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	<h2 align="center">
	<p> :yum: TensorFlowTTS
	<p align="center">
	<a href="https://github.com/tensorspeech/TensorFlowTTS/actions">
	<img alt="Build" src="https://github.com/tensorspeech/TensorFlowTTS/workflows/CI/badge.svg?branch=master">
	</a>
	<a href="https://github.com/tensorspeech/TensorFlowTTS/blob/master/LICENSE">
	<img alt="GitHub" src="https://img.shields.io/github/license/tensorspeech/TensorflowTTS?color=red">
	</a>
	<a href="https://colab.research.google.com/drive/1akxtrLZHKuMiQup00tzO2olCaN-y3KiD?usp=sharing">
	<img alt="Colab" src="https://colab.research.google.com/assets/colab-badge.svg">
	</a>
	</p>
	</h2>
	<h2 align="center">
	<p>Real-Time State-of-the-art Speech Synthesis for Tensorflow 2
	</h2>

	:zany_face: TensorFlowTTS provides real-time state-of-the-art speech synthesis architectures such as Tacotron-2, Melgan, Multiband-Melgan, FastSpeech, FastSpeech2 based-on TensorFlow 2. With Tensorflow 2, we can speed-up training/inference progress, optimizer further by using [fake-quantize aware](https://www.tensorflow.org/model_optimization/guide/quantization/training_comprehensive_guide) and [pruning](https://www.tensorflow.org/model_optimization/guide/pruning/pruning_with_keras), make TTS models can be run faster than real-time and be able to deploy on mobile devices or embedded systems.

	## What's new
	- 2021/08/18 (NEW!) Integrated to [Huggingface Spaces](https://huggingface.co/spaces) with [Gradio](https://github.com/gradio-app/gradio). See [Gradio Web Demo](https://huggingface.co/spaces/akhaliq/TensorFlowTTS).
	- 2021/08/12 (NEW!) Support French TTS (Tacotron2, Multiband MelGAN). Pls see the [colab](https://colab.research.google.com/drive/1jd3u46g-fGQw0rre8fIwWM9heJvrV1c0?usp=sharing). Many Thanks [Samuel Delalez](https://github.com/samuel-lunii)
	- 2021/06/01 Integrated with [Huggingface Hub](https://huggingface.co/tensorspeech). See the [PR](https://github.com/TensorSpeech/TensorFlowTTS/pull/555). Thanks [patrickvonplaten](https://github.com/patrickvonplaten) and [osanseviero](https://github.com/osanseviero)
	- 2021/03/18 Support IOS for FastSpeech2 and MB MelGAN. Thanks [kewlbear](https://github.com/kewlbear). See [here](https://github.com/TensorSpeech/TensorFlowTTS/tree/master/examples/ios)
	- 2021/01/18 Support TFLite C++ inference. Thanks [luan78zaoha](https://github.com/luan78zaoha). See [here](https://github.com/TensorSpeech/TensorFlowTTS/tree/master/examples/cpptflite)
	- 2020/12/02 Support German TTS with [Thorsten dataset](https://github.com/thorstenMueller/deep-learning-german-tts). See the [Colab](https://colab.research.google.com/drive/1W0nSFpsz32M0OcIkY9uMOiGrLTPKVhTy?usp=sharing). Thanks [thorstenMueller](https://github.com/thorstenMueller) and [monatis](https://github.com/monatis)
	- 2020/11/24 Add HiFi-GAN vocoder. See [here](https://github.com/TensorSpeech/TensorFlowTTS/tree/master/examples/hifigan)
	- 2020/11/19 Add Multi-GPU gradient accumulator. See [here](https://github.com/TensorSpeech/TensorFlowTTS/pull/377)
	- 2020/08/23 Add Parallel WaveGAN tensorflow implementation. See [here](https://github.com/TensorSpeech/TensorFlowTTS/tree/master/examples/parallel_wavegan)
	- 2020/08/20 Add C++ inference code. Thank [@ZDisket](https://github.com/ZDisket). See [here](https://github.com/TensorSpeech/TensorFlowTTS/tree/master/examples/cppwin)
	- 2020/08/18 Update [new base processor](https://github.com/TensorSpeech/TensorFlowTTS/blob/master/tensorflow_tts/processor/base_processor.py). Add [AutoProcessor](https://github.com/TensorSpeech/TensorFlowTTS/blob/master/tensorflow_tts/inference/auto_processor.py) and [pretrained processor](https://github.com/TensorSpeech/TensorFlowTTS/blob/master/tensorflow_tts/processor/pretrained/) json file
	- 2020/08/14 Support Chinese TTS. Pls see the [colab](https://colab.research.google.com/drive/1YpSHRBRPBI7cnTkQn1UcVTWEQVbsUm1S?usp=sharing). Thank [@azraelkuan](https://github.com/azraelkuan)
	- 2020/08/05 Support Korean TTS. Pls see the [colab](https://colab.research.google.com/drive/1ybWwOS5tipgPFttNulp77P6DAB5MtiuN?usp=sharing). Thank [@crux153](https://github.com/crux153)
	- 2020/07/17 Support MultiGPU for all Trainer
	- 2020/07/05 Support Convert Tacotron-2, FastSpeech to Tflite. Pls see the [colab](https://colab.research.google.com/drive/1HudLLpT9CQdh2k04c06bHUwLubhGTWxA?usp=sharing). Thank @jaeyoo from the TFlite team for his support
	- 2020/06/20 [FastSpeech2](https://arxiv.org/abs/2006.04558) implementation with Tensorflow is supported.
	- 2020/06/07 [Multi-band MelGAN (MB MelGAN)](https://github.com/tensorspeech/TensorFlowTTS/blob/master/examples/multiband_melgan/) implementation with Tensorflow is supported


