17 = tmp16 + tmp10 tmp18 = tmp17 - tmp11 tmp20 = tmp18 * tmp19 tmp21 = tmp11 + tmp20 tmp23 = tmp22 + tmp1 tmp24 = tmp22 < 0 tmp25 = tl.where(tmp24, tmp23, tmp22) tmp26 = tl.load(in_ptr2 + (tmp8 + (8tmp25) + (64x6)), None, eviction_policy='evict_last') tmp27 = tmp26 + tmp10 tmp28 = tl.load(in_ptr2 + (tmp15 + (8tmp25) + (64x6)), None, eviction_policy='evict_last') tmp29 = tmp28 + tmp10 tmp30 = tmp29 - tmp27 tmp31 = tmp30 * tmp19 tmp32 = tmp27 + tmp31 tmp33 = tmp32 - tmp21 tmp35 = tmp33 * tmp34 tmp36 = tmp21 + tmp35 tl.store(in_out_ptr0 + (x4), tmp36, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [x], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(2, 2), padding=(1, 1), dilation=(1, 1), transposed=True, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 8, 8), (256, 64, 8, 1)) buf1 = empty_strided_cuda((16, 1), (1, 1), torch.int64) # Topologically Sorted Source Nodes: [interpolate], Original ATen: [aten._to_copy] stream0 = get_raw_stream(0) triton_poi_fused__to_copy_0.run(buf1, 16, grid=grid(16), stream=stream0) buf2 = empty_strided_cuda((16, 1), (1, 1), torch.int64) # Topologically Sorted Source Nodes: [interpolate], Original ATen: [aten.add, aten.clamp] triton_poi_fused_add_clamp_1.run(buf2, 16, grid=grid(16), stream=stream0) buf3 = empty_strided_cuda((16, ), (1, ), torch.int64) # Topologically Sorted Source Nodes: [interpolate], Original ATen: [aten.arange, aten._to_copy, aten.add, aten.mul, aten.sub, aten.clamp] triton_poi_fused__to_copy_0.run(buf3, 16, grid=grid(16), stream=stream0) buf4 = empty_strided_cuda((16, ), (1, ), torch.int64) # Topologically Sorted Source Nodes: [interpolate], Original ATen: [aten.add, aten.clamp] triton_poi_fused_add_clamp_1.run(buf4, 16, grid=grid(16), stream=stream0) buf5 = empty_strided_cuda((16, ), (1, ), torch.float32) # Topologically Sorted Source Nodes: [interpolate], Original ATen: [aten.arange, aten._to_copy, aten.add, aten.mul, aten.sub, aten.clamp] triton_poi_fused__to_copy_add_arange_clamp_mul_sub_2.run(buf5, 16, grid=grid(16), stream=stream0) buf7 = empty_strided_cuda((16, 1), (1, 1), torch.float32) # Topologically Sorted Source Nodes: [interpolate], Original ATen: [aten.sub, aten.clamp] triton_poi_fused__to_copy_add_arange_clamp_mul_sub_2.run(buf7, 16, grid=grid(16), stream=stream0) buf8 = empty_strided_cuda((4, 4, 16, 16), (1024, 256, 16, 1), torch.float32) buf9 = buf8; del buf8 # reuse # Topologically Sorted Source Nodes: [x, interpolate], Original ATen: [aten.convolution, aten._unsafe_index, aten.sub, aten.mul, aten.add] triton_poi_fused__unsafe_index_add_convolution_mul_sub_3.run(buf9, buf1, buf3, buf0, primals_2, buf4, buf5, buf2, buf7, 4096, grid=grid(4096), stream=stream0) del buf0 del primals_2 return (buf9, primals_1, primals_3, buf1, buf2, buf3, buf4, buf5, buf7, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.utils.data from torch import nn class KeypointRCNNPredictor(nn.Module): def __init__(self, in_channels, num_keypoints): super(KeypointRCNNPredictor, self).__init__() input_features = in_channels deconv_kernel = 4 self.kps_score_lowres = nn.ConvTranspose2d(input_features, num_keypoints, deconv_kernel, stride=2, padding=deconv_kernel // 2 - 1) nn.init.kaiming_normal_(self.kps_score_lowres.weight, mode= 'fan_out', nonlinearity='relu') nn.init.constant_(self.kps_score_lowres.bias, 0) self.up_scale = 2 self.out_channels = num_keypoints def forward(self, x): x = self.kps_score_lowres(x) return torch.nn.functional.interpolate(x, scale_factor=float(self. up_scale), mode='bilinear', align_corners=False, recompute_scale_factor=False) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'in_channels': 4, 'num_keypoints': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers import torch.utils.data from torch import nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused__to_copy_0(out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = x0 tmp1 = tmp0.to(tl.float32) tmp2 = 0.5 tmp3 = tmp1 + tmp2 tmp4 = tmp3 * tmp2 tmp5 = tmp4 - tmp2 tmp6 = 0.0 tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp7.to(tl.int32) tl.store(out_ptr0 + x0, tmp8, xmask) @triton.jit def triton_poi_fused_add_clamp_1(out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = x0 tmp1 = tmp0.to(tl.float32) tmp2 = 0.5 tmp3 = tmp1 + tmp2 tmp4 = tmp3 * tmp2 tmp5 = tmp4 - tmp2 tmp6 = 0.0 tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp7.to(tl.int32) tmp9 = tl.full([1], 1, tl.int64) tmp10 = tmp8 + tmp9 tmp11 = tl.full([1], 7, tl.int64) tmp12 = triton_helpers.minimum(tmp10, tmp11) tl.store(out_ptr0 + x0, tmp12, xmask) @triton.jit def triton_poi_fused__to_copy_add_arange_clamp_mul_sub_2(out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = x0 tmp1 = tmp0.to(tl.float32) tmp2 = 0.5 tmp3 = tmp1 + tmp2 tmp4 = tmp3 * tmp2 tmp5 = tmp4 - tmp2 tmp6 = 0.0 tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp7.to(tl.int32) tmp9 = tmp8.to(tl.float32) tmp10 = tmp7 - tmp9 tmp11 = triton_helpers.maximum(tmp10, tmp6) tmp12 = 1.0 tmp13 = triton_helpers.minimum(tmp11, tmp12) tl.store(out_ptr0 + x0, tmp13, xmask) @triton.jit def triton_poi_fused__unsafe_index_add_convolution_mul_sub_3(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, in_ptr5, in_ptr6, in_ptr7, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x1 = xindex // 16 % 16 x0 = xindex % 16 x6 = xindex // 256 x2 = xindex // 256 % 4 x4 = xindex tmp0 = tl.load(in_ptr0 + x1, None, eviction_policy='evict_last') tmp5 = tl.load(in_ptr1 + x0, None, eviction_policy='evict_last') tmp10 = tl.load(in_ptr3 + x2, None, eviction_policy='evict_last') tmp12 = tl.load(in_ptr4 + x0, None, eviction_policy='evict_last') tmp19 = tl.load(in_ptr5 + x0, None, eviction_policy='evict_last') tmp22 = tl.load(in_ptr6 + x1, None, eviction_policy='evict_last') tmp34 = tl.load(in_ptr7 + x1, None, eviction_policy='evict_last') tmp1 = tl.full([XBLOCK], 8, tl.int32) tmp2 = tmp0 + tmp1 tmp3 = tmp0 < 0 tmp4 = tl.where(tmp3, tmp2, tmp0) tmp6 = tmp5 + tmp1 tmp7 = tmp5 < 0 tmp8 = tl.where(tmp7, tmp6, tmp5) tmp9 = tl.load(in_ptr2 + (tmp8 + 8 * tmp4 + 64 * x6), None, eviction_policy='evict_last') tmp11 = tmp9 + tmp10 tmp13 = tmp12 + tmp1 tmp14 = tmp12 < 0 tmp15 = tl.where(tmp14, tmp13, tmp12) tmp16 = tl.load(in_ptr2 + (tmp15 + 8 * tmp4 + 64 * x6), None, eviction_policy='evict_last') tmp17 = tmp16 + tmp10 tmp18 = tmp17 - tmp11 tmp20 = tmp18 * tmp19 tmp21 = tmp11 + tmp20 tmp23 = tmp22 + tmp1 tmp24 = tmp22 < 0 tmp25 = tl.where(tmp24, tmp23, tmp22) tmp26 = tl.load(in_ptr2 + (tmp8 + 8 * tmp25 + 64 * x6), None, eviction_policy='evict_last') tmp27 = tmp26 + tmp10 tmp28 = tl.load(in_ptr2 + (tmp15 + 8 * tmp25 + 64 * x6), None, eviction_policy='evict_last') tmp29 = tmp28 + tmp10 tmp30 = tmp29 - tmp27 tmp31 = tmp30 * tmp19 tmp32 = tmp27 + tmp31 tmp33 = tmp32 - tmp21 tmp35 = tmp33 * tmp34 tmp36 = tmp21 + tmp35 tl.store(in_out_ptr0 + x4, tmp36, None) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(2, 2), padding=(1, 1), dilation=(1, 1), transposed=True, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 8, 8), (256, 64, 8, 1)) buf1 = empty_strided_cuda((16, 1), (1, 1), torch.int64) get_raw_stream(0) triton_poi_fused__to_copy_0[grid(16)](buf1, 16, XBLOCK=16, num_warps=1, num_stages=1) buf2 = empty_strided_cuda((16, 1), (1, 1), torch.int64) triton_poi_fused_add_clamp_1[grid(16)](buf2, 16, XBLOCK=16, num_warps=1, num_stages=1) buf3 = empty_strided_cuda((16,), (1,), torch.int64) triton_poi_fused__to_copy_0[grid(16)](buf3, 16, XBLOCK=16, num_warps=1, num_stages=1) buf4 = empty_strided_cuda((16,), (1,), torch.int64) triton_poi_fused_add_clamp_1[grid(16)](buf4, 16, XBLOCK=16, num_warps=1, num_stages=1) buf5 = empty_strided_cuda((16,), (1,), torch.float32) triton_poi_fused__to_copy_add_arange_clamp_mul_sub_2[grid(16)](buf5, 16, XBLOCK=16, num_warps=1, num_stages=1) buf7 = empty_strided_cuda((16, 1), (1, 1), torch.float32) triton_poi_fused__to_copy_add_arange_clamp_mul_sub_2[grid(16)](buf7, 16, XBLOCK=16, num_warps=1, num_stages=1) buf8 = empty_strided_cuda((4, 4, 16, 16), (1024, 256, 16, 1), torch .float32) buf9 = buf8 del buf8 triton_poi_fused__unsafe_index_add_convolution_mul_sub_3[grid(4096)]( buf9, buf1, buf3, buf0, primals_2, buf4, buf5, buf2, buf7, 4096, XBLOCK=128, num_warps=4, num_stages=1) del buf0 del primals_2 return buf9, primals_1, primals_3, buf1, buf2, buf3, buf4, buf5, buf7 class KeypointRCNNPredictorNew(nn.Module): def __init__(self, in_channels, num_keypoints): super(KeypointRCNNPredictorNew, self).__init__() input_features = in_channels deconv_kernel = 4 self.kps_score_lowres = nn.ConvTranspose2d(input_features, num_keypoints, deconv_kernel, stride=2, padding=deconv_kernel // 2 - 1) nn.init.kaiming_normal_(self.kps_score_lowres.weight, mode= 'fan_out', nonlinearity='relu') nn.init.constant_(self.kps_score_lowres.bias, 0) self.up_scale = 2 self.out_channels = num_keypoints def forward(self, input_0): primals_1 = self.kps_score_lowres.weight primals_2 = self.kps_score_lowres.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	Jack-XHP/LabPicV2-MaskRCNN	KeypointRCNNPredictor	false	9,163	[ "MIT" ]	b0586b2827000c7b7337d5110b2b1fd6185053a8	https://github.com/Jack-XHP/LabPicV2-MaskRCNN/tree/b0586b2827000c7b7337d5110b2b1fd6185053a8
TripletLoss	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/nx/cnxtyezl75wfr6t2zaqdqv5qqdeb6b6gcsnp74cxdtdwli6zk3bw.py # Topologically Sorted Source Nodes: [sub, pow_1, distance_positive, sub_1, pow_2, distance_negative, sub_2, add, losses, mean], Original ATen: [aten.sub, aten.pow, aten.sum, aten.add, aten.relu, aten.mean] # Source node to ATen node mapping: # add => add # distance_negative => sum_2 # distance_positive => sum_1 # losses => relu # mean => mean # pow_1 => pow_1 # pow_2 => pow_2 # sub => sub # sub_1 => sub_1 # sub_2 => sub_2 # Graph fragment: # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%arg0_1, %arg1_1), kwargs = {}) # %pow_1 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sub, 2), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%pow_1, [1]), kwargs = {}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%arg0_1, %arg2_1), kwargs = {}) # %pow_2 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sub_1, 2), kwargs = {}) # %sum_2 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%pow_2, [1]), kwargs = {}) # %sub_2 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%sum_1, %sum_2), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%sub_2, 0.2), kwargs = {}) # %relu : [num_users=1] = call_function[target=torch.ops.aten.relu.default](args = (%add,), kwargs = {}) # %mean : [num_users=1] = call_function[target=torch.ops.aten.mean.default](args = (%relu,), kwargs = {}) triton_per_fused_add_mean_pow_relu_sub_sum_0 = async_compile.triton('triton_per_fused_add_mean_pow_relu_sub_sum_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[1, 64], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32', 5: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {4: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 5), equal_to_1=(4,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_add_mean_pow_relu_sub_sum_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 12, 'num_reduction': 1, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_add_mean_pow_relu_sub_sum_0(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 1 rnumel = 64 RBLOCK: tl.constexpr = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) r0 = rindex % 16 r1 = (rindex // 16) r2 = rindex tmp0 = tl.load(in_ptr0 + (r0 + (64r1)), None) tmp1 = tl.load(in_ptr1 + (r0 + (64r1)), None) tmp4 = tl.load(in_ptr0 + (16 + r0 + (64r1)), None) tmp5 = tl.load(in_ptr1 + (16 + r0 + (64r1)), None) tmp9 = tl.load(in_ptr0 + (32 + r0 + (64r1)), None) tmp10 = tl.load(in_ptr1 + (32 + r0 + (64r1)), None) tmp14 = tl.load(in_ptr0 + (48 + r0 + (64r1)), None) tmp15 = tl.load(in_ptr1 + (48 + r0 + (64r1)), None) tmp19 = tl.load(in_ptr2 + (r0 + (64r1)), None) tmp22 = tl.load(in_ptr2 + (16 + r0 + (64r1)), None) tmp26 = tl.load(in_ptr2 + (32 + r0 + (64r1)), None) tmp30 = tl.load(in_ptr2 + (48 + r0 + (64r1)), None) tmp2 = tmp0 - tmp1 tmp3 = tmp2 * tmp2 tmp6 = tmp4 - tmp5 tmp7 = tmp6 * tmp6 tmp8 = tmp3 + tmp7 tmp11 = tmp9 - tmp10 tmp12 = tmp11 * tmp11 tmp13 = tmp8 + tmp12 tmp16 = tmp14 - tmp15 tmp17 = tmp16 * tmp16 tmp18 = tmp13 + tmp17 tmp20 = tmp0 - tmp19 tmp21 = tmp20 * tmp20 tmp23 = tmp4 - tmp22 tmp24 = tmp23 * tmp23 tmp25 = tmp21 + tmp24 tmp27 = tmp9 - tmp26 tmp28 = tmp27 * tmp27 tmp29 = tmp25 + tmp28 tmp31 = tmp14 - tmp30 tmp32 = tmp31 * tmp31 tmp33 = tmp29 + tmp32 tmp34 = tmp18 - tmp33 tmp35 = 0.2 tmp36 = tmp34 + tmp35 tmp37 = tl.full([1, 1], 0, tl.int32) tmp38 = triton_helpers.maximum(tmp37, tmp36) tmp39 = tl.broadcast_to(tmp38, [XBLOCK, RBLOCK]) tmp41 = tl.sum(tmp39, 1)[:, None] tmp42 = 64.0 tmp43 = tmp41 / tmp42 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([XBLOCK, 1], 0, tl.int32)), tmp43, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1, arg2_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg2_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf1 = empty_strided_cuda((), (), torch.float32) buf2 = buf1; del buf1 # reuse # Topologically Sorted Source Nodes: [sub, pow_1, distance_positive, sub_1, pow_2, distance_negative, sub_2, add, losses, mean], Original ATen: [aten.sub, aten.pow, aten.sum, aten.add, aten.relu, aten.mean] stream0 = get_raw_stream(0) triton_per_fused_add_mean_pow_relu_sub_sum_0.run(buf2, arg0_1, arg1_1, arg2_1, 1, 64, grid=grid(1), stream=stream0) del arg0_1 del arg1_1 del arg2_1 return (buf2, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg2_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1, arg2_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class TripletLoss(nn.Module): def __init__(self, alpha=0.2): super(TripletLoss, self).__init__() self.alpha = alpha def calc_euclidean(self, x1, x2): return (x1 - x2).pow(2).sum(1) def forward(self, anchor, positive, negative): distance_positive = self.calc_euclidean(anchor, positive) distance_negative = self.calc_euclidean(anchor, negative) losses = torch.relu(distance_positive - distance_negative + self.alpha) return losses.mean() def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4]), torch.rand( [4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_per_fused_add_mean_pow_relu_sub_sum_0(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, xnumel, rnumel, XBLOCK: tl.constexpr): RBLOCK: tl.constexpr = 64 xoffset = tl.program_id(0) * XBLOCK xoffset + tl.arange(0, XBLOCK)[:, None] tl.full([XBLOCK, RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[None, :] tl.full([XBLOCK, RBLOCK], True, tl.int1) r0 = rindex % 16 r1 = rindex // 16 tmp0 = tl.load(in_ptr0 + (r0 + 64 * r1), None) tmp1 = tl.load(in_ptr1 + (r0 + 64 * r1), None) tmp4 = tl.load(in_ptr0 + (16 + r0 + 64 * r1), None) tmp5 = tl.load(in_ptr1 + (16 + r0 + 64 * r1), None) tmp9 = tl.load(in_ptr0 + (32 + r0 + 64 * r1), None) tmp10 = tl.load(in_ptr1 + (32 + r0 + 64 * r1), None) tmp14 = tl.load(in_ptr0 + (48 + r0 + 64 * r1), None) tmp15 = tl.load(in_ptr1 + (48 + r0 + 64 * r1), None) tmp19 = tl.load(in_ptr2 + (r0 + 64 * r1), None) tmp22 = tl.load(in_ptr2 + (16 + r0 + 64 * r1), None) tmp26 = tl.load(in_ptr2 + (32 + r0 + 64 * r1), None) tmp30 = tl.load(in_ptr2 + (48 + r0 + 64 * r1), None) tmp2 = tmp0 - tmp1 tmp3 = tmp2 * tmp2 tmp6 = tmp4 - tmp5 tmp7 = tmp6 * tmp6 tmp8 = tmp3 + tmp7 tmp11 = tmp9 - tmp10 tmp12 = tmp11 * tmp11 tmp13 = tmp8 + tmp12 tmp16 = tmp14 - tmp15 tmp17 = tmp16 * tmp16 tmp18 = tmp13 + tmp17 tmp20 = tmp0 - tmp19 tmp21 = tmp20 * tmp20 tmp23 = tmp4 - tmp22 tmp24 = tmp23 * tmp23 tmp25 = tmp21 + tmp24 tmp27 = tmp9 - tmp26 tmp28 = tmp27 * tmp27 tmp29 = tmp25 + tmp28 tmp31 = tmp14 - tmp30 tmp32 = tmp31 * tmp31 tmp33 = tmp29 + tmp32 tmp34 = tmp18 - tmp33 tmp35 = 0.2 tmp36 = tmp34 + tmp35 tmp37 = tl.full([1, 1], 0, tl.int32) tmp38 = triton_helpers.maximum(tmp37, tmp36) tmp39 = tl.broadcast_to(tmp38, [XBLOCK, RBLOCK]) tmp41 = tl.sum(tmp39, 1)[:, None] tmp42 = 64.0 tmp43 = tmp41 / tmp42 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([XBLOCK, 1], 0, tl.int32), tmp43, None) def call(args): arg0_1, arg1_1, arg2_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg2_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf1 = empty_strided_cuda((), (), torch.float32) buf2 = buf1 del buf1 get_raw_stream(0) triton_per_fused_add_mean_pow_relu_sub_sum_0[grid(1)](buf2, arg0_1, arg1_1, arg2_1, 1, 64, XBLOCK=1, num_warps=2, num_stages=1) del arg0_1 del arg1_1 del arg2_1 return buf2, class TripletLossNew(nn.Module): def __init__(self, alpha=0.2): super(TripletLossNew, self).__init__() self.alpha = alpha def calc_euclidean(self, x1, x2): return (x1 - x2).pow(2).sum(1) def forward(self, input_0, input_1, input_2): arg0_1 = input_0 arg1_1 = input_1 arg2_1 = input_2 output = call([arg0_1, arg1_1, arg2_1]) return output[0]	Jovian-Dsouza/Avenger_FaceNet	TripletLoss	false	9,164	[ "Apache-2.0" ]	e8bdffd017c9c27d4dc0f347f6992f760f1af5db	https://github.com/Jovian-Dsouza/Avenger_FaceNet/tree/e8bdffd017c9c27d4dc0f347f6992f760f1af5db
LinearExcitability	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/bh/cbhpcgxjg3mwo4dulstw5ie26none2yzi5sysdzl34cu6pyah4fg.py # Topologically Sorted Source Nodes: [output_1], Original ATen: [aten.add, aten.view] # Source node to ATen node mapping: # output_1 => add, view_3 # Graph fragment: # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%view_1, %primals_2), kwargs = {}) # %view_3 : [num_users=1] = call_function[target=torch.ops.aten.reshape.default](args = (%view_2, [4, 4, 4, 4]), kwargs = {}) triton_poi_fused_add_view_0 = async_compile.triton('triton_poi_fused_add_view_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_view_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_view_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x4 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + (x4), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + (x4), tmp2, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [output], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf0) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf0 # reuse buf2 = buf1; del buf1 # reuse # Topologically Sorted Source Nodes: [output_1], Original ATen: [aten.add, aten.view] stream0 = get_raw_stream(0) triton_poi_fused_add_view_0.run(buf2, primals_2, 256, grid=grid(256), stream=stream0) del primals_2 return (buf2, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import math import torch from torch import nn from torch.nn.parameter import Parameter def linearExcitability(input, weight, excitability=None, bias=None): """Applies a linear transformation to the incoming data: :math:`y = c(xA^T) + b`. Shape: - input: :math:`(N, , in_features)` - weight: :math:`(out_features, in_features)` - excitability: :math:`(out_features)` - bias: :math:`(out_features)` - output: :math:`(N, , out_features)` (NOTE: `` means any number of additional dimensions)""" if excitability is not None: output = input.matmul(weight.t()) excitability else: output = input.matmul(weight.t()) if bias is not None: output += bias return output class LinearExcitability(nn.Module): """Module for a linear transformation with multiplicative excitability-parameter (i.e., learnable) and/or -buffer. Args: in_features: size of each input sample out_features: size of each output sample bias: if 'False', layer will not learn an additive bias-parameter (DEFAULT=True) excitability: if 'True', layer will learn a multiplicative excitability-parameter (DEFAULT=False) excit_buffer: if 'True', layer will have excitability-buffer whose value can be set (DEFAULT=False) Shape: - input: :math:`(N, , in_features)` where `` means any number of additional dimensions - output: :math:`(N, , out_features)` where all but the last dimension are the same shape as the input. Attributes: weight: the learnable weights of the module of shape (out_features x in_features) excitability: the learnable multiplication terms (out_features) bias: the learnable bias of the module of shape (out_features) excit_buffer: fixed multiplication variable (out_features)""" def __init__(self, in_features, out_features, bias=True, excitability= False, excit_buffer=False): super(LinearExcitability, self).__init__() self.in_features = in_features self.out_features = out_features self.weight = Parameter(torch.Tensor(out_features, in_features)) if excitability: self.excitability = Parameter(torch.Tensor(out_features)) else: self.register_parameter('excitability', None) if bias: self.bias = Parameter(torch.Tensor(out_features)) else: self.register_parameter('bias', None) if excit_buffer: buffer = torch.Tensor(out_features).uniform_(1, 1) self.register_buffer('excit_buffer', buffer) else: self.register_buffer('excit_buffer', None) self.reset_parameters() def reset_parameters(self): """Modifies the parameters "in-place" to initialize / reset them at appropriate values.""" stdv = 1.0 / math.sqrt(self.weight.size(1)) self.weight.data.uniform_(-stdv, stdv) if self.excitability is not None: self.excitability.data.uniform_(1, 1) if self.bias is not None: self.bias.data.uniform_(-stdv, stdv) def forward(self, input): """Running this model's forward step requires/returns: -[input]: [batch_size]x[...]x[in_features] -[output]: [batch_size]x[...]x[hidden_features]""" if self.excit_buffer is None: excitability = self.excitability elif self.excitability is None: excitability = self.excit_buffer else: excitability = self.excitability self.excit_buffer return linearExcitability(input, self.weight, excitability, self.bias) def __repr__(self): return self.__class__.