venv/lib/python3.10/site-packages/deepspeed/inference/engine.py

# Copyright (c) Microsoft Corporation.
# SPDX-License-Identifier: Apache-2.0

# DeepSpeed Team

import torch
import time
import os
from deepspeed import comm as dist
from deepspeed.utils.logging import log_dist

from torch.nn.modules import Module
from packaging import version as pkg_version
from deepspeed.runtime.checkpoint_engine.torch_checkpoint_engine import TorchCheckpointEngine
from deepspeed.utils.timer import SynchronizedWallClockTimer

from ..runtime.state_dict_factory import SDLoaderFactory
from ..runtime.weight_quantizer import WeightQuantization
from ..module_inject import replace_transformer_layer, generic_injection
from ..comm.comm import init_distributed
from ..pipe import PipelineModule
from ..moe.utils import has_moe_layers
from ..module_inject import LinearAllreduce, LinearLayer, Normalize, ReplaceWithTensorSlicing
from deepspeed.accelerator import get_accelerator
from ..module_inject.policy import TransformerPolicy
from ..module_inject.auto_tp import AutoTP

from ..module_inject.replace_policy import generic_policies
from ..module_inject.auto_tp_model_utils import build_bloom_alibi_tensor, build_mpt_atten_bias_tensor, build_mpt_alibi_tensor, get_alibi_mask
from ..ops.transformer.inference.ds_attention import DeepSpeedSelfAttention
from ..model_implementations.transformers.ds_transformer import DeepSpeedTransformerInference

DS_INFERENCE_ENABLED = False
from torch import nn

INFERENCE_MODEL_TIMER = "model-forward-inference"


class InferenceEngine(Module):
    inference_mp_group = None
    inference_ep_group = None
    expert_mp_group = None

    def __init__(self, model, config):
        """
        Args:
            model: torch.nn.Module
            config: DeepSpeedInferenceConfig
        """
        global DS_INFERENCE_ENABLED
        DS_INFERENCE_ENABLED = True

        super().__init__()

        # Have to import here because inference_module is a global, but python
        # globals only work at the module level and will not be updated unless
        # we import it each time we init a new inference engine.
        from ..model_implementations.transformers.ds_transformer import inference_module
        if inference_module is not None:
            self.destroy()

        self.module = model
        self._config = config

        self._get_model_config_generate(config)  # keep for weird backward compatibility

        # patch model generate with ours if model uses it
        if hasattr(self.module, "generate"):
            self.generate = self._generate

        if hasattr(self.module, "config"):
            TransformerPolicy.hf_model_config = self.module.config

        if config.dtype == torch.half and not get_accelerator().is_fp16_supported():
            raise ValueError("Type fp16 is not supported.")

        # todo: keep this self.injection_dict because we don't use to change config.injection_policy API
        # todo: this will get changed when Molly's PR on auto injection dict is merged
        self.injection_dict = config.injection_policy

        # todo: refactor the mp_group and mp_size related in the next refactor
        self.mp_group = config.tensor_parallel.tp_group
        self.mpu = config.tensor_parallel.mpu

        #self._validate_args(self.mpu, config.replace_with_kernel_inject)
        self.quantize_merge_count = 1
        self.quantization_scales = None

        # these are not needed in the config as we are creating them ourselves in the inference engine
        self.ep_group = None  # config.moe.ep_group
        self.expert_mp_group = None  # config.moe.ep_mp_group

        self.cuda_graph_created = False
        self.checkpoint_engine = TorchCheckpointEngine()
        quantization_setting = None
        self._init_quantization_setting(
            quantization_setting)  # todo: update with the new quant config for weight quant
        self.model_profile_enabled = False
        self._model_times = []

        if not self.injection_dict and config.replace_with_kernel_inject:
            # This is a hack to remove the prepare_mask function on HF side for BLOOM architecture
            self.remove_mask_prepare_for_bloom()

        if self.injection_dict or not config.replace_with_kernel_inject:
            # This is a hack to redefine the alibi func due to TP
            if config.tensor_parallel.tp_size > 1:
                self.build_alibi_tensor()
                self.build_attn_bias()

        if get_accelerator().device_name() == 'cuda' and config.enable_cuda_graph:
            assert pkg_version.parse(torch.__version__) >= pkg_version.parse("1.10"), \
                "If you want to use cuda graph, please upgrade torch to at least v1.10"