	## Features
	- High performance on Speech Synthesis.
	- Be able to fine-tune on other languages.
	- Fast, Scalable, and Reliable.
	- Suitable for deployment.
	- Easy to implement a new model, based-on abstract class.
	- Mixed precision to speed-up training if possible.
	- Support Single/Multi GPU gradient Accumulate.
	- Support both Single/Multi GPU in base trainer class.
	- TFlite conversion for all supported models.
	- Android example.
	- Support many languages (currently, we support Chinese, Korean, English, French and German)
	- Support C++ inference.
	- Support Convert weight for some models from PyTorch to TensorFlow to accelerate speed.

	## Requirements
	This repository is tested on Ubuntu 18.04 with:

	- Python 3.7+
	- Cuda 10.1
	- CuDNN 7.6.5
	- Tensorflow 2.2/2.3/2.4/2.5/2.6
	- [Tensorflow Addons](https://github.com/tensorflow/addons) >= 0.10.0

	Different Tensorflow version should be working but not tested yet. This repo will try to work with the latest stable TensorFlow version. We recommend you install TensorFlow 2.6.0 to training in case you want to use MultiGPU.

	## Installation
	### With pip
	```bash
	$ pip install TensorFlowTTS
	```
	### From source
	Examples are included in the repository but are not shipped with the framework. Therefore, to run the latest version of examples, you need to install the source below.
	```bash
	$ git clone https://github.com/TensorSpeech/TensorFlowTTS.git
	$ cd TensorFlowTTS
	$ pip install .
	```
	If you want to upgrade the repository and its dependencies:
	```bash
	$ git pull
	$ pip install --upgrade .
	```

	# Supported Model architectures
	TensorFlowTTS currently provides the following architectures:

	1. MelGAN released with the paper [MelGAN: Generative Adversarial Networks for Conditional Waveform Synthesis](https://arxiv.org/abs/1910.06711) by Kundan Kumar, Rithesh Kumar, Thibault de Boissiere, Lucas Gestin, Wei Zhen Teoh, Jose Sotelo, Alexandre de Brebisson, Yoshua Bengio, Aaron Courville.
	2. Tacotron-2 released with the paper [Natural TTS Synthesis by Conditioning WaveNet on Mel Spectrogram Predictions](https://arxiv.org/abs/1712.05884) by Jonathan Shen, Ruoming Pang, Ron J. Weiss, Mike Schuster, Navdeep Jaitly, Zongheng Yang, Zhifeng Chen, Yu Zhang, Yuxuan Wang, RJ Skerry-Ryan, Rif A. Saurous, Yannis Agiomyrgiannakis, Yonghui Wu.
	3. FastSpeech released with the paper [FastSpeech: Fast, Robust, and Controllable Text to Speech](https://arxiv.org/abs/1905.09263) by Yi Ren, Yangjun Ruan, Xu Tan, Tao Qin, Sheng Zhao, Zhou Zhao, Tie-Yan Liu.
	4. Multi-band MelGAN released with the paper [Multi-band MelGAN: Faster Waveform Generation for High-Quality Text-to-Speech](https://arxiv.org/abs/2005.05106) by Geng Yang, Shan Yang, Kai Liu, Peng Fang, Wei Chen, Lei Xie.
	5. FastSpeech2 released with the paper [FastSpeech 2: Fast and High-Quality End-to-End Text to Speech](https://arxiv.org/abs/2006.04558) by Yi Ren, Chenxu Hu, Xu Tan, Tao Qin, Sheng Zhao, Zhou Zhao, Tie-Yan Liu.
	6. Parallel WaveGAN released with the paper [Parallel WaveGAN: A fast waveform generation model based on generative adversarial networks with multi-resolution spectrogram](https://arxiv.org/abs/1910.11480) by Ryuichi Yamamoto, Eunwoo Song, Jae-Min Kim.
	7. HiFi-GAN released with the paper [HiFi-GAN: Generative Adversarial Networks for Efficient and High Fidelity Speech Synthesis](https://arxiv.org/abs/2010.05646) by Jungil Kong, Jaehyeon Kim, Jaekyoung Bae.