__name__ + '(' + 'in_features=' + str(self. in_features) + ', out_features=' + str(self.out_features) + ')' def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'in_features': 4, 'out_features': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import math from torch import nn from torch.nn.parameter import Parameter assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_add_view_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x4 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + x4, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + x4, tmp2, xmask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf0) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf0 buf2 = buf1 del buf1 get_raw_stream(0) triton_poi_fused_add_view_0[grid(256)](buf2, primals_2, 256, XBLOCK =128, num_warps=4, num_stages=1) del primals_2 return buf2, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0) def linearExcitability(input, weight, excitability=None, bias=None): """Applies a linear transformation to the incoming data: :math:`y = c(xA^T) + b`. Shape: - input: :math:`(N, , in_features)` - weight: :math:`(out_features, in_features)` - excitability: :math:`(out_features)` - bias: :math:`(out_features)` - output: :math:`(N, , out_features)` (NOTE: `` means any number of additional dimensions)""" if excitability is not None: output = input.matmul(weight.t()) excitability else: output = input.matmul(weight.t()) if bias is not None: output += bias return output class LinearExcitabilityNew(nn.Module): """Module for a linear transformation with multiplicative excitability-parameter (i.e., learnable) and/or -buffer. Args: in_features: size of each input sample out_features: size of each output sample bias: if 'False', layer will not learn an additive bias-parameter (DEFAULT=True) excitability: if 'True', layer will learn a multiplicative excitability-parameter (DEFAULT=False) excit_buffer: if 'True', layer will have excitability-buffer whose value can be set (DEFAULT=False) Shape: - input: :math:`(N, , in_features)` where `` means any number of additional dimensions - output: :math:`(N, *, out_features)` where all but the last dimension are the same shape as the input. Attributes: weight: the learnable weights of the module of shape (out_features x in_features) excitability: the learnable multiplication terms (out_features) bias: the learnable bias of the module of shape (out_features) excit_buffer: fixed multiplication variable (out_features)""" def __init__(self, in_features, out_features, bias=True, excitability= False, excit_buffer=False): super(LinearExcitabilityNew, self).__init__() self.in_features = in_features self.out_features = out_features self.weight = Parameter(torch.Tensor(out_features, in_features)) if excitability: self.excitability = Parameter(torch.Tensor(out_features)) else: self.register_parameter('excitability', None) if bias: self.bias = Parameter(torch.Tensor(out_features)) else: self.register_parameter('bias', None) if excit_buffer: buffer = torch.Tensor(out_features).uniform_(1, 1) self.register_buffer('excit_buffer', buffer) else: self.register_buffer('excit_buffer', None) self.reset_parameters() def reset_parameters(self): """Modifies the parameters "in-place" to initialize / reset them at appropriate values.""" stdv = 1.0 / math.sqrt(self.weight.size(1)) self.weight.data.uniform_(-stdv, stdv) if self.excitability is not None: self.excitability.data.uniform_(1, 1) if self.bias is not None: self.bias.data.uniform_(-stdv, stdv) def __repr__(self): return self.__class__.__name__ + '(' + 'in_features=' + str(self. in_features) + ', out_features=' + str(self.out_features) + ')' def forward(self, input_0): primals_1 = self.weight primals_2 = self.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	JosephKJ/continual-learning	LinearExcitability	false	9,165	[ "MIT" ]	2e526cc58ab35d76cddc1df46ee421baea89a727	https://github.com/JosephKJ/continual-learning/tree/2e526cc58ab35d76cddc1df46ee421baea89a727
MultiHeadedAttention	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/dk/cdk4odz276xorciau5ehgl7f3s2mgkf3hrye6xep6kzubczdeqqy.py # Topologically Sorted Source Nodes: [matmul], Original ATen: [aten.clone] # Source node to ATen node mapping: # matmul => clone # Graph fragment: # %clone : [num_users=1] = call_function[target=torch.ops.aten.clone.default](args = (%expand,), kwargs = {memory_format: torch.contiguous_format}) triton_poi_fused_clone_0 = async_compile.triton('triton_poi_fused_clone_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16, 4], tile_hint=TileHint.DEFAULT, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_clone_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_clone_0(in_ptr0, in_ptr1, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 16 xnumel = 4 yoffset = tl.program_id(1) YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y0 = yindex % 4 y1 = (yindex // 4) y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + (4x2) + (16y1)), xmask & ymask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (y0), ymask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(out_ptr0 + (x2 + (4y3)), tmp2, xmask & ymask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/bs/cbsluabtq7ll426nybkislhh3cajm6f7ggrxam362hohynwnvtk6.py # Topologically Sorted Source Nodes: [mask], Original ATen: [aten.eq] # Source node to ATen node mapping: # mask => eq # Graph fragment: # %eq : [num_users=3] = call_function[target=torch.ops.aten.eq.Scalar](args = (%unsqueeze, 0), kwargs = {}) triton_poi_fused_eq_1 = async_compile.triton('triton_poi_fused_eq_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'i1', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_eq_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_eq_1(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = 0.0 tmp2 = tmp0 == tmp1 tl.store(out_ptr0 + (x0), tmp2, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/2m/c2mqa6egkdg5wothwstp4t4dtvjgjekw5mx5ldieie6krs4bxolb.py # Topologically Sorted Source Nodes: [scores, scores_1, softmax], Original ATen: [aten.div, aten.masked_fill, aten._softmax] # Source node to ATen node mapping: # scores => div # scores_1 => full_default, where # softmax => amax, exp, sub, sum_1 # Graph fragment: # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%view_11, 1.0), kwargs = {}) # %full_default : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], -inf), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%eq, %full_default, %div), kwargs = {}) # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%where, [-1], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%where, %amax), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub,), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp, [-1], True), kwargs = {}) triton_poi_fused__softmax_div_masked_fill_2 = async_compile.triton('triton_poi_fused__softmax_div_masked_fill_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'i1', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_div_masked_fill_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 8, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_div_masked_fill_2(in_ptr0, in_ptr1, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x2 = (xindex // 16) x3 = xindex tmp0 = tl.load(in_ptr0 + ((4x0) + (16x2)), xmask, eviction_policy='evict_last').to(tl.int1) tmp1 = tl.load(in_ptr1 + (4x3), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (1 + (4x0) + (16x2)), xmask, eviction_policy='evict_last').to(tl.int1) tmp7 = tl.load(in_ptr1 + (1 + (4x3)), xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr0 + (2 + (4x0) + (16x2)), xmask, eviction_policy='evict_last').to(tl.int1) tmp12 = tl.load(in_ptr1 + (2 + (4x3)), xmask, eviction_policy='evict_last') tmp16 = tl.load(in_ptr0 + (3 + (4x0) + (16x2)), xmask, eviction_policy='evict_last').to(tl.int1) tmp17 = tl.load(in_ptr1 + (3 + (4x3)), xmask, eviction_policy='evict_last') tmp2 = 1.0 tmp3 = tmp1 * tmp2 tmp4 = float("-inf") tmp5 = tl.where(tmp0, tmp4, tmp3) tmp8 = tmp7 * tmp2 tmp9 = tl.where(tmp6, tmp4, tmp8) tmp10 = triton_helpers.maximum(tmp5, tmp9) tmp13 = tmp12 * tmp2 tmp14 = tl.where(tmp11, tmp4, tmp13) tmp15 = triton_helpers.maximum(tmp10, tmp14) tmp18 = tmp17 * tmp2 tmp19 = tl.where(tmp16, tmp4, tmp18) tmp20 = triton_helpers.maximum(tmp15, tmp19) tmp21 = tmp5 - tmp20 tmp22 = tl_math.exp(tmp21) tmp23 = tmp9 - tmp20 tmp24 = tl_math.exp(tmp23) tmp25 = tmp22 + tmp24 tmp26 = tmp14 - tmp20 tmp27 = tl_math.exp(tmp26) tmp28 = tmp25 + tmp27 tmp29 = tmp19 - tmp20 tmp30 = tl_math.exp(tmp29) tmp31 = tmp28 + tmp30 tl.store(out_ptr0 + (x3), tmp20, xmask) tl.store(out_ptr1 + (x3), tmp31, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/qh/cqhmiexfxtu22w5zckygdewcq6zc6ji4wfscqj2genrriihibfdb.py # Topologically Sorted Source Nodes: [scores, scores_1, softmax, attn], Original ATen: [aten.div, aten.masked_fill, aten._softmax] # Source node to ATen node mapping: # attn => full_default_1, where_1 # scores => div # scores_1 => full_default, where # softmax => amax, div_1, exp, sub # Graph fragment: # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%view_11, 1.0), kwargs = {}) # %full_default : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], -inf), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%eq, %full_default, %div), kwargs = {}) # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%where, [-1], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%where, %amax), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub,), kwargs = {}) # %div_1 : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp, %sum_1), kwargs = {}) # %full_default_1 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where_1 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%eq, %full_default_1, %div_1), kwargs = {}) triton_poi_fused__softmax_div_masked_fill_3 = async_compile.triton('triton_poi_fused__softmax_div_masked_fill_3', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'i1', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_div_masked_fill_3', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_div_masked_fill_3(in_ptr0, in_ptr1, in_ptr2, in_ptr3, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = (xindex // 64) x4 = xindex % 16 x5 = xindex x6 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (x4 + (16x3)), xmask, eviction_policy='evict_last').to(tl.int1) tmp1 = tl.load(in_ptr1 + (x5), xmask) tmp6 = tl.load(in_ptr2 + (x6), xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr3 + (x6), xmask, eviction_policy='evict_last') tmp2 = 1.0 tmp3 = tmp1 tmp2 tmp4 = float("-inf") tmp5 = tl.where(tmp0, tmp4, tmp3) tmp7 = tmp5 - tmp6 tmp8 = tl_math.exp(tmp7) tmp10 = tmp8 / tmp9 tmp11 = 0.0 tmp12 = tl.where(tmp0, tmp11, tmp10) tl.store(out_ptr0 + (x5), tmp12, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/6t/c6t5a5ere3lqjiu7zh3uu4oxmpdoujdaqqmeunxqapgzo4m74uav.py # Topologically Sorted Source Nodes: [contiguous], Original ATen: [aten.clone] # Source node to ATen node mapping: # contiguous => clone_4 # Graph fragment: # %clone_4 : [num_users=1] = call_function[target=torch.ops.aten.clone.default](args = (%permute_7,), kwargs = {memory_format: torch.contiguous_format}) triton_poi_fused_clone_4 = async_compile.triton('triton_poi_fused_clone_4', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16, 4], tile_hint=TileHint.SQUARE, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_clone_4', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_clone_4(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 16 xnumel = 4 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y0 = yindex % 4 y1 = (yindex // 4) y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + (4x2) + (16y1)), xmask & ymask, eviction_policy='evict_last') tl.store(out_ptr0 + (x2 + (4*y3)), tmp0, xmask & ymask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12 = args args.clear() assert_size_stride(primals_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_2, (4, 4), (4, 1)) assert_size_stride(primals_3, (4, ), (1, )) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (4, ), (1, )) assert_size_stride(primals_6, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_7, (4, 4), (4, 1)) assert_size_stride(primals_8, (4, ), (1, )) assert_size_stride(primals_9, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_10, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_11, (4, 4), (4, 1)) assert_size_stride(primals_12, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((16, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_1, (16, 4), (4, 1), 0), reinterpret_tensor(primals_2, (4, 4), (1, 4), 0), out=buf0) del primals_2 buf1 = empty_strided_cuda((16, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_6, (16, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), out=buf1) del primals_4 buf2 = empty_strided_cuda((16, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_9, (16, 4), (4, 1), 0), reinterpret_tensor(primals_7, (4, 4), (1, 4), 0), out=buf2) del primals_7 buf3 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 1), torch.float32) # Topologically Sorted Source Nodes: [matmul], Original ATen: [aten.clone] stream0 = get_raw_stream(0) triton_poi_fused_clone_0.run(buf0, primals_3, buf3, 16, 4, grid=grid(16, 4), stream=stream0) del primals_3 buf4 = reinterpret_tensor(buf0, (4, 4, 1, 4), (16, 4, 4, 1), 0); del buf0 # reuse # Topologically Sorted Source Nodes: [matmul], Original ATen: [aten.clone] triton_poi_fused_clone_0.run(buf1, primals_5, buf4, 16, 4, grid=grid(16, 4), stream=stream0) del primals_5 buf5 = empty_strided_cuda((16, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [matmul], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf3, (16, 4, 1), (4, 1, 0), 0), reinterpret_tensor(buf4, (16, 1, 4), (4, 0, 1), 0), out=buf5) buf6 = empty_strided_cuda((4, 1, 4, 4), (16, 16, 4, 1), torch.bool) # Topologically Sorted Source Nodes: [mask], Original ATen: [aten.eq] triton_poi_fused_eq_1.run(primals_10, buf6, 64, grid=grid(64), stream=stream0) del primals_10 buf7 = reinterpret_tensor(buf1, (4, 4, 4, 1), (16, 4, 1, 64), 0); del buf1 # reuse buf8 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 64), torch.float32) # Topologically Sorted Source Nodes: [scores, scores_1, softmax], Original ATen: [aten.div, aten.masked_fill, aten._softmax] triton_poi_fused__softmax_div_masked_fill_2.run(buf6, buf5, buf7, buf8, 64, grid=grid(64), stream=stream0) buf9 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [scores, scores_1, softmax, attn], Original ATen: [aten.div, aten.masked_fill, aten._softmax] triton_poi_fused__softmax_div_masked_fill_3.run(buf6, buf5, buf7, buf8, buf9, 256, grid=grid(256), stream=stream0) buf10 = reinterpret_tensor(buf8, (4, 4, 4, 1), (16, 4, 1, 1), 0); del buf8 # reuse # Topologically Sorted Source Nodes: [x], Original ATen: [aten.clone] triton_poi_fused_clone_0.run(buf2, primals_8, buf10, 16, 4, grid=grid(16, 4), stream=stream0) del primals_8 buf11 = reinterpret_tensor(buf2, (16, 4, 1), (4, 1, 1), 0); del buf2 # reuse # Topologically Sorted Source Nodes: [x], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf9, (16, 4, 4), (16, 4, 1), 0), reinterpret_tensor(buf10, (16, 4, 1), (4, 1, 0), 0), out=buf11) buf12 = reinterpret_tensor(buf7, (4, 4, 4, 1), (16, 4, 1, 1), 0); del buf7 # reuse # Topologically Sorted Source Nodes: [contiguous], Original ATen: [aten.clone] triton_poi_fused_clone_4.run(buf11, buf12, 16, 4, grid=grid(16, 4), stream=stream0) buf13 = reinterpret_tensor(buf11, (16, 4), (4, 1), 0); del buf11 # reuse # Topologically Sorted Source Nodes: [linear_3], Original ATen: [aten.addmm] extern_kernels.addmm(primals_12, reinterpret_tensor(buf12, (16, 4), (4, 1), 0), reinterpret_tensor(primals_11, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf13) del primals_12 return (reinterpret_tensor(buf13, (4, 4, 4), (16, 4, 1), 0), reinterpret_tensor(primals_1, (16, 4), (4, 1), 0), reinterpret_tensor(primals_6, (16, 4), (4, 1), 0), reinterpret_tensor(primals_9, (16, 4), (4, 1), 0), buf5, buf6, reinterpret_tensor(buf12, (16, 4), (4, 1), 0), primals_11, reinterpret_tensor(buf9, (16, 4, 4), (16, 1, 4), 0), reinterpret_tensor(buf10, (16, 1, 4), (4, 1, 1), 0), reinterpret_tensor(buf3, (16, 1, 4), (4, 1, 1), 0), reinterpret_tensor(buf4, (16, 4, 1), (4, 1, 4), 0), ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_10 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_11 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_12 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import math import torch from typing import Optional from typing import Tuple from torch import nn class MultiHeadedAttention(nn.Module): """Multi-Head Attention layer. Args: n_head (int): The number of heads. n_feat (int): The number of features. dropout_rate (float): Dropout rate. """ def __init__(self, n_head: 'int', n_feat: 'int', dropout_rate: 'float'): """Construct an MultiHeadedAttention object.""" super().__init__() assert n_feat % n_head == 0 self.d_k = n_feat // n_head self.h = n_head self.linear_q = nn.Linear(n_feat, n_feat) self.linear_k = nn.Linear(n_feat, n_feat) self.linear_v = nn.Linear(n_feat, n_feat) self.linear_out = nn.Linear(n_feat, n_feat) self.dropout = nn.Dropout(p=dropout_rate) def forward_qkv(self, query: 'torch.Tensor', key: 'torch.Tensor', value: 'torch.Tensor') ->Tuple[torch.Tensor, torch.Tensor, torch.Tensor]: """Transform query, key and value. Args: query (torch.Tensor): Query tensor (#batch, time1, size). key (torch.Tensor): Key tensor (#batch, time2, size). value (torch.Tensor): Value tensor (#batch, time2, size). Returns: torch.Tensor: Transformed query tensor, size (#batch, n_head, time1, d_k). torch.Tensor: Transformed key tensor, size (#batch, n_head, time2, d_k). torch.Tensor: Transformed value tensor, size (#batch, n_head, time2, d_k). """ n_batch = query.size(0) q = self.linear_q(query).view(n_batch, -1, self.h, self.d_k) k = self.linear_k(key).view(n_batch, -1, self.h, self.d_k) v = self.linear_v(value).view(n_batch, -1, self.h, self.d_k) q = q.transpose(1, 2) k = k.transpose(1, 2) v = v.transpose(1, 2) return q, k, v def forward_attention(self, value: 'torch.Tensor', scores: 'torch.Tensor', mask: 'Optional[torch.Tensor]') ->torch.Tensor: """Compute attention context vector. Args: value (torch.Tensor): Transformed value, size (#batch, n_head, time2, d_k). scores (torch.Tensor): Attention score, size (#batch, n_head, time1, time2). mask (torch.Tensor): Mask, size (#batch, 1, time2) or (#batch, time1, time2). Returns: torch.Tensor: Transformed value (#batch, time1, d_model) weighted by the attention score (#batch, time1, time2). """ n_batch = value.size(0) if mask is not None: mask = mask.unsqueeze(1).eq(0) scores = scores.masked_fill(mask, -float('inf')) attn = torch.softmax(scores, dim=-1).masked_fill(mask, 0.0) else: attn = torch.softmax(scores, dim=-1) p_attn = self.dropout(attn) x = torch.matmul(p_attn, value) x = x.transpose(1, 2).contiguous().view(n_batch, -1, self.h * self.d_k) return self.linear_out(x) def forward(self, query: 'torch.Tensor', key: 'torch.Tensor', value: 'torch.Tensor', mask: 'Optional[torch.Tensor]', pos_emb: 'torch.Tensor'=torch.empty(0)) ->torch.Tensor: """Compute scaled dot product attention. Args: query (torch.Tensor): Query tensor (#batch, time1, size). key (torch.Tensor): Key tensor (#batch, time2, size). value (torch.Tensor): Value tensor (#batch, time2, size). mask (torch.Tensor): Mask tensor (#batch, 1, time2) or (#batch, time1, time2). 1.When applying cross attention between decoder and encoder, the batch padding mask for input is in (#batch, 1, T) shape. 2.When applying self attention of encoder, the mask is in (#batch, T, T) shape. 3.When applying self attention of decoder, the mask is in (#batch, L, L) shape. 