        # convert model to intended dtype
        if config.dtype:
            self._convert_to_dtype(config)

        if self.mpu:
            config.tensor_parallel.tp_size = dist.get_world_size(group=self.mpu.get_model_parallel_group())
            self.mp_group = self.mpu.get_model_parallel_group()
        elif config.tensor_parallel.tp_size > 1:
            self._create_model_parallel_group(config)
            config.tensor_parallel.tp_group = self.mp_group

        if isinstance(self.module, torch.nn.Module):
            moe, _ = has_moe_layers(self.module)
        else:
            moe = False

        if moe and dist.get_world_size() > 1:
            self._create_ep_parallel_group(config.moe.moe_experts)

        # We only support three modes: 1) user specified policy for tensor-parallelism, 2) kernel injection (replace_with_kernel_inject), and 3) automatic tensor parallelism if tp_size > 1.
        if self.injection_dict:
            # 1. User specified Tensor Parallelism
            assert not config.replace_with_kernel_inject, "Cannot use both user specified injection policy and kernel injection"
            for client_module, injection_policy in self.injection_dict.items():

                assert issubclass(client_module,
                                  torch.nn.Module), f"{client_module} is not a subclass of torch.nn.Module"

                # construct the tuple and pass that instead of a string or dict.
                if isinstance(injection_policy, str):
                    config.injection_policy_tuple = (injection_policy, )
                else:
                    config.injection_policy_tuple = injection_policy

                layer_names = [name for name, _ in self.module.named_modules()]
                for policy in config.injection_policy_tuple:
                    if not any(name.endswith(policy) for name in layer_names):
                        raise ValueError(f"Injection policy layer'{policy}' not valid.")

                self._apply_injection_policy(config, client_module)
        else:
            if config.replace_with_kernel_inject:
                # 2. DeepSpeed Kernel Injection
                self._apply_injection_policy(config)
            elif config.tensor_parallel.tp_size > 1:
                # 3. Automatic Tensor Parallelism
                parser_dict = AutoTP.tp_parser(model)
                print("AutoTP: ", parser_dict)
                for client_module, injection_policy in parser_dict:
                    if isinstance(injection_policy, str):
                        config.injection_policy_tuple = (injection_policy, )
                    else:
                        config.injection_policy_tuple = injection_policy
                    self._apply_injection_policy(config, client_module)

        device = get_accelerator().current_device_name()
        # NOTE: This check assumes a Hugging Face hierarchy for the device type i.e. module.device.type
        is_meta_device = hasattr(self.module, "device") and self.module.device.type == 'meta'
        if is_meta_device:
            self.module.to_empty(device=device)
        else:
            self.module.to(device)

        if config.tensor_parallel.tp_size > 1:
            _rng_state = get_accelerator().get_rng_state().to(get_accelerator().current_device_name())
            dist.broadcast(_rng_state, 0)
            get_accelerator().set_rng_state(_rng_state.cpu())

        if config.tensor_parallel.tp_size > 1:
            assert not config.enable_cuda_graph, "Cuda graph is not supported for model parallelism"

        # Check if local CUDA graphs can be created in replacement modules
        self.local_cuda_graph = self._local_cuda_graph_used(self.module)

    def destroy(self):
        # Have to import here because inference_module is a global, but python
        # globals only work at the module level and will not be updated unless
        # we import it each time we init a new inference engine.
        from ..model_implementations.transformers.ds_transformer import inference_module
        DeepSpeedTransformerInference.layer_id = 0
        DeepSpeedSelfAttention.num_layers = 0
        if inference_module is not None:
            inference_module.release_workspace()
            inference_module = None

    def profile_model_time(self, use_cuda_events=True):
        if not self.model_profile_enabled and not self._config.enable_cuda_graph:
            self.module.register_forward_pre_hook(self._pre_forward_hook)
            self.module.register_forward_hook(self._post_forward_hook)
        self.model_profile_enabled = True
        self.use_cuda_events = use_cuda_events
        if self.use_cuda_events:
            self.timers = SynchronizedWallClockTimer()