	We are also implementing some techniques to improve quality and convergence speed from the following papers:

	2. Guided Attention Loss released with the paper [Efficiently Trainable Text-to-Speech System Based on Deep Convolutional Networks with Guided Attention
	](https://arxiv.org/abs/1710.08969) by Hideyuki Tachibana, Katsuya Uenoyama, Shunsuke Aihara.


	# Audio Samples
	Here in an audio samples on valid set. [tacotron-2](https://drive.google.com/open?id=1kaPXRdLg9gZrll9KtvH3-feOBMM8sn3_), [fastspeech](https://drive.google.com/open?id=1f69ujszFeGnIy7PMwc8AkUckhIaT2OD0), [melgan](https://drive.google.com/open?id=1mBwGVchwtNkgFsURl7g4nMiqx4gquAC2), [melgan.stft](https://drive.google.com/open?id=1xUkDjbciupEkM3N4obiJAYySTo6J9z6b), [fastspeech2](https://drive.google.com/drive/u/1/folders/1NG7oOfNuXSh7WyAoM1hI8P5BxDALY_mU), [multiband_melgan](https://drive.google.com/drive/folders/1DCV3sa6VTyoJzZmKATYvYVDUAFXlQ_Zp)

	# Tutorial End-to-End

	## Prepare Dataset

	Prepare a dataset in the following format:
	```
	\|- [NAME_DATASET]/
	\| \|- metadata.csv
	\| \|- wavs/
	\| \|- file1.wav
	\| \|- ...
	```

	Where `metadata.csv` has the following format: `id\|transcription`. This is a ljspeech-like format; you can ignore preprocessing steps if you have other format datasets.

	Note that `NAME_DATASET` should be `[ljspeech/kss/baker/libritts/synpaflex]` for example.

	## Preprocessing

	The preprocessing has two steps:

	1. Preprocess audio features
	- Convert characters to IDs
	- Compute mel spectrograms
	- Normalize mel spectrograms to [-1, 1] range
	- Split the dataset into train and validation
	- Compute the mean and standard deviation of multiple features from the training split
	2. Standardize mel spectrogram based on computed statistics

	To reproduce the steps above:
	```
	tensorflow-tts-preprocess --rootdir ./[ljspeech/kss/baker/libritts/thorsten/synpaflex] --outdir ./dump_[ljspeech/kss/baker/libritts/thorsten/synpaflex] --config preprocess/[ljspeech/kss/baker/thorsten/synpaflex]_preprocess.yaml --dataset [ljspeech/kss/baker/libritts/thorsten/synpaflex]
	tensorflow-tts-normalize --rootdir ./dump_[ljspeech/kss/baker/libritts/thorsten/synpaflex] --outdir ./dump_[ljspeech/kss/baker/libritts/thorsten/synpaflex] --config preprocess/[ljspeech/kss/baker/libritts/thorsten/synpaflex]_preprocess.yaml --dataset [ljspeech/kss/baker/libritts/thorsten/synpaflex]
	```

	Right now we only support [`ljspeech`](https://keithito.com/LJ-Speech-Dataset/), [`kss`](https://www.kaggle.com/bryanpark/korean-single-speaker-speech-dataset), [`baker`](https://weixinxcxdb.oss-cn-beijing.aliyuncs.com/gwYinPinKu/BZNSYP.rar), [`libritts`](http://www.openslr.org/60/), [`thorsten`](https://github.com/thorstenMueller/deep-learning-german-tts) and
	[`synpaflex`](https://www.ortolang.fr/market/corpora/synpaflex-corpus/) for dataset argument. In the future, we intend to support more datasets.