4.If the different position in decoder see different block of the encoder, such as Mocha, the passed in mask could be in (#batch, L, T) shape. But there is no such case in current Wenet. Returns: torch.Tensor: Output tensor (#batch, time1, d_model). """ q, k, v = self.forward_qkv(query, key, value) scores = torch.matmul(q, k.transpose(-2, -1)) / math.sqrt(self.d_k) return self.forward_attention(v, scores, mask) def get_inputs(): return [torch.rand([4, 4, 4]), torch.rand([4, 4, 4]), torch.rand([4, 4, 4]), torch.rand([4, 4, 4])] def get_init_inputs(): return [[], {'n_head': 4, 'n_feat': 4, 'dropout_rate': 0.5}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math from typing import Optional from typing import Tuple from torch import nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_clone_0(in_ptr0, in_ptr1, out_ptr0, ynumel, xnumel, YBLOCK: tl.constexpr, XBLOCK: tl.constexpr): ynumel = 16 xnumel = 4 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y0 = yindex % 4 y1 = yindex // 4 y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + 4 * x2 + 16 * y1), xmask & ymask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + y0, ymask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(out_ptr0 + (x2 + 4 * y3), tmp2, xmask & ymask) @triton.jit def triton_poi_fused_eq_1(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = 0.0 tmp2 = tmp0 == tmp1 tl.store(out_ptr0 + x0, tmp2, xmask) @triton.jit def triton_poi_fused__softmax_div_masked_fill_2(in_ptr0, in_ptr1, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x2 = xindex // 16 x3 = xindex tmp0 = tl.load(in_ptr0 + (4 * x0 + 16 * x2), xmask, eviction_policy= 'evict_last').to(tl.int1) tmp1 = tl.load(in_ptr1 + 4 * x3, xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (1 + 4 * x0 + 16 * x2), xmask, eviction_policy ='evict_last').to(tl.int1) tmp7 = tl.load(in_ptr1 + (1 + 4 * x3), xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr0 + (2 + 4 * x0 + 16 * x2), xmask, eviction_policy='evict_last').to(tl.int1) tmp12 = tl.load(in_ptr1 + (2 + 4 * x3), xmask, eviction_policy='evict_last' ) tmp16 = tl.load(in_ptr0 + (3 + 4 * x0 + 16 * x2), xmask, eviction_policy='evict_last').to(tl.int1) tmp17 = tl.load(in_ptr1 + (3 + 4 * x3), xmask, eviction_policy='evict_last' ) tmp2 = 1.0 tmp3 = tmp1 * tmp2 tmp4 = float('-inf') tmp5 = tl.where(tmp0, tmp4, tmp3) tmp8 = tmp7 * tmp2 tmp9 = tl.where(tmp6, tmp4, tmp8) tmp10 = triton_helpers.maximum(tmp5, tmp9) tmp13 = tmp12 * tmp2 tmp14 = tl.where(tmp11, tmp4, tmp13) tmp15 = triton_helpers.maximum(tmp10, tmp14) tmp18 = tmp17 * tmp2 tmp19 = tl.where(tmp16, tmp4, tmp18) tmp20 = triton_helpers.maximum(tmp15, tmp19) tmp21 = tmp5 - tmp20 tmp22 = tl_math.exp(tmp21) tmp23 = tmp9 - tmp20 tmp24 = tl_math.exp(tmp23) tmp25 = tmp22 + tmp24 tmp26 = tmp14 - tmp20 tmp27 = tl_math.exp(tmp26) tmp28 = tmp25 + tmp27 tmp29 = tmp19 - tmp20 tmp30 = tl_math.exp(tmp29) tmp31 = tmp28 + tmp30 tl.store(out_ptr0 + x3, tmp20, xmask) tl.store(out_ptr1 + x3, tmp31, xmask) @triton.jit def triton_poi_fused__softmax_div_masked_fill_3(in_ptr0, in_ptr1, in_ptr2, in_ptr3, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex // 64 x4 = xindex % 16 x5 = xindex x6 = xindex // 4 tmp0 = tl.load(in_ptr0 + (x4 + 16 * x3), xmask, eviction_policy= 'evict_last').to(tl.int1) tmp1 = tl.load(in_ptr1 + x5, xmask) tmp6 = tl.load(in_ptr2 + x6, xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr3 + x6, xmask, eviction_policy='evict_last') tmp2 = 1.0 tmp3 = tmp1 * tmp2 tmp4 = float('-inf') tmp5 = tl.where(tmp0, tmp4, tmp3) tmp7 = tmp5 - tmp6 tmp8 = tl_math.exp(tmp7) tmp10 = tmp8 / tmp9 tmp11 = 0.0 tmp12 = tl.where(tmp0, tmp11, tmp10) tl.store(out_ptr0 + x5, tmp12, xmask) @triton.jit def triton_poi_fused_clone_4(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK: tl. constexpr, XBLOCK: tl.constexpr): ynumel = 16 xnumel = 4 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y0 = yindex % 4 y1 = yindex // 4 y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + 4 * x2 + 16 * y1), xmask & ymask, eviction_policy='evict_last') tl.store(out_ptr0 + (x2 + 4 * y3), tmp0, xmask & ymask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12 ) = args args.clear() assert_size_stride(primals_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_2, (4, 4), (4, 1)) assert_size_stride(primals_3, (4,), (1,)) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (4,), (1,)) assert_size_stride(primals_6, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_7, (4, 4), (4, 1)) assert_size_stride(primals_8, (4,), (1,)) assert_size_stride(primals_9, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_10, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_11, (4, 4), (4, 1)) assert_size_stride(primals_12, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((16, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_1, (16, 4), (4, 1), 0), reinterpret_tensor(primals_2, (4, 4), (1, 4), 0), out=buf0) del primals_2 buf1 = empty_strided_cuda((16, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_6, (16, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), out=buf1) del primals_4 buf2 = empty_strided_cuda((16, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_9, (16, 4), (4, 1), 0), reinterpret_tensor(primals_7, (4, 4), (1, 4), 0), out=buf2) del primals_7 buf3 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 1), torch.float32) get_raw_stream(0) triton_poi_fused_clone_0[grid(16, 4)](buf0, primals_3, buf3, 16, 4, XBLOCK=4, YBLOCK=8, num_warps=1, num_stages=1) del primals_3 buf4 = reinterpret_tensor(buf0, (4, 4, 1, 4), (16, 4, 4, 1), 0) del buf0 triton_poi_fused_clone_0[grid(16, 4)](buf1, primals_5, buf4, 16, 4, XBLOCK=4, YBLOCK=8, num_warps=1, num_stages=1) del primals_5 buf5 = empty_strided_cuda((16, 4, 4), (16, 4, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf3, (16, 4, 1), (4, 1, 0), 0), reinterpret_tensor(buf4, (16, 1, 4), (4, 0, 1), 0), out=buf5) buf6 = empty_strided_cuda((4, 1, 4, 4), (16, 16, 4, 1), torch.bool) triton_poi_fused_eq_1[grid(64)](primals_10, buf6, 64, XBLOCK=64, num_warps=1, num_stages=1) del primals_10 buf7 = reinterpret_tensor(buf1, (4, 4, 4, 1), (16, 4, 1, 64), 0) del buf1 buf8 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 64), torch.float32) triton_poi_fused__softmax_div_masked_fill_2[grid(64)](buf6, buf5, buf7, buf8, 64, XBLOCK=64, num_warps=1, num_stages=1) buf9 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) triton_poi_fused__softmax_div_masked_fill_3[grid(256)](buf6, buf5, buf7, buf8, buf9, 256, XBLOCK=256, num_warps=4, num_stages=1) buf10 = reinterpret_tensor(buf8, (4, 4, 4, 1), (16, 4, 1, 1), 0) del buf8 triton_poi_fused_clone_0[grid(16, 4)](buf2, primals_8, buf10, 16, 4, XBLOCK=4, YBLOCK=8, num_warps=1, num_stages=1) del primals_8 buf11 = reinterpret_tensor(buf2, (16, 4, 1), (4, 1, 1), 0) del buf2 extern_kernels.bmm(reinterpret_tensor(buf9, (16, 4, 4), (16, 4, 1), 0), reinterpret_tensor(buf10, (16, 4, 1), (4, 1, 0), 0), out=buf11) buf12 = reinterpret_tensor(buf7, (4, 4, 4, 1), (16, 4, 1, 1), 0) del buf7 triton_poi_fused_clone_4[grid(16, 4)](buf11, buf12, 16, 4, XBLOCK=4, YBLOCK=16, num_warps=1, num_stages=1) buf13 = reinterpret_tensor(buf11, (16, 4), (4, 1), 0) del buf11 extern_kernels.addmm(primals_12, reinterpret_tensor(buf12, (16, 4), (4, 1), 0), reinterpret_tensor(primals_11, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf13) del primals_12 return reinterpret_tensor(buf13, (4, 4, 4), (16, 4, 1), 0 ), reinterpret_tensor(primals_1, (16, 4), (4, 1), 0 ), reinterpret_tensor(primals_6, (16, 4), (4, 1), 0 ), reinterpret_tensor(primals_9, (16, 4), (4, 1), 0 ), buf5, buf6, reinterpret_tensor(buf12, (16, 4), (4, 1), 0 ), primals_11, reinterpret_tensor(buf9, (16, 4, 4), (16, 1, 4), 0 ), reinterpret_tensor(buf10, (16, 1, 4), (4, 1, 1), 0 ), reinterpret_tensor(buf3, (16, 1, 4), (4, 1, 1), 0 ), reinterpret_tensor(buf4, (16, 4, 1), (4, 1, 4), 0) class MultiHeadedAttentionNew(nn.Module): """Multi-Head Attention layer. Args: n_head (int): The number of heads. n_feat (int): The number of features. dropout_rate (float): Dropout rate. """ def __init__(self, n_head: 'int', n_feat: 'int', dropout_rate: 'float'): """Construct an MultiHeadedAttention object.""" super().__init__() assert n_feat % n_head == 0 self.d_k = n_feat // n_head self.h = n_head self.linear_q = nn.Linear(n_feat, n_feat) self.linear_k = nn.Linear(n_feat, n_feat) self.linear_v = nn.Linear(n_feat, n_feat) self.linear_out = nn.Linear(n_feat, n_feat) self.dropout = nn.Dropout(p=dropout_rate) def forward_qkv(self, query: 'torch.Tensor', key: 'torch.Tensor', value: 'torch.Tensor') ->Tuple[torch.Tensor, torch.Tensor, torch.Tensor]: """Transform query, key and value. Args: query (torch.Tensor): Query tensor (#batch, time1, size). key (torch.Tensor): Key tensor (#batch, time2, size). value (torch.Tensor): Value tensor (#batch, time2, size). Returns: torch.Tensor: Transformed query tensor, size (#batch, n_head, time1, d_k). torch.Tensor: Transformed key tensor, size (#batch, n_head, time2, d_k). torch.Tensor: Transformed value tensor, size (#batch, n_head, time2, d_k). """ n_batch = query.size(0) q = self.linear_q(query).view(n_batch, -1, self.h, self.d_k) k = self.linear_k(key).view(n_batch, -1, self.h, self.d_k) v = self.linear_v(value).view(n_batch, -1, self.h, self.d_k) q = q.transpose(1, 2) k = k.transpose(1, 2) v = v.transpose(1, 2) return q, k, v def forward_attention(self, value: 'torch.Tensor', scores: 'torch.Tensor', mask: 'Optional[torch.Tensor]') ->torch.Tensor: """Compute attention context vector. Args: value (torch.Tensor): Transformed value, size (#batch, n_head, time2, d_k). scores (torch.Tensor): Attention score, size (#batch, n_head, time1, time2). mask (torch.Tensor): Mask, size (#batch, 1, time2) or (#batch, time1, time2). Returns: torch.Tensor: Transformed value (#batch, time1, d_model) weighted by the attention score (#batch, time1, time2). """ n_batch = value.size(0) if mask is not None: mask = mask.unsqueeze(1).eq(0) scores = scores.masked_fill(mask, -float('inf')) attn = torch.softmax(scores, dim=-1).masked_fill(mask, 0.0) else: attn = torch.softmax(scores, dim=-1) p_attn = self.dropout(attn) x = torch.matmul(p_attn, value) x = x.transpose(1, 2).contiguous().view(n_batch, -1, self.h * self.d_k) return self.linear_out(x) def forward(self, input_0, input_1, input_2, input_3): primals_2 = self.linear_q.weight primals_3 = self.linear_q.bias primals_4 = self.linear_k.weight primals_5 = self.linear_k.bias primals_7 = self.linear_v.weight primals_8 = self.linear_v.bias primals_11 = self.linear_out.weight primals_12 = self.linear_out.bias primals_1 = input_0 primals_6 = input_1 primals_9 = input_2 primals_10 = input_3 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12]) return output[0]	JJoving/wenet	MultiHeadedAttention	false	9,166	[ "Apache-2.0" ]	4a2195744dba43fe4fb9ad8d46a2b90a80dbdc4e	https://github.com/JJoving/wenet/tree/4a2195744dba43fe4fb9ad8d46a2b90a80dbdc4e
BaselineTokenCNN	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/yg/cyge6ojojm2qnyyngiu3f5rvykknswusrixpxcv6slv5fkqxwlfv.py # Topologically Sorted Source Nodes: [conv2d, relu], Original ATen: [aten.convolution, aten.relu] # Source node to ATen node mapping: # conv2d => convolution # relu => relu # Graph fragment: # %convolution : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_1, %primals_2, %primals_3, [1, 1], [0, 0], [1, 1], False, [0, 0], 1), kwargs = {}) # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution,), kwargs = {}) triton_poi_fused_convolution_relu_0 = async_compile.triton('triton_poi_fused_convolution_relu_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[131072], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_relu_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_relu_0(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 129600 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 8100) % 4 x0 = xindex % 8100 x4 = (xindex // 8100) tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr1 + (x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(out_ptr0 + (x0 + (8128x4)), tmp4, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/65/c65pialgtrgxj3owxaexjto2g4iufswskw73fsxrtztfdkssn7br.py # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.max_pool2d_with_indices] # Source node to ATen node mapping: # x_1 => getitem, getitem_1 # Graph fragment: # %getitem : [num_users=2] = call_function[target=operator.getitem](args = (%_low_memory_max_pool2d_with_offsets, 0), kwargs = {}) # %getitem_1 : [num_users=1] = call_function[target=operator.getitem](args = (%_low_memory_max_pool2d_with_offsets, 1), kwargs = {}) triton_poi_fused_max_pool2d_with_indices_1 = async_compile.triton('triton_poi_fused_max_pool2d_with_indices_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[32768], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i8', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_max_pool2d_with_indices_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_max_pool2d_with_indices_1(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 32400 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 45 x1 = (xindex // 45) % 45 x2 = (xindex // 2025) x3 = xindex % 2025 tmp0 = tl.load(in_ptr0 + ((2x0) + (180x1) + (8128x2)), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + (2x0) + (180x1) + (8128x2)), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (90 + (2x0) + (180x1) + (8128x2)), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (91 + (2x0) + (180x1) + (8128x2)), xmask, eviction_policy='evict_last') tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp6 = triton_helpers.maximum(tmp5, tmp4) tmp7 = tmp1 > tmp0 tmp8 = tl.full([1], 1, tl.int8) tmp9 = tl.full([1], 0, tl.int8) tmp10 = tl.where(tmp7, tmp8, tmp9) tmp11 = tmp3 > tmp2 tmp12 = tl.full([1], 2, tl.int8) tmp13 = tl.where(tmp11, tmp12, tmp10) tmp14 = tmp5 > tmp4 tmp15 = tl.full([1], 3, tl.int8) tmp16 = tl.where(tmp14, tmp15, tmp13) tl.store(out_ptr0 + (x3 + (2048x2)), tmp6, xmask) tl.store(out_ptr1 + (x3 + (2048x2)), tmp16, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/ff/cffcbx7hcylvvyt456ttjyttpo27sb74idmn6r4z3a75y5k27wgf.py # Topologically Sorted Source Nodes: [conv2d_1, relu_1], Original ATen: [aten.convolution, aten.relu] # Source node to ATen node mapping: # conv2d_1 => convolution_1 # relu_1 => relu_1 # Graph fragment: # %convolution_1 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%getitem, %primals_4, %primals_5, [1, 1], [0, 0], [1, 1], False, [0, 0], 1), kwargs = {}) # %relu_1 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution_1,), kwargs = {}) triton_poi_fused_convolution_relu_2 = async_compile.triton('triton_poi_fused_convolution_relu_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[65536], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_relu_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_relu_2(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 53792 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 1681) % 8 x0 = xindex % 1681 x4 = (xindex // 1681) tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr1 + (x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(out_ptr0 + (x0 + (1696x4)), tmp4, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/ju/cjudgai6mfwrqreui76p7nznkv7vuehf2wfrcjcd2gboeptox3iv.py # Topologically Sorted Source Nodes: [x_2], Original ATen: [aten.max_pool2d_with_indices] # Source node to ATen node mapping: # x_2 => getitem_2, getitem_3 # Graph fragment: # %getitem_2 : [num_users=2] = call_function[target=operator.getitem](args = (%_low_memory_max_pool2d_with_offsets_1, 0), kwargs = {}) # %getitem_3 : [num_users=1] = call_function[target=operator.getitem](args = (%_low_memory_max_pool2d_with_offsets_1, 1), kwargs = {}) triton_poi_fused_max_pool2d_with_indices_3 = async_compile.triton('triton_poi_fused_max_pool2d_with_indices_3', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16384], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i8', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_max_pool2d_with_indices_3', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_max_pool2d_with_indices_3(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 12800 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 20 x1 = (xindex // 20) % 20 x2 = (xindex // 400) x3 = xindex tmp0 = tl.load(in_ptr0 + ((2x0) + (82x1) + (1696x2)), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + (2x0) + (82x1) + (1696x2)), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (41 + (2x0) + (82x1) + (1696x2)), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (42 + (2x0) + (82x1) + (1696x2)), xmask, eviction_policy='evict_last') tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp6 = triton_helpers.maximum(tmp5, tmp4) tmp7 = tmp1 > tmp0 tmp8 = tl.full([1], 1, tl.int8) tmp9 = tl.full([1], 0, tl.int8) tmp10 = tl.where(tmp7, tmp8, tmp9) tmp11 = tmp3 > tmp2 tmp12 = tl.full([1], 2, tl.int8) tmp13 = tl.where(tmp11, tmp12, tmp10) tmp14 = tmp5 > tmp4 tmp15 = tl.full([1], 3, tl.int8) tmp16 = tl.where(tmp14, tmp15, tmp13) tl.store(out_ptr0 + (x3), tmp6, xmask) tl.store(out_ptr1 + (x3), tmp16, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/6a/c6ampvsbr7igqafq7q24wlacaw2ecoddggpaw65r2opioriaoqwv.py # Topologically Sorted Source Nodes: [conv2d_2, relu_2], Original ATen: [aten.convolution, aten.relu] # Source node to ATen node mapping: # conv2d_2 => convolution_2 # relu_2 => relu_2 # Graph fragment: # %convolution_2 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%getitem_2, %primals_6, %primals_7, [1, 1], [0, 0], [1, 1], False, [0, 0], 1), kwargs = {}) # %relu_2 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution_2,), kwargs = {}) triton_poi_fused_convolution_relu_4 = async_compile.triton('triton_poi_fused_convolution_relu_4', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[32768], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_relu_4', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_relu_4(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 20736 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 324) % 16 tmp0 = tl.load(in_out_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + (x3), tmp4, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/6o/c6oxzxlvpgz465tkwcyyuyhky5hiulibfziadx42wly25hil6zvu.py # Topologically Sorted Source Nodes: [x_3], Original ATen: [aten.max_pool2d_with_indices] # Source node to ATen node mapping: # x_3 => _low_memory_max_pool2d_with_offsets_2, getitem_5 # Graph fragment: # %_low_memory_max_pool2d_with_offsets_2 : [num_users=2] = call_function[target=torch.ops.prims._low_memory_max_pool2d_with_offsets.default](args = (%relu_2, [2, 2], [2, 2], [0, 0], [1, 1], False), kwargs = {}) # %getitem_5 : [num_users=1] = call_function[target=operator.getitem](args = (%_low_memory_max_pool2d_with_offsets_2, 1), kwargs = {}) triton_poi_fused_max_pool2d_with_indices_5 = async_compile.triton('triton_poi_fused_max_pool2d_with_indices_5', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[8192], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'i8', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_max_pool2d_with_indices_5', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_max_pool2d_with_indices_5(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 5184 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 9 x3 = (xindex // 9) x2 = (xindex // 1296) x4 = xindex % 1296 tmp0 = tl.load(in_ptr0 + ((2x0) + (36x3)), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + (2x0) + (36x3)), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr0 + (18 + (2x0) + (36x3)), xmask, eviction_policy='evict_last') tmp12 = tl.load(in_ptr0 + (19 + (2x0) + (36x3)), xmask, eviction_policy='evict_last') tmp2 = tmp1 > tmp0 tmp3 = tl.full([1], 1, tl.int8) tmp4 = tl.full([1], 0, tl.int8) tmp5 = tl.where(tmp2, tmp3, tmp4) tmp6 = triton_helpers.maximum(tmp1, tmp0) tmp8 = tmp7 > tmp6 tmp9 = tl.full([1], 2, tl.int8) tmp10 = tl.where(tmp8, tmp9, tmp5) tmp11 = triton_helpers.maximum(tmp7, tmp6) tmp13 = tmp12 > tmp11 tmp14 = tl.full([1], 3, tl.int8) tmp15 = tl.where(tmp13, tmp14, tmp10) tmp16 = triton_helpers.maximum(tmp12, tmp11) tl.store(out_ptr0 + (x4 + (1408x2)), tmp15, xmask) tl.store(out_ptr1 + (x4 + (1312x2)), tmp16, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/ms/cmshf6pccqll6ywqi6kot7imxgxwnwmtuo3hvrpvuvfepimhejff.py # Topologically Sorted Source Nodes: [x_5], Original ATen: [aten.relu] # Source node to ATen node mapping: # x_5 => relu_3 # Graph fragment: # %add_tensor_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mm_default_1, %primals_9), kwargs = {}) # %relu_3 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%add_tensor_1,), kwargs = {}) triton_poi_fused_relu_6 = async_compile.triton('triton_poi_fused_relu_6', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[4096], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_relu_6', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_relu_6(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 2400 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 600 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + (x2), tmp4, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/qu/cqufdiwt3adzxfaz5apolu6wga3qtvaojur3jjqynuowgeq42wrt.py # Topologically Sorted Source Nodes: [x_6], Original ATen: [aten.relu] # Source node to ATen node mapping: # x_6 => relu_4 # Graph fragment: # %add_tensor : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mm_default, %primals_11), kwargs = {}) # %relu_4 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%add_tensor,), kwargs = {}) triton_poi_fused_relu_7 = async_compile.triton('triton_poi_fused_relu_7', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[1024], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_relu_7', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_relu_7(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 800 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 200 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + (x2), tmp4, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13 = args args.clear() assert_size_stride(primals_1, (4, 1, 96, 96), (9216, 9216, 96, 1)) assert_size_stride(primals_2, (4, 1, 7, 7), (49, 49, 7, 1)) assert_size_stride(primals_3, (4, ), (1, )) assert_size_stride(primals_4, (8, 4, 5, 5), (100, 25, 5, 1)) assert_size_stride(primals_5, (8, ), (1, )) assert_size_stride(primals_6, (16, 8, 3, 3), (72, 9, 3, 1)) assert_size_stride(primals_7, (16, ), (1, )) assert_size_stride(primals_8, (600, 1296), (1296, 1)) assert_size_stride(primals_9, (600, ), (1, )) assert_size_stride(primals_10, (200, 600), (600, 1)) assert_size_stride(primals_11, (200, ), (1, )) assert_size_stride(primals_12, (4, 200), (200, 1)) assert_size_stride(primals_13, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [conv2d], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(primals_1, primals_2, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 90, 90), (32400, 8100, 90, 1)) buf1 = empty_strided_cuda((4, 4, 90, 90), (32512, 8128, 90, 1), torch.float32) # Topologically Sorted Source Nodes: [conv2d, relu], Original ATen: [aten.convolution, aten.relu] stream0 = get_raw_stream(0) triton_poi_fused_convolution_relu_0.run(buf0, primals_3, buf1, 129600, grid=grid(129600), stream=stream0) del buf0 del primals_3 buf2 = empty_strided_cuda((4, 4, 45, 45), (8192, 2048, 45, 1), torch.float32) buf3 = empty_strided_cuda((4, 4, 45, 45), (8192, 2048, 45, 