    # todo: remove this once all the config dicts are centralized from top level pydantic config
    def _get_model_config_generate(self, config):
        # this is being passed to replace_transformer_layer(config=self.user_model_config_dict)
        self.config = getattr(self.module, 'config', None) if config.config is None else config.config

    def remove_mask_prepare_for_bloom(self):
        if hasattr(self.module, 'transformer'):
            if hasattr(self.module.transformer, '_prepare_attn_mask'):
                self.module.transformer._prepare_attn_mask = lambda attention_mask, *args, **kwargs: attention_mask

    def build_alibi_tensor(self):
        if hasattr(self.module, 'transformer'):
            if hasattr(self.module.transformer, 'build_alibi_tensor'):
                self.module.transformer.build_alibi_tensor = build_bloom_alibi_tensor
            if hasattr(self.module.transformer, 'build_mpt_alibi_tensor'):
                self.module.transformer.build_mpt_alibi_tensor_orig = self.module.transformer.build_mpt_alibi_tensor
                self.module.transformer.__class__.build_mpt_alibi_tensor = build_mpt_alibi_tensor
        if hasattr(self.module, 'model'):
            if hasattr(self.module.model, 'get_alibi_mask'):
                self.module.model.get_alibi_mask_orig = self.module.model.get_alibi_mask
                self.module.model.__class__.get_alibi_mask = get_alibi_mask

    def build_attn_bias(self):
        if hasattr(self.module, 'transformer'):
            if hasattr(self.module.transformer, '_attn_bias'):
                self.module.transformer._attn_bias_orig = self.module.transformer._attn_bias
                self.module.transformer.__class__._attn_bias = build_mpt_atten_bias_tensor

    def _pre_forward_hook(self, module, *inputs, **kwargs):
        if self.use_cuda_events:
            self.timers(INFERENCE_MODEL_TIMER).start()
        else:
            get_accelerator().synchronize()
            self._start = time.time()

    def _post_forward_hook(self, module, input, output):
        if self.use_cuda_events:
            self.timers(INFERENCE_MODEL_TIMER).stop()
            elapsed_time = self.timers(INFERENCE_MODEL_TIMER).elapsed(reset=True)
        else:
            get_accelerator().synchronize()
            self._end = time.time()
            elapsed_time = (self._end - self._start) * 1e3  # convert seconds to ms
        self._model_times.append(elapsed_time)

    def _create_model_parallel_group(self, config):
        # Call the init process
        if InferenceEngine.inference_mp_group is None:
            init_distributed()
            local_rank = int(os.getenv('LOCAL_RANK', '0'))
            get_accelerator().set_device(local_rank)

            ranks = [i for i in range(config.tensor_parallel.tp_size)]
            self.mp_group = dist.new_group(ranks)
            InferenceEngine.inference_mp_group = self.mp_group
        else:
            self.mp_group = InferenceEngine.inference_mp_group

    def _create_ep_parallel_group(self, moe_experts):
        # Call the init process
        self.ep_group = {}
        self.expert_mp_group = {}
        moe_experts = moe_experts if type(moe_experts) is list else [moe_experts]
        for e in moe_experts:
            self.ep_group.update({e: None})
            self.expert_mp_group.update({e: None})
        for moe_ep_size in self.ep_group.keys():
            num_ep_groups = dist.get_world_size() // moe_ep_size
            for i in range(num_ep_groups):
                ep_cnt = i * moe_ep_size
                size = dist.get_world_size() if moe_ep_size > dist.get_world_size() else moe_ep_size
                ranks = list(range(ep_cnt, ep_cnt + size))
                _ep_group = dist.new_group(ranks)
                if dist.get_rank() in ranks:
                    self.ep_group.update({moe_ep_size: _ep_group})