	Note: To run `libritts` preprocessing, please first read the instruction in [examples/fastspeech2_libritts](https://github.com/TensorSpeech/TensorFlowTTS/tree/master/examples/fastspeech2_libritts). We need to reformat it first before run preprocessing.

	Note: To run `synpaflex` preprocessing, please first run the notebook [notebooks/prepare_synpaflex.ipynb](https://github.com/TensorSpeech/TensorFlowTTS/tree/master/notebooks/prepare_synpaflex.ipynb). We need to reformat it first before run preprocessing.

	After preprocessing, the structure of the project folder should be:
	```
	\|- [NAME_DATASET]/
	\| \|- metadata.csv
	\| \|- wav/
	\| \|- file1.wav
	\| \|- ...
	\|- dump_[ljspeech/kss/baker/libritts/thorsten]/
	\| \|- train/
	\| \|- ids/
	\| \|- LJ001-0001-ids.npy
	\| \|- ...
	\| \|- raw-feats/
	\| \|- LJ001-0001-raw-feats.npy
	\| \|- ...
	\| \|- raw-f0/
	\| \|- LJ001-0001-raw-f0.npy
	\| \|- ...
	\| \|- raw-energies/
	\| \|- LJ001-0001-raw-energy.npy
	\| \|- ...
	\| \|- norm-feats/
	\| \|- LJ001-0001-norm-feats.npy
	\| \|- ...
	\| \|- wavs/
	\| \|- LJ001-0001-wave.npy
	\| \|- ...
	\| \|- valid/
	\| \|- ids/
	\| \|- LJ001-0009-ids.npy
	\| \|- ...
	\| \|- raw-feats/
	\| \|- LJ001-0009-raw-feats.npy
	\| \|- ...
	\| \|- raw-f0/
	\| \|- LJ001-0001-raw-f0.npy
	\| \|- ...
	\| \|- raw-energies/
	\| \|- LJ001-0001-raw-energy.npy
	\| \|- ...
	\| \|- norm-feats/
	\| \|- LJ001-0009-norm-feats.npy
	\| \|- ...
	\| \|- wavs/
	\| \|- LJ001-0009-wave.npy
	\| \|- ...
	\| \|- stats.npy
	\| \|- stats_f0.npy
	\| \|- stats_energy.npy
	\| \|- train_utt_ids.npy
	\| \|- valid_utt_ids.npy
	\|- examples/
	\| \|- melgan/
	\| \|- fastspeech/
	\| \|- tacotron2/
	\| ...
	```

	- `stats.npy` contains the mean and std from the training split mel spectrograms
	- `stats_energy.npy` contains the mean and std of energy values from the training split
	- `stats_f0.npy` contains the mean and std of F0 values in the training split
	- `train_utt_ids.npy` / `valid_utt_ids.npy` contains training and validation utterances IDs respectively

	We use suffix (`ids`, `raw-feats`, `raw-energy`, `raw-f0`, `norm-feats`, and `wave`) for each input type.


	IMPORTANT NOTES:
	- This preprocessing step is based on [ESPnet](https://github.com/espnet/espnet) so you can combine all models here with other models from ESPnet repository.
	- Regardless of how your dataset is formatted, the final structure of the `dump` folder SHOULD follow the above structure to be able to use the training script, or you can modify it by yourself 😄.

	## Training models

	To know how to train model from scratch or fine-tune with other datasets/languages, please see detail at example directory.