1), torch.int8) # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.max_pool2d_with_indices] triton_poi_fused_max_pool2d_with_indices_1.run(buf1, buf2, buf3, 32400, grid=grid(32400), stream=stream0) # Topologically Sorted Source Nodes: [conv2d_1], Original ATen: [aten.convolution] buf4 = extern_kernels.convolution(buf2, primals_4, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf4, (4, 8, 41, 41), (13448, 1681, 41, 1)) buf5 = empty_strided_cuda((4, 8, 41, 41), (13568, 1696, 41, 1), torch.float32) # Topologically Sorted Source Nodes: [conv2d_1, relu_1], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_2.run(buf4, primals_5, buf5, 53792, grid=grid(53792), stream=stream0) del buf4 del primals_5 buf6 = empty_strided_cuda((4, 8, 20, 20), (3200, 400, 20, 1), torch.float32) buf7 = empty_strided_cuda((4, 8, 20, 20), (3200, 400, 20, 1), torch.int8) # Topologically Sorted Source Nodes: [x_2], Original ATen: [aten.max_pool2d_with_indices] triton_poi_fused_max_pool2d_with_indices_3.run(buf5, buf6, buf7, 12800, grid=grid(12800), stream=stream0) # Topologically Sorted Source Nodes: [conv2d_2], Original ATen: [aten.convolution] buf8 = extern_kernels.convolution(buf6, primals_6, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf8, (4, 16, 18, 18), (5184, 324, 18, 1)) buf9 = buf8; del buf8 # reuse # Topologically Sorted Source Nodes: [conv2d_2, relu_2], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_4.run(buf9, primals_7, 20736, grid=grid(20736), stream=stream0) del primals_7 buf10 = empty_strided_cuda((4, 16, 9, 9), (1408, 81, 9, 1), torch.int8) buf11 = empty_strided_cuda((4, 16, 9, 9), (1312, 81, 9, 1), torch.float32) # Topologically Sorted Source Nodes: [x_3], Original ATen: [aten.max_pool2d_with_indices] triton_poi_fused_max_pool2d_with_indices_5.run(buf9, buf10, buf11, 5184, grid=grid(5184), stream=stream0) buf12 = empty_strided_cuda((4, 600), (600, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf11, (4, 1296), (1312, 1), 0), reinterpret_tensor(primals_8, (1296, 600), (1, 1296), 0), out=buf12) buf13 = buf12; del buf12 # reuse # Topologically Sorted Source Nodes: [x_5], Original ATen: [aten.relu] triton_poi_fused_relu_6.run(buf13, primals_9, 2400, grid=grid(2400), stream=stream0) del primals_9 buf14 = empty_strided_cuda((4, 200), (200, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(buf13, reinterpret_tensor(primals_10, (600, 200), (1, 600), 0), out=buf14) buf15 = buf14; del buf14 # reuse # Topologically Sorted Source Nodes: [x_6], Original ATen: [aten.relu] triton_poi_fused_relu_7.run(buf15, primals_11, 800, grid=grid(800), stream=stream0) del primals_11 buf16 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [x_7], Original ATen: [aten.addmm] extern_kernels.addmm(primals_13, buf15, reinterpret_tensor(primals_12, (200, 4), (1, 200), 0), alpha=1, beta=1, out=buf16) del primals_13 return (buf16, primals_1, primals_2, primals_4, primals_6, buf1, buf2, buf3, buf5, buf6, buf7, buf9, buf10, reinterpret_tensor(buf11, (4, 1296), (1312, 1), 0), buf13, buf15, primals_12, primals_10, primals_8, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 1, 96, 96), (9216, 9216, 96, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 1, 7, 7), (49, 49, 7, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((8, 4, 5, 5), (100, 25, 5, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((8, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((16, 8, 3, 3), (72, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((16, ), (1, ), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((600, 1296), (1296, 1), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((600, ), (1, ), device='cuda:0', dtype=torch.float32) primals_10 = rand_strided((200, 600), (600, 1), device='cuda:0', dtype=torch.float32) primals_11 = rand_strided((200, ), (1, ), device='cuda:0', dtype=torch.float32) primals_12 = rand_strided((4, 200), (200, 1), device='cuda:0', dtype=torch.float32) primals_13 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.nn.functional as F class BaselineTokenCNN(nn.Module): def __init__(self, num_classes): super(BaselineTokenCNN, self).__init__() self.conv1 = nn.Conv2d(in_channels=1, out_channels=4, kernel_size=7) self.pool1 = nn.MaxPool2d(kernel_size=2, stride=2) self.conv2 = nn.Conv2d(in_channels=4, out_channels=8, kernel_size=5) self.pool2 = nn.MaxPool2d(kernel_size=2, stride=2) self.conv3 = nn.Conv2d(in_channels=8, out_channels=16, kernel_size=3) self.pool3 = nn.MaxPool2d(kernel_size=2, stride=2) self.fc1 = nn.Linear(16 * 9 * 9, 600) self.fc2 = nn.Linear(600, 200) self.fc3 = nn.Linear(200, num_classes) def forward(self, x): x = x.float() x = self.pool1(F.relu(self.conv1(x))) x = self.pool2(F.relu(self.conv2(x))) x = self.pool3(F.relu(self.conv3(x))) x = x.view(-1, 16 * 9 * 9) x = F.relu(self.fc1(x)) x = F.relu(self.fc2(x)) x = self.fc3(x) return x def get_inputs(): return [torch.rand([4, 1, 96, 96])] def get_init_inputs(): return [[], {'num_classes': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_convolution_relu_0(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 129600 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = xindex // 8100 % 4 x0 = xindex % 8100 x4 = xindex // 8100 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr1 + x1, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(out_ptr0 + (x0 + 8128 * x4), tmp4, xmask) @triton.jit def triton_poi_fused_max_pool2d_with_indices_1(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 32400 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 45 x1 = xindex // 45 % 45 x2 = xindex // 2025 x3 = xindex % 2025 tmp0 = tl.load(in_ptr0 + (2 * x0 + 180 * x1 + 8128 * x2), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + 2 * x0 + 180 * x1 + 8128 * x2), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (90 + 2 * x0 + 180 * x1 + 8128 * x2), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (91 + 2 * x0 + 180 * x1 + 8128 * x2), xmask, eviction_policy='evict_last') tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp6 = triton_helpers.maximum(tmp5, tmp4) tmp7 = tmp1 > tmp0 tmp8 = tl.full([1], 1, tl.int8) tmp9 = tl.full([1], 0, tl.int8) tmp10 = tl.where(tmp7, tmp8, tmp9) tmp11 = tmp3 > tmp2 tmp12 = tl.full([1], 2, tl.int8) tmp13 = tl.where(tmp11, tmp12, tmp10) tmp14 = tmp5 > tmp4 tmp15 = tl.full([1], 3, tl.int8) tmp16 = tl.where(tmp14, tmp15, tmp13) tl.store(out_ptr0 + (x3 + 2048 * x2), tmp6, xmask) tl.store(out_ptr1 + (x3 + 2048 * x2), tmp16, xmask) @triton.jit def triton_poi_fused_convolution_relu_2(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 53792 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = xindex // 1681 % 8 x0 = xindex % 1681 x4 = xindex // 1681 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr1 + x1, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(out_ptr0 + (x0 + 1696 * x4), tmp4, xmask) @triton.jit def triton_poi_fused_max_pool2d_with_indices_3(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 12800 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 20 x1 = xindex // 20 % 20 x2 = xindex // 400 x3 = xindex tmp0 = tl.load(in_ptr0 + (2 * x0 + 82 * x1 + 1696 * x2), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + 2 * x0 + 82 * x1 + 1696 * x2), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (41 + 2 * x0 + 82 * x1 + 1696 * x2), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (42 + 2 * x0 + 82 * x1 + 1696 * x2), xmask, eviction_policy='evict_last') tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp6 = triton_helpers.maximum(tmp5, tmp4) tmp7 = tmp1 > tmp0 tmp8 = tl.full([1], 1, tl.int8) tmp9 = tl.full([1], 0, tl.int8) tmp10 = tl.where(tmp7, tmp8, tmp9) tmp11 = tmp3 > tmp2 tmp12 = tl.full([1], 2, tl.int8) tmp13 = tl.where(tmp11, tmp12, tmp10) tmp14 = tmp5 > tmp4 tmp15 = tl.full([1], 3, tl.int8) tmp16 = tl.where(tmp14, tmp15, tmp13) tl.store(out_ptr0 + x3, tmp6, xmask) tl.store(out_ptr1 + x3, tmp16, xmask) @triton.jit def triton_poi_fused_convolution_relu_4(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 20736 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = xindex // 324 % 16 tmp0 = tl.load(in_out_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + x1, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + x3, tmp4, xmask) @triton.jit def triton_poi_fused_max_pool2d_with_indices_5(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 5184 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 9 x3 = xindex // 9 x2 = xindex // 1296 x4 = xindex % 1296 tmp0 = tl.load(in_ptr0 + (2 * x0 + 36 * x3), xmask, eviction_policy= 'evict_last') tmp1 = tl.load(in_ptr0 + (1 + 2 * x0 + 36 * x3), xmask, eviction_policy ='evict_last') tmp7 = tl.load(in_ptr0 + (18 + 2 * x0 + 36 * x3), xmask, eviction_policy='evict_last') tmp12 = tl.load(in_ptr0 + (19 + 2 * x0 + 36 * x3), xmask, eviction_policy='evict_last') tmp2 = tmp1 > tmp0 tmp3 = tl.full([1], 1, tl.int8) tmp4 = tl.full([1], 0, tl.int8) tmp5 = tl.where(tmp2, tmp3, tmp4) tmp6 = triton_helpers.maximum(tmp1, tmp0) tmp8 = tmp7 > tmp6 tmp9 = tl.full([1], 2, tl.int8) tmp10 = tl.where(tmp8, tmp9, tmp5) tmp11 = triton_helpers.maximum(tmp7, tmp6) tmp13 = tmp12 > tmp11 tmp14 = tl.full([1], 3, tl.int8) tmp15 = tl.where(tmp13, tmp14, tmp10) tmp16 = triton_helpers.maximum(tmp12, tmp11) tl.store(out_ptr0 + (x4 + 1408 * x2), tmp15, xmask) tl.store(out_ptr1 + (x4 + 1312 * x2), tmp16, xmask) @triton.jit def triton_poi_fused_relu_6(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 2400 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 600 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + x2, tmp4, xmask) @triton.jit def triton_poi_fused_relu_7(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 800 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 200 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + x2, tmp4, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13) = args args.clear() assert_size_stride(primals_1, (4, 1, 96, 96), (9216, 9216, 96, 1)) assert_size_stride(primals_2, (4, 1, 7, 7), (49, 49, 7, 1)) assert_size_stride(primals_3, (4,), (1,)) assert_size_stride(primals_4, (8, 4, 5, 5), (100, 25, 5, 1)) assert_size_stride(primals_5, (8,), (1,)) assert_size_stride(primals_6, (16, 8, 3, 3), (72, 9, 3, 1)) assert_size_stride(primals_7, (16,), (1,)) assert_size_stride(primals_8, (600, 1296), (1296, 1)) assert_size_stride(primals_9, (600,), (1,)) assert_size_stride(primals_10, (200, 600), (600, 1)) assert_size_stride(primals_11, (200,), (1,)) assert_size_stride(primals_12, (4, 200), (200, 1)) assert_size_stride(primals_13, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(primals_1, primals_2, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 90, 90), (32400, 8100, 90, 1)) buf1 = empty_strided_cuda((4, 4, 90, 90), (32512, 8128, 90, 1), torch.float32) get_raw_stream(0) triton_poi_fused_convolution_relu_0[grid(129600)](buf0, primals_3, buf1, 129600, XBLOCK=1024, num_warps=4, num_stages=1) del buf0 del primals_3 buf2 = empty_strided_cuda((4, 4, 45, 45), (8192, 2048, 45, 1), torch.float32) buf3 = empty_strided_cuda((4, 4, 45, 45), (8192, 2048, 45, 1), torch.int8) triton_poi_fused_max_pool2d_with_indices_1[grid(32400)](buf1, buf2, buf3, 32400, XBLOCK=128, num_warps=4, num_stages=1) buf4 = extern_kernels.convolution(buf2, primals_4, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf4, (4, 8, 41, 41), (13448, 1681, 41, 1)) buf5 = empty_strided_cuda((4, 8, 41, 41), (13568, 1696, 41, 1), torch.float32) triton_poi_fused_convolution_relu_2[grid(53792)](buf4, primals_5, buf5, 53792, XBLOCK=256, num_warps=4, num_stages=1) del buf4 del primals_5 buf6 = empty_strided_cuda((4, 8, 20, 20), (3200, 400, 20, 1), torch .float32) buf7 = empty_strided_cuda((4, 8, 20, 20), (3200, 400, 20, 1), torch .int8) triton_poi_fused_max_pool2d_with_indices_3[grid(12800)](buf5, buf6, buf7, 12800, XBLOCK=256, num_warps=4, num_stages=1) buf8 = extern_kernels.convolution(buf6, primals_6, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf8, (4, 16, 18, 18), (5184, 324, 18, 1)) buf9 = buf8 del buf8 triton_poi_fused_convolution_relu_4[grid(20736)](buf9, primals_7, 20736, XBLOCK=256, num_warps=4, num_stages=1) del primals_7 buf10 = empty_strided_cuda((4, 16, 9, 9), (1408, 81, 9, 1), torch.int8) buf11 = empty_strided_cuda((4, 16, 9, 9), (1312, 81, 9, 1), torch. float32) triton_poi_fused_max_pool2d_with_indices_5[grid(5184)](buf9, buf10, buf11, 5184, XBLOCK=256, num_warps=4, num_stages=1) buf12 = empty_strided_cuda((4, 600), (600, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf11, (4, 1296), (1312, 1), 0 ), reinterpret_tensor(primals_8, (1296, 600), (1, 1296), 0), out=buf12) buf13 = buf12 del buf12 triton_poi_fused_relu_6[grid(2400)](buf13, primals_9, 2400, XBLOCK= 128, num_warps=4, num_stages=1) del primals_9 buf14 = empty_strided_cuda((4, 200), (200, 1), torch.float32) extern_kernels.mm(buf13, reinterpret_tensor(primals_10, (600, 200), (1, 600), 0), out=buf14) buf15 = buf14 del buf14 triton_poi_fused_relu_7[grid(800)](buf15, primals_11, 800, XBLOCK= 256, num_warps=4, num_stages=1) del primals_11 buf16 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_13, buf15, reinterpret_tensor( primals_12, (200, 4), (1, 200), 0), alpha=1, beta=1, out=buf16) del primals_13 return (buf16, primals_1, primals_2, primals_4, primals_6, buf1, buf2, buf3, buf5, buf6, buf7, buf9, buf10, reinterpret_tensor(buf11, (4, 1296), (1312, 1), 0), buf13, buf15, primals_12, primals_10, primals_8) class BaselineTokenCNNNew(nn.Module): def __init__(self, num_classes): super(BaselineTokenCNNNew, self).__init__() self.conv1 = nn.Conv2d(in_channels=1, out_channels=4, kernel_size=7) self.pool1 = nn.MaxPool2d(kernel_size=2, stride=2) self.conv2 = nn.Conv2d(in_channels=4, out_channels=8, kernel_size=5) self.pool2 = nn.MaxPool2d(kernel_size=2, stride=2) self.conv3 = nn.Conv2d(in_channels=8, out_channels=16, kernel_size=3) self.pool3 = nn.MaxPool2d(kernel_size=2, stride=2) self.fc1 = nn.Linear(16 * 9 * 9, 600) self.fc2 = nn.Linear(600, 200) self.fc3 = nn.Linear(200, num_classes) def forward(self, input_0): primals_2 = self.conv1.weight primals_3 = self.conv1.bias primals_4 = self.conv2.weight primals_5 = self.conv2.bias primals_6 = self.conv3.weight primals_7 = self.conv3.bias primals_8 = self.fc1.weight primals_9 = self.fc1.bias primals_10 = self.fc2.weight primals_11 = self.fc2.bias primals_12 = self.fc3.weight primals_13 = self.fc3.bias primals_1 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13]) return output[0]	Jesse-mk/10617_Project	BaselineTokenCNN	false	9,167	[ "MIT" ]	2290e582fddc74f2f2f3e64e25f33a3bef6b1841	https://github.com/Jesse-mk/10617_Project/tree/2290e582fddc74f2f2f3e64e25f33a3bef6b1841
SelfAttention	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/nc/cncwsucylpsg2zmlivjfxu6vbd64ztxjndlsix2ysjtby3xohgk4.py # Topologically Sorted Source Nodes: [tanh], Original ATen: [aten.tanh] # Source node to ATen node mapping: # tanh => tanh # Graph fragment: # %tanh : [num_users=2] = call_function[target=torch.ops.aten.tanh.default](args = (%view_3,), kwargs = {}) triton_poi_fused_tanh_0 = async_compile.triton('triton_poi_fused_tanh_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_tanh_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_tanh_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = libdevice.tanh(tmp2) tl.store(in_out_ptr0 + (x2), tmp3, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/if/cifl6msigrdy5fucf6c4wep3ebf4xmsc6lhyrcxtrudm26ksggt3.py # Topologically Sorted Source Nodes: [mul, sum_1], Original ATen: [aten.mul, aten.sum] # Source node to ATen node mapping: # mul => mul # sum_1 => sum_2 # Graph fragment: # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%primals_3, %unsqueeze), kwargs = {}) # %sum_2 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%mul, [1]), kwargs = {}) triton_poi_fused_mul_sum_1 = async_compile.triton('triton_poi_fused_mul_sum_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_mul_sum_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 8, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_mul_sum_1(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x4 = xindex % 64 x1 = (xindex // 4) % 4 x3 = (xindex // 64) x5 = xindex tmp0 = tl.load(in_ptr0 + (x4), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (x1 + (16x3)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (64 + x4), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr1 + (4 + x1 + (16x3)), xmask, eviction_policy='evict_last') tmp13 = tl.load(in_ptr0 + (128 + x4), xmask, eviction_policy='evict_last') tmp14 = tl.load(in_ptr1 + (8 + x1 + (16x3)), xmask, eviction_policy='evict_last') tmp20 = tl.load(in_ptr0 + (192 + x4), xmask, eviction_policy='evict_last') tmp21 = tl.load(in_ptr1 + (12 + x1 + (16x3)), xmask, eviction_policy='evict_last') tmp2 = tmp1 - tmp1 tmp3 = tl_math.exp(tmp2) tmp4 = tmp3 / tmp3 tmp5 = tmp0 * tmp4 tmp8 = tmp7 - tmp7 tmp9 = tl_math.exp(tmp8) tmp10 = tmp9 / tmp9 tmp11 = tmp6 * tmp10 tmp12 = tmp5 + tmp11 tmp15 = tmp14 - tmp14 tmp16 = tl_math.exp(tmp15) tmp17 = tmp16 / tmp16 tmp18 = tmp13 * tmp17 tmp19 = tmp12 + tmp18 tmp22 = tmp21 - tmp21 tmp23 = tl_math.exp(tmp22) tmp24 = tmp23 / tmp23 tmp25 = tmp20 * tmp24 tmp26 = tmp19 + tmp25 tl.store(out_ptr0 + (x5), tmp26, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (1, 4), (4, 1)) assert_size_stride(primals_5, (1, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf0) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf0 # reuse # Topologically Sorted Source Nodes: [tanh], Original ATen: [aten.tanh] stream0 = get_raw_stream(0) triton_poi_fused_tanh_0.run(buf1, primals_2, 256, grid=grid(256), stream=stream0) del primals_2 buf3 = empty_strided_cuda((64, 1), (1, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_2], Original ATen: [aten.addmm] extern_kernels.addmm(primals_5, reinterpret_tensor(buf1, (64, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 1), (1, 4), 0), alpha=1, beta=1, out=buf3) del primals_5 buf4 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [mul, sum_1], Original ATen: [aten.mul, aten.sum] triton_poi_fused_mul_sum_1.run(primals_3, buf3, buf4, 256, grid=grid(256), stream=stream0) return (buf4, primals_3, buf1, buf3, primals_4, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((1, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((1, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class SelfAttention(nn.Module): def __init__(self, input_dim): super(SelfAttention, self).__init__() self.pre_pooling_linear = nn.Linear(input_dim, input_dim) self.pooling_linear = nn.Linear(input_dim, 1) def forward(self, x): self.pre_pooling_linear(x) weights = self.pooling_linear(torch.tanh(self.pre_pooling_linear(x)) ).squeeze(dim=2) weights = nn.Softmax(dim=-1)(weights) return torch.mul(x, weights.unsqueeze(2)).sum(dim=1) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'input_dim': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_tanh_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = libdevice.tanh(tmp2) tl.store(in_out_ptr0 + x2, tmp3, xmask) @triton.jit def triton_poi_fused_mul_sum_1(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x4 = xindex % 64 x1 = xindex // 4 % 4 x3 = xindex // 64 x5 = xindex tmp0 = tl.load(in_ptr0 + x4, xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (x1 + 16 * x3), xmask, eviction_policy= 'evict_last') tmp6 = tl.load(in_ptr0 + (64 + x4), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr1 + (4 + x1 + 16 * x3), xmask, eviction_policy= 'evict_last') tmp13 = tl.load(in_ptr0 + (128 + x4), xmask, eviction_policy='evict_last') tmp14 = tl.load(in_ptr1 + (8 + x1 + 16 * x3), xmask, eviction_policy= 'evict_last') tmp20 = tl.load(in_ptr0 + (192 + x4), xmask, eviction_policy='evict_last') tmp21 = tl.load(in_ptr1 + (12 + x1 + 16 * x3), xmask, eviction_policy= 'evict_last') tmp2 = tmp1 - tmp1 tmp3 = tl_math.exp(tmp2) tmp4 = tmp3 / tmp3 tmp5 = tmp0 * tmp4 tmp8 = tmp7 - tmp7 tmp9 = tl_math.exp(tmp8) tmp10 = tmp9 / tmp9 tmp11 = tmp6 * tmp10 tmp12 = tmp5 + tmp11 tmp15 = tmp14 - tmp14 tmp16 = tl_math.exp(tmp15) tmp17 = tmp16 / tmp16 tmp18 = tmp13 * tmp17 tmp19 = tmp12 + tmp18 tmp22 = tmp21 - tmp21 tmp23 = tl_math.exp(tmp22) tmp24 = tmp23 / tmp23 tmp25 = tmp20 * tmp24 tmp26 = tmp19 + tmp25 tl.store(out_ptr0 + x5, tmp26, xmask) def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (1, 4), (4, 1)) assert_size_stride(primals_5, (1,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf0) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf0 get_raw_stream(0) triton_poi_fused_tanh_0[grid(256)](buf1, primals_2, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 buf3 = empty_strided_cuda((64, 1), (1, 1), torch.float32) extern_kernels.addmm(primals_5, reinterpret_tensor(buf1, (64, 4), ( 4, 1), 0), reinterpret_tensor(primals_4, (4, 1), (1, 4), 0), alpha=1, beta=1, out=buf3) del primals_5 buf4 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) triton_poi_fused_mul_sum_1[grid(256)](primals_3, buf3, buf4, 256, XBLOCK=128, num_warps=4, num_stages=1) return buf4, primals_3, buf1, buf3, primals_4 class SelfAttentionNew(nn.Module): def __init__(self, input_dim): super(SelfAttentionNew, self).__init__() self.pre_pooling_linear = nn.Linear(input_dim, input_dim) self.pooling_linear = nn.Linear(input_dim, 1) def forward(self, input_0): primals_1 = self.pre_pooling_linear.weight primals_2 = self.pre_pooling_linear.bias primals_4 = self.pooling_linear.weight primals_5 = self.pooling_linear.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5]) return output[0]	JunKong5/WestBERT	SelfAttention	false	9,168	[ "MIT" ]	8e0fc9aca290103698cd08239710193c36b06eff	https://github.com/JunKong5/WestBERT/tree/8e0fc9aca290103698cd08239710193c36b06eff