            if dist.get_world_size() > moe_ep_size:
                num_expert_mp_groups = dist.get_world_size() // num_ep_groups
                expert_mp_size = dist.get_world_size() // moe_ep_size
                for i in range(num_expert_mp_groups):
                    expert_mp_comm_ranks = [i + nr * moe_ep_size for nr in range(expert_mp_size)]
                    _expert_mp_group = dist.new_group(expert_mp_comm_ranks)
                    if dist.get_rank() in expert_mp_comm_ranks:
                        self.expert_mp_group.update({moe_ep_size: _expert_mp_group})

    def _init_quantization_setting(self, quantization_setting):
        self.quantize_bits = 8
        self.mlp_extra_grouping = False
        self.quantize_groups = 1
        if type(quantization_setting) is tuple:
            self.mlp_extra_grouping, \
            self.quantize_groups = quantization_setting
        elif quantization_setting is not None:
            self.quantize_groups = quantization_setting
        log_dist(
            f"quantize_bits = {self.quantize_bits} "
            f"mlp_extra_grouping = {self.mlp_extra_grouping}, "
            f"quantize_groups = {self.quantize_groups}", [0])

    # TODO: remove this function and add this functionality to pydantic config checking
    def _validate_args(self, mpu, replace_with_kernel_inject):
        # TODO: to support SD pipeline we need to avoid this check for now
        if replace_with_kernel_inject and not isinstance(self.module, Module):
            raise ValueError(f"model must be a torch.nn.Module, got {type(self.module)}")
        if not isinstance(self._config.tensor_parallel.tp_size, int) or self._config.tensor_parallel.tp_size < 1:
            raise ValueError(f"mp_size must be an int >= 1, got {self._config.tensor_parallel.tp_size}")

        if mpu:
            methods = ["get_model_parallel_group", "get_data_parallel_group"]
            for method in methods:
                if not hasattr(mpu, method):
                    raise ValueError(f"mpu is missing {method}")
        if self._config.checkpoint is not None and not isinstance(self._config.checkpoint, (str, dict)):
            raise ValueError(f"checkpoint must be None, str or dict, got {type(self._config.checkpoint)}")

        supported_dtypes = [None, torch.half, torch.int8, torch.float]
        if self._config.dtype not in supported_dtypes:
            raise ValueError(f"{self._config.dtype} not supported, valid dtype: {supported_dtypes}")

        if self.injection_dict is not None and not isinstance(self.injection_dict, dict):
            raise ValueError(f"injection_dict must be None or a dict, got: {self.injection_dict}")

    def load_model_with_checkpoint(self, r_module):
        self.mp_replace = ReplaceWithTensorSlicing(
            mp_group=self.mp_group, mp_size=self._config.tensor_parallel.tp_size)  #, out_dim=0, in_dim=1)
        error_msgs = []