	- For Tacotron-2 tutorial, pls see [examples/tacotron2](https://github.com/tensorspeech/TensorFlowTTS/tree/master/examples/tacotron2)
	- For FastSpeech tutorial, pls see [examples/fastspeech](https://github.com/tensorspeech/TensorFlowTTS/tree/master/examples/fastspeech)
	- For FastSpeech2 tutorial, pls see [examples/fastspeech2](https://github.com/tensorspeech/TensorFlowTTS/tree/master/examples/fastspeech2)
	- For FastSpeech2 + MFA tutorial, pls see [examples/fastspeech2_libritts](https://github.com/tensorspeech/TensorFlowTTS/tree/master/examples/fastspeech2_libritts)
	- For MelGAN tutorial, pls see [examples/melgan](https://github.com/tensorspeech/TensorFlowTTS/tree/master/examples/melgan)
	- For MelGAN + STFT Loss tutorial, pls see [examples/melgan.stft](https://github.com/tensorspeech/TensorFlowTTS/tree/master/examples/melgan.stft)
	- For Multiband-MelGAN tutorial, pls see [examples/multiband_melgan](https://github.com/tensorspeech/TensorFlowTTS/tree/master/examples/multiband_melgan)
	- For Parallel WaveGAN tutorial, pls see [examples/parallel_wavegan](https://github.com/tensorspeech/TensorFlowTTS/tree/master/examples/parallel_wavegan)
	- For Multiband-MelGAN Generator + HiFi-GAN tutorial, pls see [examples/multiband_melgan_hf](https://github.com/tensorspeech/TensorFlowTTS/tree/master/examples/multiband_melgan_hf)
	- For HiFi-GAN tutorial, pls see [examples/hifigan](https://github.com/tensorspeech/TensorFlowTTS/tree/master/examples/hifigan)
	# Abstract Class Explaination

	## Abstract DataLoader Tensorflow-based dataset

	A detail implementation of abstract dataset class from [tensorflow_tts/dataset/abstract_dataset](https://github.com/tensorspeech/TensorFlowTTS/blob/master/tensorflow_tts/datasets/abstract_dataset.py). There are some functions you need overide and understand:

	1. get_args: This function return argumentation for generator class, normally is utt_ids.
	2. generator: This function have an inputs from get_args function and return a inputs for models. *Note that we return a dictionary for all generator functions with the keys that exactly match with the model's parameters because base_trainer will use model(\\batch) to do forward step.*
	3. get_output_dtypes: This function need return dtypes for each element from generator function.
	4. get_len_dataset: Return len of datasets, normaly is len(utt_ids).

	IMPORTANT NOTES:

	- A pipeline of creating dataset should be: cache -> shuffle -> map_fn -> get_batch -> prefetch.
	- If you do shuffle before cache, the dataset won't shuffle when it re-iterate over datasets.
	- You should apply map_fn to make each element return from generator function have the same length before getting batch and feed it into a model.

	Some examples to use this abstract_dataset are [tacotron_dataset.py](https://github.com/tensorspeech/TensorFlowTTS/blob/master/examples/tacotron2/tacotron_dataset.py), [fastspeech_dataset.py](https://github.com/tensorspeech/TensorFlowTTS/blob/master/examples/fastspeech/fastspeech_dataset.py), [melgan_dataset.py](https://github.com/tensorspeech/TensorFlowTTS/blob/master/examples/melgan/audio_mel_dataset.py), [fastspeech2_dataset.py](https://github.com/TensorSpeech/TensorFlowTTS/blob/master/examples/fastspeech2/fastspeech2_dataset.py)


	## Abstract Trainer Class

	A detail implementation of base_trainer from [tensorflow_tts/trainer/base_trainer.py](https://github.com/tensorspeech/TensorFlowTTS/blob/master/tensorflow_tts/trainers/base_trainer.py). It include [Seq2SeqBasedTrainer](https://github.com/tensorspeech/TensorFlowTTS/blob/master/tensorflow_tts/trainers/base_trainer.py#L265) and [GanBasedTrainer](https://github.com/tensorspeech/TensorFlowTTS/blob/master/tensorflow_tts/trainers/base_trainer.py#L149) inherit from [BasedTrainer](https://github.com/tensorspeech/TensorFlowTTS/blob/master/tensorflow_tts/trainers/base_trainer.py#L16). All trainer support both single/multi GPU. There a some functions you MUST overide when implement new_trainer:

	- compile: This function aim to define a models, and losses.
	- generate_and_save_intermediate_result: This function will save intermediate result such as: plot alignment, save audio generated, plot mel-spectrogram ...
	- compute_per_example_losses: This function will compute per_example_loss for model, note that all element of the loss MUST has shape [batch_size].