MultiheadAttention	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/qw/cqw7yoyglmtjad3kirznl5odetqfs3k6pjtnfdbzklyhsdvuvgft.py # Topologically Sorted Source Nodes: [multi_head_attention_forward], Original ATen: [aten.mul] # Source node to ATen node mapping: # multi_head_attention_forward => mul # Graph fragment: # %mul : [num_users=2] = call_function[target=torch.ops.aten.mul.Tensor](args = (%permute_3, 1.0), kwargs = {}) triton_poi_fused_mul_0 = async_compile.triton('triton_poi_fused_mul_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_mul_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_mul_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 1.0 tmp4 = tmp2 * tmp3 tl.store(in_out_ptr0 + (x2), tmp4, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/hz/chzi3aam26mikdhljz5x7jlqazm7kpktzeptsf36thgfhsg7ub6a.py # Topologically Sorted Source Nodes: [multi_head_attention_forward], Original ATen: [aten._softmax] # Source node to ATen node mapping: # multi_head_attention_forward => amax, exp, sub # Graph fragment: # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%bmm, [-1], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%bmm, %amax), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub,), kwargs = {}) triton_poi_fused__softmax_1 = async_compile.triton('triton_poi_fused__softmax_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_1(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (4x1), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + (4x1)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + (4x1)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + (4x1)), xmask, eviction_policy='evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + (x2), tmp9, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/em/cem6qbxwbiqnjqybzk5arf2obt5uggy4qs7otwwpovvnrhvdc6h4.py # Topologically Sorted Source Nodes: [multi_head_attention_forward], Original ATen: [aten._softmax] # Source node to ATen node mapping: # multi_head_attention_forward => div, sum_1 # Graph fragment: # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp, [-1], True), kwargs = {}) # %div : [num_users=2] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp, %sum_1), kwargs = {}) triton_poi_fused__softmax_2 = async_compile.triton('triton_poi_fused__softmax_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_2(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (4x1), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + (4x1)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + (4x1)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + (4x1)), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + (x2), tmp8, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/rh/crhjfwyl6xoj5ylcsbbh6lp2vlegits2zkdej3b3wb2q4ddfnejv.py # Topologically Sorted Source Nodes: [multi_head_attention_forward], Original ATen: [aten.clone] # Source node to ATen node mapping: # multi_head_attention_forward => clone # Graph fragment: # %clone : [num_users=1] = call_function[target=torch.ops.aten.clone.default](args = (%permute_7,), kwargs = {memory_format: torch.contiguous_format}) triton_poi_fused_clone_3 = async_compile.triton('triton_poi_fused_clone_3', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[4, 4], tile_hint=TileHint.SQUARE, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_clone_3', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_clone_3(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 4 xnumel = 4 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x1 = xindex y0 = yindex tmp0 = tl.load(in_ptr0 + (y0 + (4x1)), xmask & ymask) tl.store(out_ptr0 + (x1 + (4y0)), tmp0, xmask & ymask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/5z/c5zy7julai2lhuinuwjgyl62nx7cyws6ni5poe5jzp7qn532rcgh.py # Topologically Sorted Source Nodes: [add], Original ATen: [aten.add] # Source node to ATen node mapping: # add => add # Graph fragment: # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%primals_1, %squeeze), kwargs = {}) triton_poi_fused_add_4 = async_compile.triton('triton_poi_fused_add_4', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_4', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 3, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_4(in_out_ptr0, in_ptr0, in_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_out_ptr0 + (x2), xmask) tmp2 = tl.load(in_ptr1 + (x0), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp4 = tmp0 + tmp3 tl.store(in_out_ptr0 + (x2), tmp4, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (12, 4), (4, 1)) assert_size_stride(primals_3, (12, ), (1, )) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(primals_1, reinterpret_tensor(primals_2, (4, 4), (1, 4), 0), out=buf0) buf1 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [multi_head_attention_forward], Original ATen: [aten.addmm] extern_kernels.addmm(reinterpret_tensor(primals_3, (4, ), (1, ), 4), primals_1, reinterpret_tensor(primals_2, (4, 4), (1, 4), 16), alpha=1, beta=1, out=buf1) buf2 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [multi_head_attention_forward], Original ATen: [aten.addmm] extern_kernels.addmm(reinterpret_tensor(primals_3, (4, ), (1, ), 8), primals_1, reinterpret_tensor(primals_2, (4, 4), (1, 4), 32), alpha=1, beta=1, out=buf2) del primals_2 buf3 = reinterpret_tensor(buf0, (4, 4, 1), (1, 4, 16), 0); del buf0 # reuse # Topologically Sorted Source Nodes: [multi_head_attention_forward], Original ATen: [aten.mul] stream0 = get_raw_stream(0) triton_poi_fused_mul_0.run(buf3, primals_3, 16, grid=grid(16), stream=stream0) del primals_3 buf4 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [multi_head_attention_forward], Original ATen: [aten.bmm] extern_kernels.bmm(buf3, reinterpret_tensor(buf1, (4, 1, 4), (1, 1, 4), 0), out=buf4) buf5 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [multi_head_attention_forward], Original ATen: [aten._softmax] triton_poi_fused__softmax_1.run(buf4, buf5, 64, grid=grid(64), stream=stream0) buf6 = buf4; del buf4 # reuse # Topologically Sorted Source Nodes: [multi_head_attention_forward], Original ATen: [aten._softmax] triton_poi_fused__softmax_2.run(buf5, buf6, 64, grid=grid(64), stream=stream0) del buf5 buf7 = empty_strided_cuda((4, 4, 1), (4, 1, 1), torch.float32) # Topologically Sorted Source Nodes: [multi_head_attention_forward], Original ATen: [aten.bmm] extern_kernels.bmm(buf6, reinterpret_tensor(buf2, (4, 4, 1), (1, 4, 1), 0), out=buf7) buf8 = empty_strided_cuda((4, 4, 1), (4, 1, 1), torch.float32) # Topologically Sorted Source Nodes: [multi_head_attention_forward], Original ATen: [aten.clone] triton_poi_fused_clone_3.run(buf7, buf8, 4, 4, grid=grid(4, 4), stream=stream0) buf9 = reinterpret_tensor(buf7, (4, 4), (4, 1), 0); del buf7 # reuse # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf8, (4, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), out=buf9) buf10 = buf9; del buf9 # reuse # Topologically Sorted Source Nodes: [add], Original ATen: [aten.add] triton_poi_fused_add_4.run(buf10, primals_1, primals_5, 16, grid=grid(16), stream=stream0) del primals_5 return (buf10, primals_1, buf6, reinterpret_tensor(buf8, (4, 4), (4, 1), 0), primals_4, reinterpret_tensor(buf2, (4, 1, 4), (1, 1, 4), 0), reinterpret_tensor(buf3, (4, 1, 4), (1, 1, 4), 0), reinterpret_tensor(buf1, (4, 4, 1), (1, 4, 1), 0), ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((12, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((12, ), (1, ), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class MultiheadAttention(nn.Module): """A warpper for torch.nn.MultiheadAttention. This module implements MultiheadAttention with residual connection, and positional encoding used in DETR is also passed as input. Args: embed_dims (int): The embedding dimension. num_heads (int): Parallel attention heads. Same as `nn.MultiheadAttention`. dropout (float): A Dropout layer on attn_output_weights. Default 0.0. """ def __init__(self, embed_dims, num_heads, dropout=0.0): super(MultiheadAttention, self).__init__() assert embed_dims % num_heads == 0, f'embed_dims must be divisible by num_heads. got {embed_dims} and {num_heads}.' self.embed_dims = embed_dims self.num_heads = num_heads self.dropout = dropout self.attn = nn.MultiheadAttention(embed_dims, num_heads, dropout) self.dropout = nn.Dropout(dropout) def forward(self, x, key=None, value=None, residual=None, query_pos= None, key_pos=None, attn_mask=None, key_padding_mask=None): """Forward function for `MultiheadAttention`. Args: x (Tensor): The input query with shape [num_query, bs, embed_dims]. Same in `nn.MultiheadAttention.forward`. key (Tensor): The key tensor with shape [num_key, bs, embed_dims]. Same in `nn.MultiheadAttention.forward`. Default None. If None, the `query` will be used. value (Tensor): The value tensor with same shape as `key`. Same in `nn.MultiheadAttention.forward`. Default None. If None, the `key` will be used. residual (Tensor): The tensor used for addition, with the same shape as `x`. Default None. If None, `x` will be used. query_pos (Tensor): The positional encoding for query, with the same shape as `x`. Default None. If not None, it will be added to `x` before forward function. key_pos (Tensor): The positional encoding for `key`, with the same shape as `key`. Default None. If not None, it will be added to `key` before forward function. If None, and `query_pos` has the same shape as `key`, then `query_pos` will be used for `key_pos`. attn_mask (Tensor): ByteTensor mask with shape [num_query, num_key]. Same in `nn.MultiheadAttention.forward`. Default None. key_padding_mask (Tensor): ByteTensor with shape [bs, num_key]. Same in `nn.MultiheadAttention.forward`. Default None. Returns: Tensor: forwarded results with shape [num_query, bs, embed_dims]. """ query = x if key is None: key = query if value is None: value = key if residual is None: residual = x if key_pos is None: if query_pos is not None and key is not None: if query_pos.shape == key.shape: key_pos = query_pos if query_pos is not None: query = query + query_pos if key_pos is not None: key = key + key_pos out = self.attn(query, key, value=value, attn_mask=attn_mask, key_padding_mask=key_padding_mask)[0] return residual + self.dropout(out) def __repr__(self): """str: a string that describes the module""" repr_str = self.__class__.__name__ repr_str += f'(embed_dims={self.embed_dims}, ' repr_str += f'num_heads={self.num_heads}, ' repr_str += f'dropout={self.dropout})' return repr_str def get_inputs(): return [torch.rand([4, 4])] def get_init_inputs(): return [[], {'embed_dims': 4, 'num_heads': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_mul_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 1.0 tmp4 = tmp2 * tmp3 tl.store(in_out_ptr0 + x2, tmp4, xmask) @triton.jit def triton_poi_fused__softmax_1(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + 4 * x1, xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + 4 * x1), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + 4 * x1), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + 4 * x1), xmask, eviction_policy='evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + x2, tmp9, xmask) @triton.jit def triton_poi_fused__softmax_2(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + 4 * x1, xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + 4 * x1), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + 4 * x1), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + 4 * x1), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + x2, tmp8, xmask) @triton.jit def triton_poi_fused_clone_3(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK: tl. constexpr, XBLOCK: tl.constexpr): ynumel = 4 xnumel = 4 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x1 = xindex y0 = yindex tmp0 = tl.load(in_ptr0 + (y0 + 4 * x1), xmask & ymask) tl.store(out_ptr0 + (x1 + 4 * y0), tmp0, xmask & ymask) @triton.jit def triton_poi_fused_add_4(in_out_ptr0, in_ptr0, in_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_out_ptr0 + x2, xmask) tmp2 = tl.load(in_ptr1 + x0, xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp4 = tmp0 + tmp3 tl.store(in_out_ptr0 + x2, tmp4, xmask) def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (12, 4), (4, 1)) assert_size_stride(primals_3, (12,), (1,)) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.mm(primals_1, reinterpret_tensor(primals_2, (4, 4), (1, 4), 0), out=buf0) buf1 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.addmm(reinterpret_tensor(primals_3, (4,), (1,), 4), primals_1, reinterpret_tensor(primals_2, (4, 4), (1, 4), 16), alpha=1, beta=1, out=buf1) buf2 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.addmm(reinterpret_tensor(primals_3, (4,), (1,), 8), primals_1, reinterpret_tensor(primals_2, (4, 4), (1, 4), 32), alpha=1, beta=1, out=buf2) del primals_2 buf3 = reinterpret_tensor(buf0, (4, 4, 1), (1, 4, 16), 0) del buf0 get_raw_stream(0) triton_poi_fused_mul_0[grid(16)](buf3, primals_3, 16, XBLOCK=16, num_warps=1, num_stages=1) del primals_3 buf4 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) extern_kernels.bmm(buf3, reinterpret_tensor(buf1, (4, 1, 4), (1, 1, 4), 0), out=buf4) buf5 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) triton_poi_fused__softmax_1[grid(64)](buf4, buf5, 64, XBLOCK=64, num_warps=1, num_stages=1) buf6 = buf4 del buf4 triton_poi_fused__softmax_2[grid(64)](buf5, buf6, 64, XBLOCK=64, num_warps=1, num_stages=1) del buf5 buf7 = empty_strided_cuda((4, 4, 1), (4, 1, 1), torch.float32) extern_kernels.bmm(buf6, reinterpret_tensor(buf2, (4, 4, 1), (1, 4, 1), 0), out=buf7) buf8 = empty_strided_cuda((4, 4, 1), (4, 1, 1), torch.float32) triton_poi_fused_clone_3[grid(4, 4)](buf7, buf8, 4, 4, XBLOCK=4, YBLOCK=4, num_warps=1, num_stages=1) buf9 = reinterpret_tensor(buf7, (4, 4), (4, 1), 0) del buf7 extern_kernels.mm(reinterpret_tensor(buf8, (4, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), out=buf9) buf10 = buf9 del buf9 triton_poi_fused_add_4[grid(16)](buf10, primals_1, primals_5, 16, XBLOCK=16, num_warps=1, num_stages=1) del primals_5 return buf10, primals_1, buf6, reinterpret_tensor(buf8, (4, 4), (4, 1), 0 ), primals_4, reinterpret_tensor(buf2, (4, 1, 4), (1, 1, 4), 0 ), reinterpret_tensor(buf3, (4, 1, 4), (1, 1, 4), 0 ), reinterpret_tensor(buf1, (4, 4, 1), (1, 4, 1), 0) class MultiheadAttentionNew(nn.Module): """A warpper for torch.nn.MultiheadAttention. This module implements MultiheadAttention with residual connection, and positional encoding used in DETR is also passed as input. Args: embed_dims (int): The embedding dimension. num_heads (int): Parallel attention heads. Same as `nn.MultiheadAttention`. dropout (float): A Dropout layer on attn_output_weights. Default 0.0. """ def __init__(self, embed_dims, num_heads, dropout=0.0): super(MultiheadAttentionNew, self).__init__() assert embed_dims % num_heads == 0, f'embed_dims must be divisible by num_heads. got {embed_dims} and {num_heads}.' self.embed_dims = embed_dims self.num_heads = num_heads self.dropout = dropout self.attn = nn.MultiheadAttention(embed_dims, num_heads, dropout) self.dropout = nn.Dropout(dropout) def __repr__(self): """str: a string that describes the module""" repr_str = self.__class__.__name__ repr_str += f'(embed_dims={self.embed_dims}, ' repr_str += f'num_heads={self.num_heads}, ' repr_str += f'dropout={self.dropout})' return repr_str def forward(self, input_0): primals_2 = self.attn.in_proj_weight primals_3 = self.attn.in_proj_bias primals_1 = self.attn.out_proj.weight primals_5 = self.attn.out_proj.bias primals_4 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5]) return output[0]	ChHanXiao/mmdetection	MultiheadAttention	false	9,169	[ "Apache-2.0" ]	324aa5a042857a9b57abe37385e1210709a20d02	https://github.com/ChHanXiao/mmdetection/tree/324aa5a042857a9b57abe37385e1210709a20d02
StyledConv	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/wi/cwiyl3lwwtancorrifw77xt3aqb4lermdintht45zvkj3bg54nbl.py # Topologically Sorted Source Nodes: [mul], Original ATen: [aten.mul] # Source node to ATen node mapping: # mul => mul # Graph fragment: # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%primals_2, 0.5), kwargs = {}) triton_poi_fused_mul_0 = async_compile.triton('triton_poi_fused_mul_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_mul_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_mul_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = 0.5 tmp2 = tmp0 * tmp1 tl.store(out_ptr0 + (x0), tmp2, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/2o/c2oqkq7zaubqmw7vuixxlseb2ff5jzqqbyczicxlmsahuxwdpdyp.py # Topologically Sorted Source Nodes: [mul_1], Original ATen: [aten.mul] # Source node to ATen node mapping: # mul_1 => mul_1 # Graph fragment: # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%primals_3, 1), kwargs = {}) triton_poi_fused_mul_1 = async_compile.triton('triton_poi_fused_mul_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[4], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_mul_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_mul_1(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 4 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = 1.0 tmp2 = tmp0 * tmp1 tl.store(out_ptr0 + (x0), tmp2, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/ri/criuvsdl3sferb4bb6ci5zaps3wys7xxcpybz7vfo2ba4q7cuq6c.py # Topologically Sorted Source Nodes: [mul_2, weight, pow_1, sum_1, add, demod, weight_1], Original ATen: [aten.mul, aten.pow, aten.sum, aten.add, aten.rsqrt] # Source node to ATen node mapping: # add => add # demod => rsqrt # mul_2 => mul_2 # pow_1 => pow_1 # sum_1 => sum_1 # weight => mul_3 # weight_1 => mul_4 # Graph fragment: # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%primals_5, 0.125), kwargs = {}) # %mul_3 : [num_users=2] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul_2, %view), kwargs = {}) # %pow_1 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%mul_3, 2), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%pow_1, [2, 3, 4]), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%sum_1, 1e-08), kwargs = {}) # %rsqrt : [num_users=2] = call_function[target=torch.ops.aten.rsqrt.default](args = (%add,), kwargs = {}) # %mul_4 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul_3, %view_1), kwargs = {}) triton_per_fused_add_mul_pow_rsqrt_sum_2 = async_compile.triton('triton_per_fused_add_mul_pow_rsqrt_sum_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[16, 64], reduction_hint=ReductionHint.DEFAULT, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32', 5: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_add_mul_pow_rsqrt_sum_2', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 1, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_add_mul_pow_rsqrt_sum_2(in_out_ptr0, in_ptr0, in_ptr1, out_ptr0, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 16 rnumel = 64 RBLOCK: tl.constexpr = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) r5 = rindex x0 = xindex % 4 r3 = (rindex // 16) x1 = (xindex // 4) x4 = xindex tmp0 = tl.load(in_ptr0 + (r5 + (64x0)), xmask, eviction_policy='evict_last', other=0.0) tmp3 = tl.load(in_ptr1 + (r3 + (4x1)), xmask, eviction_policy='evict_last', other=0.0) tmp1 = 0.125 tmp2 = tmp0 * tmp1 tmp4 = tmp2 * tmp3 tmp5 = tmp4 * tmp4 tmp6 = tl.broadcast_to(tmp5, [XBLOCK, RBLOCK]) tmp8 = tl.where(xmask, tmp6, 0) tmp9 = tl.sum(tmp8, 1)[:, None] tmp10 = 1e-08 tmp11 = tmp9 + tmp10 tmp12 = libdevice.rsqrt(tmp11) tmp13 = tmp4 * tmp12 tl.debug_barrier() tl.store(in_out_ptr0 + (x4), tmp12, xmask) tl.store(out_ptr0 + (r5 + (64x4)), tmp13, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/m5/cm56eqdvtyi73jnsik4k6g5v62qofgoqvpcasegx6ljukv6gdjyd.py # Topologically Sorted Source Nodes: [mul_5, out_3, add_2, leaky_relu, out_4], Original ATen: [aten.mul, aten.add, aten.leaky_relu] # Source node to ATen node mapping: # add_2 => add_2 # leaky_relu => gt, mul_6, where # mul_5 => mul_5 # out_3 => add_1 # out_4 => mul_7 # Graph fragment: # %mul_5 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%primals_6, %normal_functional), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%view_4, %mul_5), kwargs = {}) # %add_2 : [num_users=3] = call_function[target=torch.ops.aten.add.Tensor](args = (%add_1, %view_5), kwargs = {}) # %gt : [num_users=2] = call_function[target=torch.ops.aten.gt.Scalar](args = (%add_2, 0), kwargs = {}) # %mul_6 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%add_2, 0.2), kwargs = {}) # %where : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%gt, %add_2, %mul_6), kwargs = {}) # %mul_7 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%where, 1.4142135623730951), kwargs = {}) triton_poi_fused_add_leaky_relu_mul_3 = async_compile.triton('triton_poi_fused_add_leaky_relu_mul_3', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[512], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i1', 5: 'fp32', 6: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_leaky_relu_mul_3', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_leaky_relu_mul_3(in_ptr0, in_ptr1, in_ptr2, in_ptr3, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 400 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 25 x2 = (xindex // 100) x1 = (xindex // 25) % 4 tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr1 + (0)) tmp2 = tl.broadcast_to(tmp1, [XBLOCK]) tmp3 = tl.load(in_ptr2 + (x0 + (25x2)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr3 + (x1), xmask, eviction_policy='evict_last') tmp4 = tmp2 tmp3 tmp5 = tmp0 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = 0.0 tmp9 = tmp7 > tmp8 tmp10 = 0.2 tmp11 = tmp7 * tmp10 tmp12 = tl.where(tmp9, tmp7, tmp11) tmp13 = 1.4142135623730951 tmp14 = tmp12 * tmp13 tl.store(out_ptr0 + (x3), tmp9, xmask) tl.store(out_ptr1 + (x3), tmp14, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4, 4), (4, 1)) assert_size_stride(primals_3, (4, ), (1, )) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (1, 4, 4, 4, 4), (256, 64, 16, 4, 1)) assert_size_stride(primals_6, (1, ), (1, )) assert_size_stride(primals_7, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [mul], Original ATen: [aten.mul] stream0 = get_raw_stream(0) triton_poi_fused_mul_0.run(primals_2, buf0, 16, grid=grid(16), stream=stream0) del primals_2 buf1 = empty_strided_cuda((4, ), (1, ), torch.float32) # Topologically Sorted Source Nodes: [mul_1], Original ATen: [aten.mul] triton_poi_fused_mul_1.run(primals_3, buf1, 4, grid=grid(4), stream=stream0) del primals_3 buf2 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [mul_1, out], Original ATen: [aten.mul, aten.addmm] extern_kernels.addmm(buf1, primals_4, reinterpret_tensor(buf0, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf2) del buf1 buf3 = buf0; del buf0 # reuse buf4 = buf3; del buf3 # reuse buf5 = empty_strided_cuda((4, 4, 4, 4, 4), (256, 64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [mul_2, weight, pow_1, sum_1, add, demod, weight_1], Original ATen: [aten.mul, aten.pow, aten.sum, aten.add, aten.rsqrt] triton_per_fused_add_mul_pow_rsqrt_sum_2.run(buf4, primals_5, buf2, buf5, 16, 64, grid=grid(16), stream=stream0) # Topologically Sorted Source Nodes: [out_1], Original ATen: [aten.convolution] buf6 = extern_kernels.convolution(reinterpret_tensor(primals_1, (1, 16, 4, 4), (256, 16, 4, 1), 0), reinterpret_tensor(buf5, (16, 4, 4, 4), (64, 16, 4, 1), 0), stride=(1, 1), padding=(2, 2), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=4, bias=None) assert_size_stride(buf6, (1, 16, 5, 5), (400, 25, 5, 1)) buf7 = empty_strided_cuda((4, 1, 5, 5), (25, 25, 5, 1), torch.float32) # Topologically Sorted Source Nodes: [noise], Original ATen: [aten.normal_functional] buf8 = torch.ops.aten.normal_functional.default(buf7) del buf7 buf9 = buf8 del buf8 buf10 = empty_strided_cuda((4, 4, 5, 5), (100, 25, 5, 1), torch.bool) buf11 = empty_strided_cuda((4, 4, 5, 5), (100, 25, 5, 1), torch.float32) # Topologically Sorted Source Nodes: [mul_5, out_3, add_2, leaky_relu, out_4], Original ATen: [aten.mul, aten.add, aten.leaky_relu] triton_poi_fused_add_leaky_relu_mul_3.run(buf6, primals_6, buf9, primals_7, buf10, buf11, 400, grid=grid(400), stream=stream0) del buf6 del primals_6 del primals_7 return (buf11, primals_4, primals_5, buf2, buf4, reinterpret_tensor(buf5, (16, 4, 4, 4), (64, 16, 4, 1), 0), reinterpret_tensor(primals_1, (1, 16, 4, 4), (256, 16, 4, 1), 0), buf9, buf10, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((1, 4, 4, 4, 4), (256, 64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((1, ), (1, ), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import math import torch from torch import nn import torch.utils.checkpoint from torch.nn import functional as F def fused_leaky_relu(input, bias, negative_slope=0.2, scale=2 ** 0.5): rest_dim = [1] * (input.ndim - bias.ndim - 1) input = input if input.ndim == 3: return F.leaky_relu(input + bias.view(1, rest_dim, bias.shape[0]), negative_slope=negative_slope) scale else: return F.leaky_relu(input + bias.view(1, bias.shape[0], rest_dim), negative_slope=negative_slope) scale def make_kernel(k): k = torch.tensor(k, dtype=torch.float32) if k.ndim == 1: k = k[None, :] * k[:, None] k /= k.sum() return k def upfirdn2d_native(input, kernel, up_x, up_y, down_x, down_y, pad_x0, pad_x1, pad_y0, pad_y1): _, channel, in_h, in_w = input.shape input = input.reshape(-1, in_h, in_w, 1) _, in_h, in_w, minor = input.shape kernel_h, kernel_w = kernel.shape out = input.view(-1, in_h, 1, in_w, 1, minor) out = F.pad(out, [0, 0, 0, up_x - 1, 0, 0, 0, up_y - 1]) out = out.view(-1, in_h * up_y, in_w * up_x, minor) out = F.pad(out, [0, 0, max(pad_x0, 0), max(pad_x1, 0), max(pad_y0, 0), max(pad_y1, 0)]) out = out[:, max(-pad_y0, 0):out.shape[1] - max(-pad_y1, 0), max(- pad_x0, 0):out.shape[2] - max(-pad_x1, 0), :] out = out.permute(0, 3, 1, 2) out = out.reshape([-1, 1, in_h * up_y + pad_y0 + pad_y1, in_w * up_x + pad_x0 + pad_x1]) w = torch.flip(kernel, [0, 1]).view(1, 1, kernel_h, kernel_w) out = F.conv2d(out, w) out = out.reshape(-1, minor, in_h * up_y + pad_y0 + pad_y1 - kernel_h + 1, in_w * up_x + pad_x0 + pad_x1 - kernel_w + 1) out = out.permute(0, 2, 3, 1) out = out[:, ::down_y, ::down_x, :] out_h = (in_h * up_y + pad_y0 + pad_y1 - kernel_h) // down_y + 1 out_w = (in_w * up_x + pad_x0 + pad_x1 - kernel_w) // down_x + 1 return out.view(-1, channel, out_h, out_w) def upfirdn2d(input, kernel, up=1, down=1, pad=(0, 0)): out = upfirdn2d_native(input, kernel, up, up, down, down, pad[0], pad[1 ], pad[0], pad[1]) return out class EqualLinear(nn.Module): def __init__(self, in_dim, out_dim, bias=True, bias_init=0, lr_mul=1, activation=None): super().__init__() self.weight = nn.Parameter(torch.randn(out_dim, in_dim).div_(lr_mul)) if bias: self.bias = nn.Parameter(torch.zeros(out_dim).fill_(bias_init)) else: self.bias = None self.activation = activation self.scale = 1 / math.sqrt(in_dim) * lr_mul self.lr_mul = lr_mul def forward(self, input): if self.activation: out = F.linear(input, self.weight * self.scale) out = fused_leaky_relu(out, self.bias * self.lr_mul) else: out = F.linear(input, self.weight * self.scale, bias=self.bias * self.lr_mul) return out def __repr__(self): return ( f'{self.__class__.__name__}({self.weight.shape[1]}, {self.weight.shape[0]})' ) class FusedLeakyReLU(nn.Module): def __init__(self, channel, negative_slope=0.2, scale=2 ** 0.5): super().__init__() self.bias = nn.Parameter(torch.zeros(channel)) self.negative_slope = negative_slope self.scale = scale def forward(self, input): return fused_leaky_relu(input, self.bias, self.negative_slope, self .scale) class Blur(nn.Module): def __init__(self, kernel, pad, upsample_factor=1): super().__init__() kernel = make_kernel(kernel) if upsample_factor > 1: kernel = kernel * upsample_factor ** 2 self.register_buffer('kernel', kernel) self.pad = pad def forward(self, input): out = upfirdn2d(input, self.kernel, pad=self.pad) return out class ModulatedConv2d(nn.Module): def __init__(self, in_channel, out_channel, kernel_size, style_dim, demodulate=True, upsample=False, downsample=False, blur_kernel=[1, 3, 3, 1]): super().__init__() self.eps = 1e-08 self.kernel_size = kernel_size self.in_channel = in_channel self.out_channel = out_channel self.upsample = upsample self.downsample = downsample if upsample: factor = 2 p = len(blur_kernel) - factor - (kernel_size - 1) pad0 = (p + 1) // 2 + factor - 1 pad1 = p // 2 + 1 self.blur = Blur(blur_kernel, pad=(pad0, pad1), upsample_factor =factor) if downsample: factor = 2 p = len(blur_kernel) - factor + (kernel_size - 1) pad0 = (p + 1) // 2 pad1 = p // 2 self.blur = Blur(blur_kernel, pad=(pad0, pad1)) fan_in = in_channel * kernel_size ** 2 self.scale = 1 / math.sqrt(fan_in) self.padding = kernel_size // 2 self.weight = nn.Parameter(torch.randn(1, out_channel, in_channel, kernel_size, kernel_size)) self.modulation = EqualLinear(style_dim, in_channel, bias_init=1) self.demodulate = demodulate def __repr__(self): return ( f'{self.__class__.__name__}({self.in_channel}, {self.out_channel}, {self.kernel_size}, upsample={self.upsample}, downsample={self.downsample})' ) def forward(self, input, style): batch, in_channel, height, width = input.shape style = self.modulation(style).view(batch, 1, in_channel, 1, 1) weight = self.scale * self.weight * style if self.demodulate: demod = torch.rsqrt(weight.pow(2).sum([2, 3, 4]) + 1e-08) weight = weight * demod.view(batch, self.out_channel, 1, 1, 1) weight = weight.view(batch * self.out_channel, in_channel, self. kernel_size, self.kernel_size) if self.upsample: input = input.view(1, batch * in_channel, height, width) weight = weight.view(batch, self.out_channel, in_channel, self. kernel_size, self.kernel_size) weight = weight.transpose(1, 2).reshape(batch * in_channel, self.out_channel, self.kernel_size, self.kernel_size) out = F.conv_transpose2d(input, weight, padding=0, stride=2, groups=batch) _, _, height, width = out.shape out = out.view(batch, self.out_channel, height, width) out = self.blur(out) elif self.downsample: input = self.blur(input) _, _, height, width = input.shape input = input.view(1, batch * in_channel, height, width) out = F.conv2d(input, weight, padding=0, stride=2, groups=batch) _, _, height, width = out.shape out = out.view(batch, self.out_channel, height, width) else: input = input.view(1, batch * in_channel, height, width) out = F.conv2d(input, weight, padding=self.padding, groups=batch) _, _, height, width = out.shape out = out.view(batch, self.out_channel, height, width) return out class NoiseInjection(nn.Module): def __init__(self): super().__init__() self.weight = nn.Parameter(torch.zeros(1)) def forward(self, image, noise=None): if noise is None: batch, _, height, width = image.shape noise = image.new_empty(batch, 1, height, width).normal_() return image + self.weight * noise class StyledConv(nn.Module): def __init__(self, in_channel, out_channel, kernel_size, style_dim, upsample=False, blur_kernel=[1, 3, 3, 1], demodulate=True): super().__init__() self.conv = ModulatedConv2d(in_channel, out_channel, kernel_size, style_dim, upsample=upsample, blur_kernel=blur_kernel, demodulate=demodulate) self.noise = NoiseInjection() self.activate = FusedLeakyReLU(out_channel) def forward(self, input, style, noise=None): out = self.conv(input, style) out = self.noise(out, noise=noise) out = self.activate(out) return out def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4])] def get_init_inputs(): return [[], {'in_channel': 4, 'out_channel': 4, 'kernel_size': 4, 'style_dim': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import libdevice import math from torch import nn import torch.utils.checkpoint from torch.nn import functional as F assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_mul_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = 0.5 tmp2 = tmp0 * tmp1 tl.store(out_ptr0 + x0, tmp2, xmask) @triton.jit def triton_poi_fused_mul_1(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 4 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = 1.0 tmp2 = tmp0 * tmp1 tl.store(out_ptr0 + x0, tmp2, xmask) @triton.jit def triton_per_fused_add_mul_pow_rsqrt_sum_2(in_out_ptr0, in_ptr0, in_ptr1, out_ptr0, xnumel, rnumel, XBLOCK: tl.constexpr): xnumel = 16 RBLOCK: tl.constexpr = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] tl.full([XBLOCK, RBLOCK], True, tl.int1) r5 = rindex x0 = xindex % 4 r3 = rindex // 16 x1 = xindex // 4 x4 = xindex tmp0 = tl.load(in_ptr0 + (r5 + 64 * x0), xmask, eviction_policy= 'evict_last', other=0.0) tmp3 = tl.load(in_ptr1 + (r3 + 4 * x1), xmask, eviction_policy= 'evict_last', other=0.0) tmp1 = 0.125 tmp2 = tmp0 * tmp1 tmp4 = tmp2 * tmp3 tmp5 = tmp4 * tmp4 tmp6 = tl.broadcast_to(tmp5, [XBLOCK, RBLOCK]) tmp8 = tl.where(xmask, tmp6, 0) tmp9 = tl.sum(tmp8, 1)[:, None] tmp10 = 1e-08 tmp11 = tmp9 + tmp10 tmp12 = libdevice.rsqrt(tmp11) tmp13 = tmp4 * tmp12 tl.debug_barrier() tl.store(in_out_ptr0 + x4, tmp12, xmask) tl.store(out_ptr0 + (r5 + 64 * x4), tmp13, xmask) @triton.jit def triton_poi_fused_add_leaky_relu_mul_3(in_ptr0, in_ptr1, in_ptr2, in_ptr3, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 400 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 25 x2 = xindex // 100 x1 = xindex // 25 % 4 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr1 + 0) tmp2 = tl.broadcast_to(tmp1, [XBLOCK]) tmp3 = tl.load(in_ptr2 + (x0 + 25 * x2), xmask, eviction_policy= 'evict_last') tmp6 = tl.load(in_ptr3 + x1, xmask, eviction_policy='evict_last') tmp4 = tmp2 * tmp3 tmp5 = tmp0 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = 0.0 tmp9 = tmp7 > tmp8 tmp10 = 0.2 tmp11 = tmp7 * tmp10 tmp12 = tl.where(tmp9, tmp7, tmp11) tmp13 = 1.4142135623730951 tmp14 = tmp12 * tmp13 tl.store(out_ptr0 + x3, tmp9, xmask) tl.store(out_ptr1 + x3, tmp14, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7) = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4, 4), (4, 1)) assert_size_stride(primals_3, (4,), (1,)) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (1, 4, 4, 4, 4), (256, 64, 16, 4, 1)) assert_size_stride(primals_6, (1,), (1,)) assert_size_stride(primals_7, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4), (4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_mul_0[grid(16)](primals_2, buf0, 16, XBLOCK=16, num_warps=1, num_stages=1) del primals_2 buf1 = empty_strided_cuda((4,), (1,), torch.float32) triton_poi_fused_mul_1[grid(4)](primals_3, buf1, 4, XBLOCK=4, num_warps=1, num_stages=1) del primals_3 buf2 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.addmm(buf1, primals_4, reinterpret_tensor(buf0, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf2) del buf1 buf3 = buf0 del buf0 buf4 = buf3 del buf3 buf5 = empty_strided_cuda((4, 4, 4, 4, 4), (256, 64, 16, 4, 1), torch.float32) triton_per_fused_add_mul_pow_rsqrt_sum_2[grid(16)](buf4, primals_5, buf2, buf5, 16, 64, XBLOCK=1, num_warps=2, num_stages=1) buf6 = extern_kernels.convolution(reinterpret_tensor(primals_1, (1, 16, 4, 4), (256, 16, 4, 1), 0), reinterpret_tensor(buf5, (16, 4, 4, 4), (64, 16, 4, 1), 0), stride=(1, 1), padding=(2, 2), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=4, bias=None) assert_size_stride(buf6, (1, 16, 5, 5), (400, 25, 5, 1)) buf7 = empty_strided_cuda((4, 1, 5, 5), (25, 25, 5, 1), torch.float32) buf8 = torch.ops.aten.normal_functional.default(buf7) del buf7 buf9 = buf8 del buf8 buf10 = empty_strided_cuda((4, 4, 5, 5), (100, 25, 5, 1), torch.bool) buf11 = empty_strided_cuda((4, 4, 5, 5), (100, 25, 5, 1), torch.float32 ) triton_poi_fused_add_leaky_relu_mul_3[grid(400)](buf6, primals_6, buf9, primals_7, buf10, buf11, 400, XBLOCK=256, num_warps=4, num_stages=1) del buf6 del primals_6 del primals_7 return buf11, primals_4, primals_5, buf2, buf4, reinterpret_tensor(buf5, (16, 4, 4, 4), (64, 16, 4, 1), 0), reinterpret_tensor(primals_1, (1, 16, 4, 4), (256, 16, 4, 1), 0), buf9, buf10 def fused_leaky_relu(input, bias, negative_slope=0.2, scale=2 ** 0.5): rest_dim = [1] * (input.ndim - bias.ndim - 1) input = input if input.ndim == 3: return F.leaky_relu(input + bias.view(1, rest_dim, bias.shape[0]), negative_slope=negative_slope) scale else: return F.leaky_relu(input + bias.view(1, bias.shape[0], rest_dim), negative_slope=negative_slope) scale def make_kernel(k): k = torch.tensor(k, dtype=torch.float32) if k.ndim == 1: k = k[None, :] * k[:, None] k /= k.sum() return k def upfirdn2d_native(input, kernel, up_x, up_y, down_x, down_y, pad_x0, pad_x1, pad_y0, pad_y1): _, channel, in_h, in_w = input.shape input = input.reshape(-1, in_h, in_w, 1) _, in_h, in_w, minor = input.shape kernel_h, kernel_w = kernel.shape out = input.view(-1, in_h, 1, in_w, 1, minor) out = F.pad(out, [0, 0, 0, up_x - 1, 0, 0, 0, up_y - 1]) out = out.view(-1, in_h * up_y, in_w * up_x, minor) out = F.pad(out, [0, 0, max(pad_x0, 0), max(pad_x1, 0), max(pad_y0, 0), max(pad_y1, 0)]) out = out[:, max(-pad_y0, 0):out.shape[1] - max(-pad_y1, 0), max(- pad_x0, 0):out.shape[2] - max(-pad_x1, 0), :] out = out.permute(0, 3, 1, 2) out = out.reshape([-1, 1, in_h * up_y + pad_y0 + pad_y1, in_w * up_x + pad_x0 + pad_x1]) w = torch.flip(kernel, [0, 1]).view(1, 1, kernel_h, kernel_w) out = F.conv2d(out, w) out = out.reshape(-1, minor, in_h * up_y + pad_y0 + pad_y1 - kernel_h + 1, in_w * up_x + pad_x0 + pad_x1 - kernel_w + 1) out = out.permute(0, 2, 3, 1) out = out[:, ::down_y, ::down_x, :] out_h = (in_h * up_y + pad_y0 + pad_y1 - kernel_h) // down_y + 1 out_w = (in_w * up_x + pad_x0 + pad_x1 - kernel_w) // down_x + 1 return out.view(-1, channel, out_h, out_w) def upfirdn2d(input, kernel, up=1, down=1, pad=(0, 0)): out = upfirdn2d_native(input, kernel, up, up, down, down, pad[0], pad[1 ], pad[0], pad[1]) return out class EqualLinear(nn.Module): def __init__(self, in_dim, out_dim, bias=True, bias_init=0, lr_mul=1, activation=None): super().__init__() self.weight = nn.Parameter(torch.randn(out_dim, in_dim).div_(lr_mul)) if bias: self.bias = nn.Parameter(torch.zeros(out_dim).fill_(bias_init)) else: self.bias = None self.activation = activation self.scale = 1 / math.sqrt(in_dim) * lr_mul self.lr_mul = lr_mul def forward(self, input): if self.activation: out = F.linear(input, self.weight * self.scale) out = fused_leaky_relu(out, self.bias * self.lr_mul) else: out = F.linear(input, self.weight * self.scale, bias=self.bias * self.lr_mul) return out def __repr__(self): return ( f'{self.__class__.__name__}({self.weight.shape[1]}, {self.weight.shape[0]})' ) class FusedLeakyReLU(nn.Module): def __init__(self, channel, negative_slope=0.2, scale=2 ** 0.5): super().__init__() self.bias = nn.Parameter(torch.zeros(channel)) self.negative_slope = negative_slope self.scale = scale def forward(self, input): return fused_leaky_relu(input, self.bias, self.negative_slope, self .scale) class Blur(nn.Module): def __init__(self, kernel, pad, upsample_factor=1): super().__init__() kernel = make_kernel(kernel) if upsample_factor > 1: kernel = kernel * upsample_factor ** 2 self.register_buffer('kernel', kernel) self.pad = pad def forward(self, input): out = upfirdn2d(input, self.kernel, pad=self.pad) return out class ModulatedConv2d(nn.Module): def __init__(self, in_channel, out_channel, kernel_size, style_dim, demodulate=True, upsample=False, downsample=False, blur_kernel=[1, 3, 3, 1]): super().__init__() self.eps = 1e-08 self.kernel_size = kernel_size self.in_channel = in_channel self.out_channel = out_channel self.upsample = upsample self.downsample = downsample if upsample: factor = 2 p = len(blur_kernel) - factor - (kernel_size - 1) pad0 = (p + 1) // 2 + factor - 1 pad1 = p // 2 + 1 self.blur = Blur(blur_kernel, pad=(pad0, pad1), upsample_factor =factor) if downsample: factor = 2 p = len(blur_kernel) - factor + (kernel_size - 1) pad0 = (p + 1) // 2 pad1 = p // 2 self.blur = Blur(blur_kernel, pad=(pad0, pad1)) fan_in = in_channel * kernel_size ** 2 self.scale = 1 / math.sqrt(fan_in) self.padding = kernel_size // 2 self.weight = nn.Parameter(torch.randn(1, out_channel, in_channel, kernel_size, kernel_size)) self.modulation = EqualLinear(style_dim, in_channel, bias_init=1) self.demodulate = demodulate def __repr__(self): return ( f'{self.__class__.__name__}({self.in_channel}, {self.out_channel}, {self.kernel_size}, upsample={self.upsample}, downsample={self.downsample})' ) def forward(self, input, style): batch, in_channel, height, width = input.shape style = self.modulation(style).view(batch, 1, in_channel, 1, 1) weight = self.scale * self.weight * style if self.demodulate: demod = torch.rsqrt(weight.pow(2).sum([2, 3, 4]) + 1e-08) weight = weight * demod.view(batch, self.out_channel, 1, 1, 1) weight = weight.view(batch * self.out_channel, in_channel, self. kernel_size, self.kernel_size) if self.upsample: input = input.view(1, batch * in_channel, height, width) weight = weight.view(batch, self.out_channel, in_channel, self. kernel_size, self.kernel_size) weight = weight.transpose(1, 2).reshape(batch * in_channel, self.out_channel, self.kernel_size, self.kernel_size) out = F.conv_transpose2d(input, weight, padding=0, stride=2, groups=batch) _, _, height, width = out.shape out = out.view(batch, self.out_channel, height, width) out = self.blur(out) elif self.downsample: input = self.blur(input) _, _, height, width = input.shape input = input.view(1, batch * in_channel, height, width) out = F.conv2d(input, weight, padding=0, stride=2, groups=batch) _, _, height, width = out.shape out = out.view(batch, self.out_channel, height, width) else: input = input.view(1, batch * in_channel, height, width) out = F.conv2d(input, weight, padding=self.padding, groups=batch) _, _, height, width = out.shape out = out.view(batch, self.out_channel, height, width) return out class NoiseInjection(nn.Module): def __init__(self): super().__init__() self.weight = nn.Parameter(torch.zeros(1)) def forward(self, image, noise=None): if noise is None: batch, _, height, width = image.shape noise = image.new_empty(batch, 1, height, width).normal_() return image + self.weight * noise class StyledConvNew(nn.Module): def __init__(self, in_channel, out_channel, kernel_size, style_dim, upsample=False, blur_kernel=[1, 3, 3, 1], demodulate=True): super().__init__() self.conv = ModulatedConv2d(in_channel, out_channel, kernel_size, style_dim, upsample=upsample, blur_kernel=blur_kernel, demodulate=demodulate) self.noise = NoiseInjection() self.activate = FusedLeakyReLU(out_channel) def forward(self, input_0, input_1): primals_5 = self.conv.weight primals_2 = self.conv.modulation.weight primals_3 = self.conv.modulation.bias primals_6 = self.noise.weight primals_7 = self.activate.bias primals_1 = input_0 primals_4 = input_1 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7]) return output[0]	Dokhyam/StyleCLIP	StyledConv	false	9,170	[ "MIT" ]	3953c6fda14672762897d3ee16c0458dc848c21d	https://github.com/Dokhyam/StyleCLIP/tree/3953c6fda14672762897d3ee16c0458dc848c21d