        def load(module, state_dict, prefix):
            args = (state_dict, prefix, {}, True, [], [], error_msgs)
            if hasattr(module, 'weight'):
                if module.weight.data.is_meta:
                    # meta tensor cannot be casted or copied to, so we need to replace it with a normal tensor here
                    module.weight = torch.nn.parameter.Parameter(data=torch.empty_like(module.weight.data,
                                                                                       device="cpu"),
                                                                 requires_grad=module.weight.data.requires_grad)
                if 'query_key_value' in prefix:
                    module.weight = self.mp_replace.strided_copy(module.weight.data,
                                                                 state_dict[prefix + 'weight'],
                                                                 num_splits=3)
                else:
                    module.weight = self.mp_replace.copy(module.weight.data, state_dict[prefix + 'weight'])
            else:
                if module.norm.weight.data.is_meta:
                    # meta tensor cannot be casted or copied to, so we need to replace it with a normal tensor here
                    module.norm.weight = torch.nn.parameter.Parameter(
                        data=torch.empty_like(module.norm.weight.data, device="cpu"),
                        requires_grad=module.norm.weight.data.requires_grad)
                module.norm.weight = self.mp_replace.copy(module.norm.weight.data, state_dict[prefix + 'weight'])
            if prefix + 'bias' in self.key_list:
                if hasattr(module, 'norm'):
                    if module.norm.bias.data.is_meta:
                        # meta tensor cannot be casted or copied to, so we need to replace it with a normal tensor here
                        module.norm.bias = torch.nn.parameter.Parameter(
                            data=torch.empty_like(module.norm.bias.data, device="cpu"),
                            requires_grad=module.norm.bias.data.requires_grad)
                    module.norm.bias = self.mp_replace.copy(module.norm.bias, state_dict[prefix + 'bias'])
                else:
                    if module.bias.data.is_meta:
                        # meta tensor cannot be casted or copied to, so we need to replace it with a normal tensor here
                        module.bias = torch.nn.parameter.Parameter(data=torch.empty_like(module.bias.data,
                                                                                         device="cpu"),
                                                                   requires_grad=module.bias.data.requires_grad)
                    data = state_dict[prefix + 'bias']
                    data = data.to(get_accelerator().current_device_name())
                    module.bias = self.mp_replace.copy(module.bias, data)

        layer_policies = {
            nn.Linear: load,
            nn.Embedding: load,
            nn.LayerNorm: load,
            LinearLayer: load,
            LinearAllreduce: load
        }

        def load_module_recursive(module, prefix='', level=0):
            for name, child in module.named_children():
                if child.__class__ in layer_policies:
                    checking_key = prefix + name + '.'
                    if not any(checking_key in item for item in self.key_list):
                        continue
                    if len(list(child.parameters())) > 0 and list(child.parameters())[0].numel() == 0:
                        if len(child.weight.ds_shape) == 1:
                            child = Normalize(dim=child.weight.ds_shape[-1], dtype=child.weight.dtype, eps=child.eps)
                            setattr(module, name, child)
                    load(child, self.sd, prefix + name + '.')
                else:
                    load_module_recursive(child, prefix if level == 0 else prefix + name + '.', level + 1)

        load_module_recursive(r_module)

        embedding_weight = None

        for n, p in r_module.named_parameters():
            if "word_embeddings." in n or "embed_tokens." in n or "wte." in n:
                embedding_weight = p
        if embedding_weight is not None and hasattr(r_module, "lm_head") and hasattr(
                r_module.lm_head, "weight") and r_module.lm_head.weight.is_meta:
            r_module.lm_head.weight = embedding_weight

    def _apply_injection_policy(self, config, client_module=None):
        # client_module is only passed when using the injection_dict method.
        checkpoint_dir = config.checkpoint
        checkpoint = SDLoaderFactory.get_sd_loader_json(checkpoint_dir,
                                                        self.checkpoint_engine) if checkpoint_dir is not None else None

        generic_injection(self.module, dtype=config.dtype, enable_cuda_graph=config.enable_cuda_graph)

        if isinstance(self.module, torch.nn.Module):
            # config is our DeepSpeedInferenceConfig and self.config is the HF model config
            replace_transformer_layer(client_module, self.module, checkpoint, config, self.config)

    def _get_all_ckpt_names(self, checkpoints_path, tag):
        ckpt_file_pattern = self._get_ckpt_name(checkpoints_path, tag, mp_placeholder="*")
        import glob

        ckpt_files = glob.glob(ckpt_file_pattern)
        ckpt_files.sort()
        return ckpt_files

    def _get_ckpt_name(self, checkpoints_path, tag, mp_placeholder=None):
        if mp_placeholder is not None:
            mp_rank_str = mp_placeholder
        else:
            mp_rank = 0 if self.mpu is None else self.mpu.get_model_parallel_rank()
            mp_rank_str = "{:02d}".format(mp_rank)

        ckpt_name = os.path.join(
            checkpoints_path,
            "mp_rank_" + mp_rank_str + "_model_states.pt",
        )
        return ckpt_name