	All models on this repo are trained based-on GanBasedTrainer (see [train_melgan.py](https://github.com/tensorspeech/TensorFlowTTS/blob/master/examples/melgan/train_melgan.py), [train_melgan_stft.py](https://github.com/tensorspeech/TensorFlowTTS/blob/master/examples/melgan.stft/train_melgan_stft.py), [train_multiband_melgan.py](https://github.com/tensorspeech/TensorFlowTTS/blob/master/examples/multiband_melgan/train_multiband_melgan.py)) and Seq2SeqBasedTrainer (see [train_tacotron2.py](https://github.com/tensorspeech/TensorFlowTTS/blob/master/examples/tacotron2/train_tacotron2.py), [train_fastspeech.py](https://github.com/tensorspeech/TensorFlowTTS/blob/master/examples/fastspeech/train_fastspeech.py)).

	# End-to-End Examples
	You can know how to inference each model at [notebooks](https://github.com/tensorspeech/TensorFlowTTS/tree/master/notebooks) or see a [colab](https://colab.research.google.com/drive/1akxtrLZHKuMiQup00tzO2olCaN-y3KiD?usp=sharing) (for English), [colab](https://colab.research.google.com/drive/1ybWwOS5tipgPFttNulp77P6DAB5MtiuN?usp=sharing) (for Korean), [colab](https://colab.research.google.com/drive/1YpSHRBRPBI7cnTkQn1UcVTWEQVbsUm1S?usp=sharing) (for Chinese), [colab](https://colab.research.google.com/drive/1jd3u46g-fGQw0rre8fIwWM9heJvrV1c0?usp=sharing) (for French), [colab](https://colab.research.google.com/drive/1W0nSFpsz32M0OcIkY9uMOiGrLTPKVhTy?usp=sharing) (for German). Here is an example code for end2end inference with fastspeech2 and multi-band melgan. We uploaded all our pretrained in [HuggingFace Hub](https://huggingface.co/tensorspeech).

	```python
	import numpy as np
	import soundfile as sf
	import yaml

	import tensorflow as tf

	from tensorflow_tts.inference import TFAutoModel
	from tensorflow_tts.inference import AutoProcessor

	# initialize fastspeech2 model.
	fastspeech2 = TFAutoModel.from_pretrained("tensorspeech/tts-fastspeech2-ljspeech-en")


	# initialize mb_melgan model
	mb_melgan = TFAutoModel.from_pretrained("tensorspeech/tts-mb_melgan-ljspeech-en")


	# inference
	processor = AutoProcessor.from_pretrained("tensorspeech/tts-fastspeech2-ljspeech-en")

	input_ids = processor.text_to_sequence("Recent research at Harvard has shown meditating for as little as 8 weeks, can actually increase the grey matter in the parts of the brain responsible for emotional regulation, and learning.")
	# fastspeech inference

	mel_before, mel_after, duration_outputs, _, _ = fastspeech2.inference(
	input_ids=tf.expand_dims(tf.convert_to_tensor(input_ids, dtype=tf.int32), 0),
	speaker_ids=tf.convert_to_tensor([0], dtype=tf.int32),
	speed_ratios=tf.convert_to_tensor([1.0], dtype=tf.float32),
	f0_ratios =tf.convert_to_tensor([1.0], dtype=tf.float32),
	energy_ratios =tf.convert_to_tensor([1.0], dtype=tf.float32),
	)

	# melgan inference
	audio_before = mb_melgan.inference(mel_before)[0, :, 0]
	audio_after = mb_melgan.inference(mel_after)[0, :, 0]

	# save to file
	sf.write('./audio_before.wav', audio_before, 22050, "PCM_16")
	sf.write('./audio_after.wav', audio_after, 22050, "PCM_16")
	```

	# Contact
	- [Minh Nguyen Quan Anh](https://github.com/tensorspeech): [email protected]
	- [erogol](https://github.com/erogol): [email protected]
	- [Kuan Chen](https://github.com/azraelkuan): [email protected]
	- [Dawid Kobus](https://github.com/machineko): [email protected]
	- [Takuya Ebata](https://github.com/MokkeMeguru): [email protected]
	- [Trinh Le Quang](https://github.com/l4zyf9x): [email protected]
	- [Yunchao He](https://github.com/candlewill): [email protected]
	- [Alejandro Miguel Velasquez](https://github.com/ZDisket): [email protected]

	# License
	All models here are licensed under the [Apache 2.0](http://www.apache.org/licenses/LICENSE-2.0)

	# Acknowledgement
	We want to thank [Tomoki Hayashi](https://github.com/kan-bayashi), who discussed with us much about Melgan, Multi-band melgan, Fastspeech, and Tacotron. This framework based-on his great open-source [ParallelWaveGan](https://github.com/kan-bayashi/ParallelWaveGAN) project.