DiceLoss	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/d5/cd52mlrkv7fg7ptxw5vaz664ocriv2bgu4unk4oe24v6nbgmv7uv.py # Topologically Sorted Source Nodes: [mul, intersection, ground_o, pred_o], Original ATen: [aten.mul, aten.sum] # Source node to ATen node mapping: # ground_o => sum_2 # intersection => sum_1 # mul => mul # pred_o => sum_3 # Graph fragment: # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%arg1_1, %arg0_1), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%mul, [2, 3]), kwargs = {}) # %sum_2 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%arg1_1, [2, 3]), kwargs = {}) # %sum_3 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%arg0_1, [2, 3]), kwargs = {}) triton_per_fused_mul_sum_0 = async_compile.triton('triton_per_fused_mul_sum_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[16, 16], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'i32', 6: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_mul_sum_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 3, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_mul_sum_0(in_ptr0, in_ptr1, out_ptr0, out_ptr1, out_ptr2, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 16 rnumel = 16 RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) r1 = rindex x0 = xindex tmp0 = tl.load(in_ptr0 + (r1 + (16x0)), xmask, other=0.0) tmp1 = tl.load(in_ptr1 + (r1 + (16x0)), xmask, other=0.0) tmp2 = tmp0 * tmp1 tmp3 = tl.broadcast_to(tmp2, [XBLOCK, RBLOCK]) tmp5 = tl.where(xmask, tmp3, 0) tmp6 = tl.sum(tmp5, 1)[:, None] tmp7 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp9 = tl.where(xmask, tmp7, 0) tmp10 = tl.sum(tmp9, 1)[:, None] tmp11 = tl.broadcast_to(tmp1, [XBLOCK, RBLOCK]) tmp13 = tl.where(xmask, tmp11, 0) tmp14 = tl.sum(tmp13, 1)[:, None] tl.store(out_ptr0 + (x0), tmp6, xmask) tl.store(out_ptr1 + (x0), tmp10, xmask) tl.store(out_ptr2 + (x0), tmp14, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/hj/chjrhkjo6m5kpftlvex45jdnrr3g3jrhba4nk3qs657tmtf2uepl.py # Topologically Sorted Source Nodes: [mul_1, add_1, denominator, add_2, truediv, f, f_1], Original ATen: [aten.mul, aten.add, aten.div, aten.rsub, aten.mean] # Source node to ATen node mapping: # add_1 => add_1 # add_2 => add_2 # denominator => add # f => sub # f_1 => mean # mul_1 => mul_1 # truediv => div # Graph fragment: # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sum_1, 2.0), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_1, 1e-05), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%sum_2, %sum_3), kwargs = {}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%add, 1e-05), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%add_1, %add_2), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (1.0, %div), kwargs = {}) # %mean : [num_users=1] = call_function[target=torch.ops.aten.mean.default](args = (%sub,), kwargs = {}) triton_per_fused_add_div_mean_mul_rsub_1 = async_compile.triton('triton_per_fused_add_div_mean_mul_rsub_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[1, 16], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32', 5: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {4: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 5), equal_to_1=(4,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_add_div_mean_mul_rsub_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 3, 'num_reduction': 1, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_add_div_mean_mul_rsub_1(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 1 rnumel = 16 RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + (r0), None) tmp5 = tl.load(in_ptr1 + (r0), None) tmp6 = tl.load(in_ptr2 + (r0), None) tmp1 = 2.0 tmp2 = tmp0 * tmp1 tmp3 = 1e-05 tmp4 = tmp2 + tmp3 tmp7 = tmp5 + tmp6 tmp8 = tmp7 + tmp3 tmp9 = tmp4 / tmp8 tmp10 = 1.0 tmp11 = tmp10 - tmp9 tmp12 = tl.broadcast_to(tmp11, [XBLOCK, RBLOCK]) tmp14 = tl.sum(tmp12, 1)[:, None] tmp15 = 16.0 tmp16 = tmp14 / tmp15 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([XBLOCK, 1], 0, tl.int32)), tmp16, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4), (4, 1), torch.float32) buf1 = empty_strided_cuda((4, 4), (4, 1), torch.float32) buf2 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [mul, intersection, ground_o, pred_o], Original ATen: [aten.mul, aten.sum] stream0 = get_raw_stream(0) triton_per_fused_mul_sum_0.run(arg1_1, arg0_1, buf0, buf1, buf2, 16, 16, grid=grid(16), stream=stream0) del arg0_1 del arg1_1 buf3 = empty_strided_cuda((), (), torch.float32) buf4 = buf3; del buf3 # reuse # Topologically Sorted Source Nodes: [mul_1, add_1, denominator, add_2, truediv, f, f_1], Original ATen: [aten.mul, aten.add, aten.div, aten.rsub, aten.mean] triton_per_fused_add_div_mean_mul_rsub_1.run(buf4, buf0, buf1, buf2, 1, 16, grid=grid(1), stream=stream0) del buf0 del buf1 del buf2 return (buf4, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import warnings import numpy as np from torch.nn.modules.loss import _Loss def one_hot(labels, num_classes): """ Converts label image `labels` to a one-hot vector with `num_classes` number of channels as last dimension. """ labels = labels % num_classes y = np.eye(num_classes) onehot = y[labels.flatten()] return onehot.reshape(tuple(labels.shape) + (num_classes,)).astype(labels .dtype) class DiceLoss(_Loss): """ Compute average Dice loss between two tensors. It can support both multi-classes and multi-labels tasks. Input logits `input` (BNHW[D] where N is number of classes) is compared with ground truth `target` (BNHW[D]). Axis N of `input` is expected to have logit predictions for each class rather than being image channels, while the same axis of `target` can be 1 or N (one-hot format). The `smooth` parameter is a value added to the intersection and union components of the inter-over-union calculation to smooth results and prevent divide by 0, this value should be small. The `include_background` class attribute can be set to False for an instance of DiceLoss to exclude the first category (channel index 0) which is by convention assumed to be background. If the non-background segmentations are small compared to the total image size they can get overwhelmed by the signal from the background so excluding it in such cases helps convergence. Milletari, F. et. al. (2016) V-Net: Fully Convolutional Neural Networks forVolumetric Medical Image Segmentation, 3DV, 2016. """ def __init__(self, include_background: 'bool'=True, to_onehot_y: 'bool' =False, sigmoid: 'bool'=False, softmax: 'bool'=False, squared_pred: 'bool'=False, jaccard: 'bool'=False, reduction: 'str'='mean'): """ Args: include_background: If False channel index 0 (background category) is excluded from the calculation. to_onehot_y: whether to convert `y` into the one-hot format. Defaults to False. sigmoid: If True, apply a sigmoid function to the prediction. softmax: If True, apply a softmax function to the prediction. squared_pred: use squared versions of targets and predictions in the denominator or not. jaccard: compute Jaccard Index (soft IoU) instead of dice or not. reduction (`none\|mean\|sum`): Specifies the reduction to apply to the output: ``'none'``: no reduction will be applied, ``'mean'``: the sum of the output will be divided by the number of elements in the output, ``'sum'``: the output will be summed. Default: ``'mean'``. """ super().__init__(reduction=reduction) if reduction not in ['none', 'mean', 'sum']: raise ValueError( f'reduction={reduction} is invalid. Valid options are: none, mean or sum.' ) if sigmoid and softmax: raise ValueError( 'do_sigmoid=True and do_softmax=True are not compatible.') self.include_background = include_background self.to_onehot_y = to_onehot_y self.sigmoid = sigmoid self.softmax = softmax self.squared_pred = squared_pred self.jaccard = jaccard def forward(self, input: 'torch.Tensor', target: 'torch.Tensor', smooth: 'float'=1e-05): """ Args: input (tensor): the shape should be BNH[WD]. target (tensor): the shape should be BNH[WD]. smooth: a small constant to avoid nan. """ if self.sigmoid: input = torch.sigmoid(input) n_pred_ch = input.shape[1] if n_pred_ch == 1: if self.softmax: warnings.warn( 'single channel prediction, `softmax=True` ignored.') if self.to_onehot_y: warnings.warn( 'single channel prediction, `to_onehot_y=True` ignored.') if not self.include_background: warnings.warn( 'single channel prediction, `include_background=False` ignored.' ) else: if self.softmax: input = torch.softmax(input, 1) if self.to_onehot_y: target = one_hot(target, num_classes=n_pred_ch) if not self.include_background: target = target[:, 1:] input = input[:, 1:] assert target.shape == input.shape, f'ground truth has differing shape ({target.shape}) from input ({input.shape})' reduce_axis = list(range(2, len(input.shape))) intersection = torch.sum(target * input, dim=reduce_axis) if self.squared_pred: target = torch.pow(target, 2) input = torch.pow(input, 2) ground_o = torch.sum(target, dim=reduce_axis) pred_o = torch.sum(input, dim=reduce_axis) denominator = ground_o + pred_o if self.jaccard: denominator -= intersection f = 1.0 - (2.0 * intersection + smooth) / (denominator + smooth) if self.reduction == 'mean': f = torch.mean(f) elif self.reduction == 'sum': f = torch.sum(f) elif self.reduction == 'none': pass else: raise ValueError(f'reduction={self.reduction} is invalid.') return f def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import numpy as np from torch.nn.modules.loss import _Loss assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_per_fused_mul_sum_0(in_ptr0, in_ptr1, out_ptr0, out_ptr1, out_ptr2, xnumel, rnumel, XBLOCK: tl.constexpr): xnumel = 16 RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] tl.full([XBLOCK, RBLOCK], True, tl.int1) r1 = rindex x0 = xindex tmp0 = tl.load(in_ptr0 + (r1 + 16 * x0), xmask, other=0.0) tmp1 = tl.load(in_ptr1 + (r1 + 16 * x0), xmask, other=0.0) tmp2 = tmp0 * tmp1 tmp3 = tl.broadcast_to(tmp2, [XBLOCK, RBLOCK]) tmp5 = tl.where(xmask, tmp3, 0) tmp6 = tl.sum(tmp5, 1)[:, None] tmp7 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp9 = tl.where(xmask, tmp7, 0) tmp10 = tl.sum(tmp9, 1)[:, None] tmp11 = tl.broadcast_to(tmp1, [XBLOCK, RBLOCK]) tmp13 = tl.where(xmask, tmp11, 0) tmp14 = tl.sum(tmp13, 1)[:, None] tl.store(out_ptr0 + x0, tmp6, xmask) tl.store(out_ptr1 + x0, tmp10, xmask) tl.store(out_ptr2 + x0, tmp14, xmask) @triton.jit def triton_per_fused_add_div_mean_mul_rsub_1(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, xnumel, rnumel, XBLOCK: tl.constexpr): RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) * XBLOCK xoffset + tl.arange(0, XBLOCK)[:, None] tl.full([XBLOCK, RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[None, :] tl.full([XBLOCK, RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + r0, None) tmp5 = tl.load(in_ptr1 + r0, None) tmp6 = tl.load(in_ptr2 + r0, None) tmp1 = 2.0 tmp2 = tmp0 * tmp1 tmp3 = 1e-05 tmp4 = tmp2 + tmp3 tmp7 = tmp5 + tmp6 tmp8 = tmp7 + tmp3 tmp9 = tmp4 / tmp8 tmp10 = 1.0 tmp11 = tmp10 - tmp9 tmp12 = tl.broadcast_to(tmp11, [XBLOCK, RBLOCK]) tmp14 = tl.sum(tmp12, 1)[:, None] tmp15 = 16.0 tmp16 = tmp14 / tmp15 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([XBLOCK, 1], 0, tl.int32), tmp16, None) def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4), (4, 1), torch.float32) buf1 = empty_strided_cuda((4, 4), (4, 1), torch.float32) buf2 = empty_strided_cuda((4, 4), (4, 1), torch.float32) get_raw_stream(0) triton_per_fused_mul_sum_0[grid(16)](arg1_1, arg0_1, buf0, buf1, buf2, 16, 16, XBLOCK=8, num_warps=2, num_stages=1) del arg0_1 del arg1_1 buf3 = empty_strided_cuda((), (), torch.float32) buf4 = buf3 del buf3 triton_per_fused_add_div_mean_mul_rsub_1[grid(1)](buf4, buf0, buf1, buf2, 1, 16, XBLOCK=1, num_warps=2, num_stages=1) del buf0 del buf1 del buf2 return buf4, def one_hot(labels, num_classes): """ Converts label image `labels` to a one-hot vector with `num_classes` number of channels as last dimension. """ labels = labels % num_classes y = np.eye(num_classes) onehot = y[labels.flatten()] return onehot.reshape(tuple(labels.shape) + (num_classes,)).astype(labels .dtype) class DiceLossNew(_Loss): """ Compute average Dice loss between two tensors. It can support both multi-classes and multi-labels tasks. Input logits `input` (BNHW[D] where N is number of classes) is compared with ground truth `target` (BNHW[D]). Axis N of `input` is expected to have logit predictions for each class rather than being image channels, while the same axis of `target` can be 1 or N (one-hot format). The `smooth` parameter is a value added to the intersection and union components of the inter-over-union calculation to smooth results and prevent divide by 0, this value should be small. The `include_background` class attribute can be set to False for an instance of DiceLoss to exclude the first category (channel index 0) which is by convention assumed to be background. If the non-background segmentations are small compared to the total image size they can get overwhelmed by the signal from the background so excluding it in such cases helps convergence. Milletari, F. et. al. (2016) V-Net: Fully Convolutional Neural Networks forVolumetric Medical Image Segmentation, 3DV, 2016. """ def __init__(self, include_background: 'bool'=True, to_onehot_y: 'bool' =False, sigmoid: 'bool'=False, softmax: 'bool'=False, squared_pred: 'bool'=False, jaccard: 'bool'=False, reduction: 'str'='mean'): """ Args: include_background: If False channel index 0 (background category) is excluded from the calculation. to_onehot_y: whether to convert `y` into the one-hot format. Defaults to False. sigmoid: If True, apply a sigmoid function to the prediction. softmax: If True, apply a softmax function to the prediction. squared_pred: use squared versions of targets and predictions in the denominator or not. jaccard: compute Jaccard Index (soft IoU) instead of dice or not. reduction (`none\|mean\|sum`): Specifies the reduction to apply to the output: ``'none'``: no reduction will be applied, ``'mean'``: the sum of the output will be divided by the number of elements in the output, ``'sum'``: the output will be summed. Default: ``'mean'``. """ super().__init__(reduction=reduction) if reduction not in ['none', 'mean', 'sum']: raise ValueError( f'reduction={reduction} is invalid. Valid options are: none, mean or sum.' ) if sigmoid and softmax: raise ValueError( 'do_sigmoid=True and do_softmax=True are not compatible.') self.include_background = include_background self.to_onehot_y = to_onehot_y self.sigmoid = sigmoid self.softmax = softmax self.squared_pred = squared_pred self.jaccard = jaccard def forward(self, input_0, input_1): arg0_1 = input_0 arg1_1 = input_1 output = call([arg0_1, arg1_1]) return output[0]	JanSellner/MONAI	DiceLoss	false	9,171	[ "Apache-2.0" ]	ff8fa2bae94914030abb1bc0680417fdaa74afd8	https://github.com/JanSellner/MONAI/tree/ff8fa2bae94914030abb1bc0680417fdaa74afd8
FusedLeakyReLU	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/cx/ccxnongcgusvhvf5whrpjbz4ddnlsjovjzjngbpjfxvhdw7ihrhu.py # Topologically Sorted Source Nodes: [add, leaky_relu, mul], Original ATen: [aten.add, aten.leaky_relu, aten.mul] # Source node to ATen node mapping: # add => add # leaky_relu => gt, mul, where # mul => mul_1 # Graph fragment: # %add : [num_users=3] = call_function[target=torch.ops.aten.add.Tensor](args = (%primals_2, %view), kwargs = {}) # %gt : [num_users=2] = call_function[target=torch.ops.aten.gt.Scalar](args = (%add, 0), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%add, 0.2), kwargs = {}) # %where : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%gt, %add, %mul), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%where, 1.4142135623730951), kwargs = {}) triton_poi_fused_add_leaky_relu_mul_0 = async_compile.triton('triton_poi_fused_add_leaky_relu_mul_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i1', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_leaky_relu_mul_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_leaky_relu_mul_0(in_ptr0, in_ptr1, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 16) % 4 tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr1 + (x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = tmp2 > tmp3 tmp5 = 0.2 tmp6 = tmp2 * tmp5 tmp7 = tl.where(tmp4, tmp2, tmp6) tmp8 = 1.4142135623730951 tmp9 = tmp7 * tmp8 tl.store(out_ptr0 + (x3), tmp4, xmask) tl.store(out_ptr1 + (x3), tmp9, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2 = args args.clear() assert_size_stride(primals_1, (4, ), (1, )) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [add, leaky_relu, mul], Original ATen: [aten.add, aten.leaky_relu, aten.mul] stream0 = get_raw_stream(0) triton_poi_fused_add_leaky_relu_mul_0.run(primals_2, primals_1, buf0, buf1, 256, grid=grid(256), stream=stream0) del primals_1 del primals_2 return (buf1, buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch from torch import nn import torch.utils.checkpoint from torch.nn import functional as F def fused_leaky_relu(input, bias, negative_slope=0.2, scale=2 ** 0.5): rest_dim = [1] * (input.ndim - bias.ndim - 1) input = input if input.ndim == 3: return F.leaky_relu(input + bias.view(1, rest_dim, bias.shape[0]), negative_slope=negative_slope) scale else: return F.leaky_relu(input + bias.view(1, bias.shape[0], rest_dim), negative_slope=negative_slope) scale class FusedLeakyReLU(nn.Module): def __init__(self, channel, negative_slope=0.2, scale=2 ** 0.5): super().__init__() self.bias = nn.Parameter(torch.zeros(channel)) self.negative_slope = negative_slope self.scale = scale def forward(self, input): return fused_leaky_relu(input, self.bias, self.negative_slope, self .scale) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'channel': 4}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch import nn import torch.utils.checkpoint from torch.nn import functional as F assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_add_leaky_relu_mul_0(in_ptr0, in_ptr1, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = xindex // 16 % 4 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr1 + x1, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = tmp2 > tmp3 tmp5 = 0.2 tmp6 = tmp2 * tmp5 tmp7 = tl.where(tmp4, tmp2, tmp6) tmp8 = 1.4142135623730951 tmp9 = tmp7 * tmp8 tl.store(out_ptr0 + x3, tmp4, xmask) tl.store(out_ptr1 + x3, tmp9, xmask) def call(args): primals_1, primals_2 = args args.clear() assert_size_stride(primals_1, (4,), (1,)) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_add_leaky_relu_mul_0[grid(256)](primals_2, primals_1, buf0, buf1, 256, XBLOCK=256, num_warps=4, num_stages=1) del primals_1 del primals_2 return buf1, buf0 def fused_leaky_relu(input, bias, negative_slope=0.2, scale=2 ** 0.5): rest_dim = [1] * (input.ndim - bias.ndim - 1) input = input if input.ndim == 3: return F.leaky_relu(input + bias.view(1, rest_dim, bias.shape[0]), negative_slope=negative_slope) scale else: return F.leaky_relu(input + bias.view(1, bias.shape[0], rest_dim), negative_slope=negative_slope) scale class FusedLeakyReLUNew(nn.Module): def __init__(self, channel, negative_slope=0.2, scale=2 ** 0.5): super().__init__() self.bias = nn.Parameter(torch.zeros(channel)) self.negative_slope = negative_slope self.scale = scale def forward(self, input_0): primals_1 = self.bias primals_2 = input_0 output = call([primals_1, primals_2]) return output[0]	Dokhyam/StyleCLIP	FusedLeakyReLU	false	9,172	[ "MIT" ]	3953c6fda14672762897d3ee16c0458dc848c21d	https://github.com/Dokhyam/StyleCLIP/tree/3953c6fda14672762897d3ee16c0458dc848c21d