    def _load_checkpoint(self, load_dir, load_module_strict=True, tag=None):
        is_pipe_parallel = isinstance(self.module, PipelineModule)
        if is_pipe_parallel:
            raise RuntimeError('pipeline parallelism is currently not supported in inference.')
        if not isinstance(load_dir, dict) and os.path.isdir(load_dir):
            if tag is None:
                latest_path = os.path.join(load_dir, "latest")
                if os.path.isfile(latest_path):
                    with open(latest_path, "r") as fd:
                        tag = fd.read().strip()

            ckpt_list = self._get_all_ckpt_names(load_dir, tag)
            sd_loader = SDLoaderFactory.get_sd_loader(ckpt_list, self.checkpoint_engine)
        else:
            sd_loader = SDLoaderFactory.get_sd_loader_json(load_dir, self.checkpoint_engine)

        checkpoint = sd_loader['checkpoints']

        if type(checkpoint) is list:
            self.sd = torch.load(checkpoint[0], map_location='cpu')
            self.key_list = list(self.sd.keys())

            self.load_model_with_checkpoint(self.module)

            for i in range(1, len(checkpoint)):
                if not dist.is_initialized() or dist.get_rank() == 0:
                    print(f"loading checkpoint ({i})")
                self.sd = torch.load(checkpoint[i], map_location=get_accelerator().device_name())
                self.key_list = list(self.sd.keys())
                self.load_model_with_checkpoint(self.module)
        else:
            mp_rank = 0 if self.mpu is None else self.mpu.get_model_parallel_rank()

            load_path, checkpoint, quantize_config = sd_loader.load(self._config.tensor_parallel.tp_size,
                                                                    mp_rank,
                                                                    is_pipe_parallel=is_pipe_parallel,
                                                                    quantize=(self._config.dtype is torch.int8),
                                                                    quantize_groups=self.quantize_groups,
                                                                    mlp_extra_grouping=self.mlp_extra_grouping)

            self.quantization_scales, self.quantize_merge_count = quantize_config

            moe, _ = has_moe_layers(self.module)
            if moe:
                from deepspeed.runtime.engine import DeepSpeedEngine
                old_moe_load = False
                if not isinstance(checkpoint['num_experts'], list):
                    old_moe_load = True
                DeepSpeedEngine.load_moe_state_dict(load_dir,
                                                    tag,
                                                    state_dict=checkpoint[self._choose_module_key(checkpoint)],
                                                    old_moe_load=old_moe_load,
                                                    model=self.module,
                                                    mpu=self.mpu,
                                                    checkpoint_engine=self.checkpoint_engine)

            self.module.load_state_dict(state_dict=checkpoint[self._choose_module_key(checkpoint)],
                                        strict=load_module_strict)

    def _choose_module_key(self, sd):
        assert not ('module' in sd
                    and 'model' in sd), "checkpoint has both 'model' and 'module' keys, not sure how to proceed"
        assert 'module' in sd or 'model' in sd, "checkpoint contains neither 'model' or 'module' keys, not sure how to proceed"
        if 'module' in sd:
            return 'module'
        elif 'model' in sd:
            return 'model'

    def _convert_to_dtype(self, config):
        if not isinstance(self.module, torch.nn.Module):
            return

        if False:  #config.dtype is torch.int8 and self.quantization_scales is None:
            quantizer = WeightQuantization(mlp_extra_grouping=self.mlp_extra_grouping)
            model, self.quantization_scales = quantizer.model_quantize(self.module, self.injection_dict,
                                                                       self.quantize_bits, self.quantize_groups)
        elif config.dtype == torch.half:
            self.module.half()
        elif config.dtype == torch.bfloat16:
            self.module.bfloat16()
        elif config.dtype == torch.float:
            self.module.float()

    def _create_cuda_graph(self, *inputs, **kwargs):
        # warmup to create the workspace and cublas handle
        cuda_stream = get_accelerator().Stream()
        cuda_stream.wait_stream(get_accelerator().current_stream())
        with get_accelerator().stream(cuda_stream):
            for i in range(3):
                ret = self.module(*inputs, **kwargs)
        get_accelerator().current_stream().wait_stream(cuda_stream)