PolicyNet	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/dw/cdw2zafobuhspvpds5vqtjyxlmdcpljwkwnnptboqhmdn4cucexl.py # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # x_1 => relu # Graph fragment: # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%view_2,), kwargs = {}) # %le_1 : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu, 0), kwargs = {}) triton_poi_fused_relu_threshold_backward_0 = async_compile.triton('triton_poi_fused_relu_threshold_backward_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[32], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i1', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_relu_threshold_backward_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_relu_threshold_backward_0(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 32 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_out_ptr0 + (x0), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask) tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + (x0), tmp4, xmask) tl.store(out_ptr0 + (x0), tmp6, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/cv/ccvicmhiupo7cb3dwu3rzvk4zvi24nzhtwz7a5c4ke3qpmz3ofpe.py # Topologically Sorted Source Nodes: [x_2], Original ATen: [aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # x_2 => relu_1 # Graph fragment: # %relu_1 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%view_4,), kwargs = {}) # %le : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu_1, 0), kwargs = {}) triton_poi_fused_relu_threshold_backward_1 = async_compile.triton('triton_poi_fused_relu_threshold_backward_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i1', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_relu_threshold_backward_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_relu_threshold_backward_1(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_out_ptr0 + (x0), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask) tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + (x0), tmp4, xmask) tl.store(out_ptr0 + (x0), tmp6, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/b7/cb7vnm667c3hkemb2kb2te4xaksxxmusg2vfsj3soubyx4w2wids.py # Topologically Sorted Source Nodes: [x_3], Original ATen: [aten.sigmoid] # Source node to ATen node mapping: # x_3 => sigmoid # Graph fragment: # %sigmoid : [num_users=1] = call_function[target=torch.ops.aten.sigmoid.default](args = (%view_6,), kwargs = {}) triton_poi_fused_sigmoid_2 = async_compile.triton('triton_poi_fused_sigmoid_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[4], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_sigmoid_2', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_sigmoid_2(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 4 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_out_ptr0 + (x0), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask) tmp2 = tmp0 + tmp1 tmp3 = tl.sigmoid(tmp2) tl.store(in_out_ptr0 + (x0), tmp3, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7 = args args.clear() assert_size_stride(primals_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_2, (32, 64), (64, 1)) assert_size_stride(primals_3, (32, ), (1, )) assert_size_stride(primals_4, (16, 32), (32, 1)) assert_size_stride(primals_5, (16, ), (1, )) assert_size_stride(primals_6, (4, 16), (16, 1)) assert_size_stride(primals_7, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((1, 32), (32, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_1, (1, 64), (64, 1), 0), reinterpret_tensor(primals_2, (64, 32), (1, 64), 0), out=buf0) del primals_2 buf1 = reinterpret_tensor(buf0, (32, ), (1, ), 0); del buf0 # reuse buf7 = empty_strided_cuda((32, ), (1, ), torch.bool) # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.relu, aten.threshold_backward] stream0 = get_raw_stream(0) triton_poi_fused_relu_threshold_backward_0.run(buf1, primals_3, buf7, 32, grid=grid(32), stream=stream0) del primals_3 buf2 = empty_strided_cuda((1, 16), (16, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf1, (1, 32), (0, 1), 0), reinterpret_tensor(primals_4, (32, 16), (1, 32), 0), out=buf2) buf3 = reinterpret_tensor(buf2, (16, ), (1, ), 0); del buf2 # reuse buf6 = empty_strided_cuda((16, ), (1, ), torch.bool) # Topologically Sorted Source Nodes: [x_2], Original ATen: [aten.relu, aten.threshold_backward] triton_poi_fused_relu_threshold_backward_1.run(buf3, primals_5, buf6, 16, grid=grid(16), stream=stream0) del primals_5 buf4 = empty_strided_cuda((1, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf3, (1, 16), (0, 1), 0), reinterpret_tensor(primals_6, (16, 4), (1, 16), 0), out=buf4) buf5 = reinterpret_tensor(buf4, (4, ), (1, ), 0); del buf4 # reuse # Topologically Sorted Source Nodes: [x_3], Original ATen: [aten.sigmoid] triton_poi_fused_sigmoid_2.run(buf5, primals_7, 4, grid=grid(4), stream=stream0) del primals_7 return (buf5, reinterpret_tensor(primals_1, (1, 64), (64, 1), 0), reinterpret_tensor(buf1, (1, 32), (32, 1), 0), reinterpret_tensor(buf3, (1, 16), (16, 1), 0), buf5, primals_6, buf6, primals_4, buf7, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((32, 64), (64, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((32, ), (1, ), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((16, 32), (32, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((16, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((4, 16), (16, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.nn.functional as F class PolicyNet(nn.Module): def __init__(self): super(PolicyNet, self).__init__() self.fc1 = nn.Linear(64, 32) self.fc2 = nn.Linear(32, 16) self.fc3 = nn.Linear(16, 4) def forward(self, x): x = torch.flatten(x) x = F.relu(self.fc1(x)) x = F.relu(self.fc2(x)) x = torch.sigmoid(self.fc3(x)) return x def get_inputs(): return [torch.rand([4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_relu_threshold_backward_0(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 32 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_out_ptr0 + x0, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask) tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + x0, tmp4, xmask) tl.store(out_ptr0 + x0, tmp6, xmask) @triton.jit def triton_poi_fused_relu_threshold_backward_1(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_out_ptr0 + x0, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask) tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + x0, tmp4, xmask) tl.store(out_ptr0 + x0, tmp6, xmask) @triton.jit def triton_poi_fused_sigmoid_2(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 4 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_out_ptr0 + x0, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask) tmp2 = tmp0 + tmp1 tmp3 = tl.sigmoid(tmp2) tl.store(in_out_ptr0 + x0, tmp3, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7) = args args.clear() assert_size_stride(primals_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_2, (32, 64), (64, 1)) assert_size_stride(primals_3, (32,), (1,)) assert_size_stride(primals_4, (16, 32), (32, 1)) assert_size_stride(primals_5, (16,), (1,)) assert_size_stride(primals_6, (4, 16), (16, 1)) assert_size_stride(primals_7, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((1, 32), (32, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_1, (1, 64), (64, 1), 0 ), reinterpret_tensor(primals_2, (64, 32), (1, 64), 0), out=buf0) del primals_2 buf1 = reinterpret_tensor(buf0, (32,), (1,), 0) del buf0 buf7 = empty_strided_cuda((32,), (1,), torch.bool) get_raw_stream(0) triton_poi_fused_relu_threshold_backward_0[grid(32)](buf1, primals_3, buf7, 32, XBLOCK=32, num_warps=1, num_stages=1) del primals_3 buf2 = empty_strided_cuda((1, 16), (16, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf1, (1, 32), (0, 1), 0), reinterpret_tensor(primals_4, (32, 16), (1, 32), 0), out=buf2) buf3 = reinterpret_tensor(buf2, (16,), (1,), 0) del buf2 buf6 = empty_strided_cuda((16,), (1,), torch.bool) triton_poi_fused_relu_threshold_backward_1[grid(16)](buf3, primals_5, buf6, 16, XBLOCK=16, num_warps=1, num_stages=1) del primals_5 buf4 = empty_strided_cuda((1, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf3, (1, 16), (0, 1), 0), reinterpret_tensor(primals_6, (16, 4), (1, 16), 0), out=buf4) buf5 = reinterpret_tensor(buf4, (4,), (1,), 0) del buf4 triton_poi_fused_sigmoid_2[grid(4)](buf5, primals_7, 4, XBLOCK=4, num_warps=1, num_stages=1) del primals_7 return buf5, reinterpret_tensor(primals_1, (1, 64), (64, 1), 0 ), reinterpret_tensor(buf1, (1, 32), (32, 1), 0), reinterpret_tensor( buf3, (1, 16), (16, 1), 0), buf5, primals_6, buf6, primals_4, buf7 class PolicyNetNew(nn.Module): def __init__(self): super(PolicyNetNew, self).__init__() self.fc1 = nn.Linear(64, 32) self.fc2 = nn.Linear(32, 16) self.fc3 = nn.Linear(16, 4) def forward(self, input_0): primals_2 = self.fc1.weight primals_3 = self.fc1.bias primals_4 = self.fc2.weight primals_5 = self.fc2.bias primals_6 = self.fc3.weight primals_7 = self.fc3.bias primals_1 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7]) return output[0]	Jontahan/kvad	PolicyNet	false	9,173	[ "MIT" ]	1b22db801048beb948b34bdd615ebe8630d13d9f	https://github.com/Jontahan/kvad/tree/1b22db801048beb948b34bdd615ebe8630d13d9f
Res	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/r3/cr3febcwm3t44fuoitsx3ou2p6xg4sk4f7unagmmrvffasxf47te.py # Topologically Sorted Source Nodes: [relu], Original ATen: [aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # relu => relu # Graph fragment: # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%view_3,), kwargs = {}) # %le_3 : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu, 0), kwargs = {}) triton_poi_fused_relu_threshold_backward_0 = async_compile.triton('triton_poi_fused_relu_threshold_backward_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i1', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_relu_threshold_backward_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_relu_threshold_backward_0(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + (x2), tmp4, xmask) tl.store(out_ptr0 + (x2), tmp6, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_8/inductor_cache/r6/cr63ze2s4nyibxhdooj7swbg2ctvwvuovkbl6agdnu2jyrtwlqos.py # Topologically Sorted Source Nodes: [relu_1, y_1], Original ATen: [aten.relu, aten.add, aten.threshold_backward] # Source node to ATen node mapping: # relu_1 => relu_1 # y_1 => add # Graph fragment: # %relu_1 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%view_5,), kwargs = {}) # %add : [num_users=2] = call_function[target=torch.ops.aten.add.Tensor](args = (%view_1, %relu_1), kwargs = {}) # %le_2 : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu_1, 0), kwargs = {}) triton_poi_fused_add_relu_threshold_backward_1 = async_compile.triton('triton_poi_fused_add_relu_threshold_backward_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i1', 5: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_relu_threshold_backward_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 3, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_relu_threshold_backward_1(in_ptr0, in_ptr1, in_ptr2, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr1 + (x2), xmask) tmp2 = tl.load(in_ptr2 + (x0), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp4 = tl.full([1], 0, tl.int32) tmp5 = triton_helpers.maximum(tmp4, tmp3) tmp6 = tmp0 + tmp5 tmp7 = 0.0 tmp8 = tmp5 <= tmp7 tl.store(out_ptr0 + (x2), tmp6, xmask) tl.store(out_ptr1 + (x2), tmp8, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (4, ), (1, )) assert_size_stride(primals_6, (4, 4), (4, 1)) assert_size_stride(primals_7, (4, ), (1, )) assert_size_stride(primals_8, (4, 4), (4, 1)) assert_size_stride(primals_9, (4, ), (1, )) assert_size_stride(primals_10, (4, 4), (4, 1)) assert_size_stride(primals_11, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [y], Original ATen: [aten.addmm] extern_kernels.addmm(primals_2, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf0) del primals_1 del primals_2 buf1 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(buf0, reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), out=buf1) buf2 = reinterpret_tensor(buf1, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf1 # reuse buf12 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) # Topologically Sorted Source Nodes: [relu], Original ATen: [aten.relu, aten.threshold_backward] stream0 = get_raw_stream(0) triton_poi_fused_relu_threshold_backward_0.run(buf2, primals_5, buf12, 256, grid=grid(256), stream=stream0) del primals_5 buf3 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf2, (64, 4), (4, 1), 0), reinterpret_tensor(primals_6, (4, 4), (1, 4), 0), out=buf3) buf4 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf11 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) # Topologically Sorted Source Nodes: [relu_1, y_1], Original ATen: [aten.relu, aten.add, aten.threshold_backward] triton_poi_fused_add_relu_threshold_backward_1.run(buf0, buf3, primals_7, buf4, buf11, 256, grid=grid(256), stream=stream0) del primals_7 buf5 = buf3; del buf3 # reuse # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf4, (64, 4), (4, 1), 0), reinterpret_tensor(primals_8, (4, 4), (1, 4), 0), out=buf5) buf6 = reinterpret_tensor(buf5, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf5 # reuse buf10 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) # Topologically Sorted Source Nodes: [relu_2], Original ATen: [aten.relu, aten.threshold_backward] triton_poi_fused_relu_threshold_backward_0.run(buf6, primals_9, buf10, 256, grid=grid(256), stream=stream0) del primals_9 buf7 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf6, (64, 4), (4, 1), 0), reinterpret_tensor(primals_10, (4, 4), (1, 4), 0), out=buf7) buf8 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf9 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) # Topologically Sorted Source Nodes: [relu_3, add_1], Original ATen: [aten.relu, aten.add, aten.threshold_backward] triton_poi_fused_add_relu_threshold_backward_1.run(buf4, buf7, primals_11, buf8, buf9, 256, grid=grid(256), stream=stream0) del buf7 del primals_11 return (buf8, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), buf0, reinterpret_tensor(buf2, (64, 4), (4, 1), 0), reinterpret_tensor(buf4, (64, 4), (4, 1), 0), reinterpret_tensor(buf6, (64, 4), (4, 1), 0), buf9, primals_10, buf10, primals_8, buf11, primals_6, buf12, primals_4, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_10 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_11 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch from torch import nn import torch.distributions class Res(nn.Module): def __init__(self, H): super().__init__() self.u1 = nn.Linear(H, H) self.u2 = nn.Linear(H, H) self.v1 = nn.Linear(H, H) self.v2 = nn.Linear(H, H) self.w = nn.Linear(H, H) def forward(self, y): y = self.w(y) y = y + torch.relu(self.v1(torch.relu(self.u1(y)))) return y + torch.relu(self.v2(torch.relu(self.u2(y)))) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'H': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch import nn import torch.distributions assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_relu_threshold_backward_0(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + x2, tmp4, xmask) tl.store(out_ptr0 + x2, tmp6, xmask) @triton.jit def triton_poi_fused_add_relu_threshold_backward_1(in_ptr0, in_ptr1, in_ptr2, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr1 + x2, xmask) tmp2 = tl.load(in_ptr2 + x0, xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp4 = tl.full([1], 0, tl.int32) tmp5 = triton_helpers.maximum(tmp4, tmp3) tmp6 = tmp0 + tmp5 tmp7 = 0.0 tmp8 = tmp5 <= tmp7 tl.store(out_ptr0 + x2, tmp6, xmask) tl.store(out_ptr1 + x2, tmp8, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11) = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (4,), (1,)) assert_size_stride(primals_6, (4, 4), (4, 1)) assert_size_stride(primals_7, (4,), (1,)) assert_size_stride(primals_8, (4, 4), (4, 1)) assert_size_stride(primals_9, (4,), (1,)) assert_size_stride(primals_10, (4, 4), (4, 1)) assert_size_stride(primals_11, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_2, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0 ), alpha=1, beta=1, out=buf0) del primals_1 del primals_2 buf1 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(buf0, reinterpret_tensor(primals_4, (4, 4), (1, 4 ), 0), out=buf1) buf2 = reinterpret_tensor(buf1, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf1 buf12 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) get_raw_stream(0) triton_poi_fused_relu_threshold_backward_0[grid(256)](buf2, primals_5, buf12, 256, XBLOCK=256, num_warps=4, num_stages=1) del primals_5 buf3 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf2, (64, 4), (4, 1), 0), reinterpret_tensor(primals_6, (4, 4), (1, 4), 0), out=buf3) buf4 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf11 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) triton_poi_fused_add_relu_threshold_backward_1[grid(256)](buf0, buf3, primals_7, buf4, buf11, 256, XBLOCK=256, num_warps=4, num_stages=1) del primals_7 buf5 = buf3 del buf3 extern_kernels.mm(reinterpret_tensor(buf4, (64, 4), (4, 1), 0), reinterpret_tensor(primals_8, (4, 4), (1, 4), 0), out=buf5) buf6 = reinterpret_tensor(buf5, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf5 buf10 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) triton_poi_fused_relu_threshold_backward_0[grid(256)](buf6, primals_9, buf10, 256, XBLOCK=256, num_warps=4, num_stages=1) del primals_9 buf7 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf6, (64, 4), (4, 1), 0), reinterpret_tensor(primals_10, (4, 4), (1, 4), 0), out=buf7) buf8 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf9 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) triton_poi_fused_add_relu_threshold_backward_1[grid(256)](buf4, buf7, primals_11, buf8, buf9, 256, XBLOCK=256, num_warps=4, num_stages=1) del buf7 del primals_11 return buf8, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0 ), buf0, reinterpret_tensor(buf2, (64, 4), (4, 1), 0 ), reinterpret_tensor(buf4, (64, 4), (4, 1), 0), reinterpret_tensor( buf6, (64, 4), (4, 1), 0 ), buf9, primals_10, buf10, primals_8, buf11, primals_6, buf12, primals_4 class ResNew(nn.Module): def __init__(self, H): super().__init__() self.u1 = nn.Linear(H, H) self.u2 = nn.Linear(H, H) self.v1 = nn.Linear(H, H) self.v2 = nn.Linear(H, H) self.w = nn.Linear(H, H) def forward(self, input_0): primals_1 = self.u1.weight primals_2 = self.u1.bias primals_4 = self.u2.weight primals_5 = self.u2.bias primals_6 = self.v1.weight primals_7 = self.v1.bias primals_8 = self.v2.weight primals_9 = self.v2.bias primals_10 = self.w.weight primals_11 = self.w.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11]) return output[0]	JohnReid/pytorch-struct	Res	false	9,174	[ "MIT" ]	d9d4dd166f90a012aef6917ff7a14c708ced3477	https://github.com/JohnReid/pytorch-struct/tree/d9d4dd166f90a012aef6917ff7a14c708ced3477
ConvertPointsToHomogeneous	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_8/inductor_cache/2o/c2ouwmbjvteb4nvr7vyvyz6jp657ga66uiadoicxwun5d3s4kog7.py # Topologically Sorted Source Nodes: [pad], Original ATen: [aten.constant_pad_nd] # Source node to ATen node mapping: # pad => constant_pad_nd # Graph fragment: # %constant_pad_nd : [num_users=1] = call_function[target=torch.ops.aten.constant_pad_nd.default](args = (%arg0_1, [0, 1], 1.0), kwargs = {}) triton_poi_fused_constant_pad_nd_0 = async_compile.triton('triton_poi_fused_constant_pad_nd_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[512], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=80, major=8, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=108), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_constant_pad_nd_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'A9C866B4A14FD3277824029365D703C2427B2E685E54EC9B3EF4ADC8D1EEAC1D', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_constant_pad_nd_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 320 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 5 x1 = (xindex // 5) x2 = xindex tmp0 = x0 tmp1 = tl.full([1], 4, tl.int64) tmp2 = tmp0 < tmp1 tmp3 = tl.load(in_ptr0 + (x0 + (4*x1)), tmp2 & xmask, other=1.0) tl.store(out_ptr0 + (x2), tmp3, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 5), (80, 20, 5, 1), torch.float32) # Topologically Sorted Source Nodes: [pad], Original ATen: [aten.constant_pad_nd] stream0 = get_raw_stream(0) triton_poi_fused_constant_pad_nd_0.run(arg0_1, buf0, 320, grid=grid(320), stream=stream0) del arg0_1 return (buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn def convert_points_to_homogeneous(points): """Function that converts points from Euclidean to homogeneous space. See :class:`~torchgeometry.ConvertPointsToHomogeneous` for details. Examples:: >>> input = torch.rand(2, 4, 3) # BxNx3 >>> output = tgm.convert_points_to_homogeneous(input) # BxNx4 """ if not torch.is_tensor(points): raise TypeError('Input type is not a torch.Tensor. Got {}'.format( type(points))) if len(points.shape) < 2: raise ValueError('Input must be at least a 2D tensor. Got {}'. format(points.shape)) return nn.functional.pad(points, (0, 1), 'constant', 1.0) class ConvertPointsToHomogeneous(nn.Module): """Creates a transformation to convert points from Euclidean to homogeneous space. Args: points (Tensor): tensor of N-dimensional points. Returns: Tensor: tensor of N+1-dimensional points. Shape: - Input: :math:`(B, D, N)` or :math:`(D, N)` - Output: :math:`(B, D, N + 1)` or :math:`(D, N + 1)` Examples:: >>> input = torch.rand(2, 4, 3) # BxNx3 >>> transform = tgm.ConvertPointsToHomogeneous() >>> output = transform(input) # BxNx4 """ def __init__(self): super(ConvertPointsToHomogeneous, self).__init__() def forward(self, input): return convert_points_to_homogeneous(input) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_constant_pad_nd_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 320 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 5 x1 = xindex // 5 x2 = xindex tmp0 = x0 tmp1 = tl.full([1], 4, tl.int64) tmp2 = tmp0 < tmp1 tmp3 = tl.load(in_ptr0 + (x0 + 4 * x1), tmp2 & xmask, other=1.0) tl.store(out_ptr0 + x2, tmp3, xmask) def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 5), (80, 20, 5, 1), torch.float32) get_raw_stream(0) triton_poi_fused_constant_pad_nd_0[grid(320)](arg0_1, buf0, 320, XBLOCK=256, num_warps=4, num_stages=1) del arg0_1 return buf0, def convert_points_to_homogeneous(points): """Function that converts points from Euclidean to homogeneous space. See :class:`~torchgeometry.ConvertPointsToHomogeneous` for details. Examples:: >>> input = torch.rand(2, 4, 3) # BxNx3 >>> output = tgm.convert_points_to_homogeneous(input) # BxNx4 """ if not torch.is_tensor(points): raise TypeError('Input type is not a torch.Tensor. Got {}'.format( type(points))) if len(points.shape) < 2: raise ValueError('Input must be at least a 2D tensor. Got {}'. format(points.shape)) return nn.functional.pad(points, (0, 1), 'constant', 1.0) class ConvertPointsToHomogeneousNew(nn.Module): """Creates a transformation to convert points from Euclidean to homogeneous space. Args: points (Tensor): tensor of N-dimensional points. Returns: Tensor: tensor of N+1-dimensional points. Shape: - Input: :math:`(B, D, N)` or :math:`(D, N)` - Output: :math:`(B, D, N + 1)` or :math:`(D, N + 1)` Examples:: >>> input = torch.rand(2, 4, 3) # BxNx3 >>> transform = tgm.ConvertPointsToHomogeneous() >>> output = transform(input) # BxNx4 """ def __init__(self): super(ConvertPointsToHomogeneousNew, self).__init__() def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	JudyYe/frankmocap	ConvertPointsToHomogeneous	false	9,175	[ "BSD-3-Clause" ]	b6e63f344e852ebdbca0095643b5bc0466370891	https://github.com/JudyYe/frankmocap/tree/b6e63f344e852ebdbca0095643b5bc0466370891

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