        # create cuda_graph and assign static_inputs and static_outputs
        self._cuda_graphs = get_accelerator().create_graph()
        self.static_inputs = inputs
        self.static_kwargs = kwargs

        with get_accelerator().capture_to_graph(self._cuda_graphs):
            self.static_output = self.module(*self.static_inputs, **self.static_kwargs)

        self.cuda_graph_created = True

    def _graph_replay(self, *inputs, **kwargs):
        for i in range(len(inputs)):
            if torch.is_tensor(inputs[i]):
                self.static_inputs[i].copy_(inputs[i])
        for k in kwargs:
            if torch.is_tensor(kwargs[k]):
                self.static_kwargs[k].copy_(kwargs[k])
        get_accelerator().replay_graph(self._cuda_graphs)
        return self.static_output

    def model_times(self):
        assert self.model_profile_enabled, "model profiling is not enabled"
        model_times = self._model_times
        if self._config.enable_cuda_graph and len(self._model_times) == 0:
            raise ValueError("Model times are empty and cuda graph is enabled. If "
                             "this is a GPT-style model this combo is not supported. If this is a "
                             "BERT-style model this is a bug, please report it. "
                             f"Model type is: {type(self.module)}")
        self._model_times = []
        return model_times

    def _module_match(self, module):
        for policy in generic_policies:
            policy = policy()
            if policy.match_replaced(module):
                return True
        return False

    def _local_cuda_graph_used(self, module):
        if isinstance(module, torch.nn.Module):
            return False
        else:
            sub_module_cuda_graph = False
            for name in module.__dict__.keys():
                sub_module = getattr(module, name)

                if self._module_match(sub_module) and hasattr(sub_module, "enable_cuda_graph"):
                    sub_module_cuda_graph = True

            return sub_module_cuda_graph

    def forward(self, *inputs, **kwargs):
        """Execute forward propagation

        Arguments:
            *inputs: Variable length input list
            **kwargs: variable length keyword arguments
        """
        start = None
        if self.model_profile_enabled and get_accelerator().device_name() == 'cuda' and self._config.enable_cuda_graph:
            get_accelerator().synchronize()
            start = time.time()

        if get_accelerator().device_name() == 'cuda' and self._config.enable_cuda_graph and not self.local_cuda_graph:
            if self.cuda_graph_created:
                outputs = self._graph_replay(*inputs, **kwargs)
            else:
                self._create_cuda_graph(*inputs, **kwargs)
                outputs = self._graph_replay(*inputs, **kwargs)

        else:
            outputs = self.module(*inputs, **kwargs)

        if self.model_profile_enabled and self._config.enable_cuda_graph:
            get_accelerator().synchronize()
            duration = (time.time() - start) * 1e3  # convert seconds to ms
            self._model_times.append(duration)

        return outputs

    def _generate(self, *inputs, **kwargs):
        # Reset KV-cache at the beginning of generate
        if hasattr(self.module, 'reset_cache'):
            self.module.reset_cache()
        num_beams = 1
        if "generation_config" in kwargs:
            gen_config = kwargs["generation_config"]
            num_beams = getattr(gen_config, "num_beams", 1)
        if "num_beams" in kwargs:
            num_beams = kwargs["num_beams"]

        if num_beams > 1:
            raise NotImplementedError("DeepSpeed does not support `num_beams` > 1, if this is important to you please "
                                      "add your request to: https://github.com/microsoft/DeepSpeed/issues/2506")

        if ("input_ids" in kwargs) and (kwargs["input_ids"].dim() == 2):
            for input_tensor in kwargs["input_ids"]:
                tensor_length = input_tensor.shape[-1]
                if tensor_length > self._config.max_out_tokens:
                    raise RuntimeError(
                        f"Input with size {tensor_length} exceeds maximum length of {self._config.max_out_tokens}. Please increase `max_tokens` in the DeepSpeed Inference Config."
                    )

        return self.module.generate(*inputs, **kwargs)