PyTorch Implementation of NCSOFT's FastPitchFormant: Source-filter based Decomposed Modeling for Speech Synthesis

Overview

FastPitchFormant - PyTorch Implementation

PyTorch Implementation of FastPitchFormant: Source-filter based Decomposed Modeling for Speech Synthesis.

Quickstart

Dependencies

You can install the Python dependencies with

pip3 install -r requirements.txt

Inference

You have to download the pretrained models and put them in output/ckpt/LJSpeech/.

For English single-speaker TTS, run

python3 synthesize.py --text "YOUR_DESIRED_TEXT" --restore_step 1000000 --mode single -p config/LJSpeech/preprocess.yaml -m config/LJSpeech/model.yaml -t config/LJSpeech/train.yaml

The generated utterances will be put in output/result/.

Batch Inference

Batch inference is also supported, try

python3 synthesize.py --source preprocessed_data/LJSpeech/val.txt --restore_step 1000000 --mode batch -p config/LJSpeech/preprocess.yaml -m config/LJSpeech/model.yaml -t config/LJSpeech/train.yaml

to synthesize all utterances in preprocessed_data/LJSpeech/val.txt

Controllability

The pitch/speaking rate of the synthesized utterances can be controlled by specifying the desired pitch/energy/duration ratios. For example, one can increase the speaking rate by 20 % and decrease the pitch by 20 % by

python3 synthesize.py --text "YOUR_DESIRED_TEXT" --restore_step 1000000 --mode single -p config/LJSpeech/preprocess.yaml -m config/LJSpeech/model.yaml -t config/LJSpeech/train.yaml --duration_control 0.8 --pitch_control 0.8

Training

Datasets

The supported datasets are

  • LJSpeech: a single-speaker English dataset consists of 13100 short audio clips of a female speaker reading passages from 7 non-fiction books, approximately 24 hours in total.

Preprocessing

First, run

python3 prepare_align.py config/LJSpeech/preprocess.yaml

for some preparations.

As described in the paper, Montreal Forced Aligner (MFA) is used to obtain the alignments between the utterances and the phoneme sequences. Alignments for the LJSpeech datasets are provided here. You have to unzip the files in preprocessed_data/LJSpeech/TextGrid/.

After that, run the preprocessing script by

python3 preprocess.py config/LJSpeech/preprocess.yaml

Alternately, you can align the corpus by yourself. Download the official MFA package and run

./montreal-forced-aligner/bin/mfa_align raw_data/LJSpeech/ lexicon/librispeech-lexicon.txt english preprocessed_data/LJSpeech

or

./montreal-forced-aligner/bin/mfa_train_and_align raw_data/LJSpeech/ lexicon/librispeech-lexicon.txt preprocessed_data/LJSpeech

to align the corpus and then run the preprocessing script.

python3 preprocess.py config/LJSpeech/preprocess.yaml

Training

Train your model with

python3 train.py -p config/LJSpeech/preprocess.yaml -m config/LJSpeech/model.yaml -t config/LJSpeech/train.yaml

TensorBoard

Use

tensorboard --logdir output/log/LJSpeech

to serve TensorBoard on your localhost.

Implementation Issues

  • Use HiFi-GAN instead of VocGAN for vocoding.

Citation

@misc{lee2021fastpitchformant,
  author = {Lee, Keon},
  title = {FastPitchFormant},
  year = {2021},
  publisher = {GitHub},
  journal = {GitHub repository},
  howpublished = {\url{https://github.com/keonlee9420/FastPitchFormant}}
}

References

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Comments
  • Error when duration_control is <1

    Error when duration_control is <1

    I can set any value above 1 (ie. '--duration_control 1.9') to slow down the speaking rate, but can't do the opposite, anything below 1 (ie. 0.9) will throw this error message:

    C:\FastPitchFormant>python synthesize.py --text "testing" --restore_step 600000 --mode single -p config/LJSpeech/preprocess.yaml -m config/LJSpeech/model.yaml -t config/LJSpeech/train.yaml --duration_control 0.9 --pitch_control 1
    Removing weight norm...
    Raw Text Sequence: testing
    Phoneme Sequence: {T EH1 S T IH0 NG}
    Traceback (most recent call last):
      File "synthesize.py", line 207, in <module>
        synthesize(model, args.restore_step, configs, vocoder, batchs, control_values)
      File "synthesize.py", line 95, in synthesize
        output = model(
      File "C:\ProgramData\Anaconda3\envs\pttf2cu111py38\lib\site-packages\torch\nn\modules\module.py", line 1051, in _call_impl
        return forward_call(*input, **kwargs)
      File "C:\FastPitchFormant\model\FastPitchFormant.py", line 89, in forward
        formant_hidden = self.formant_generator(h, mel_masks)
      File "C:\ProgramData\Anaconda3\envs\pttf2cu111py38\lib\site-packages\torch\nn\modules\module.py", line 1051, in _call_impl
        return forward_call(*input, **kwargs)
      File "C:\FastPitchFormant\model\modules.py", line 329, in forward
        output, enc_slf_attn = enc_layer(
      File "C:\ProgramData\Anaconda3\envs\pttf2cu111py38\lib\site-packages\torch\nn\modules\module.py", line 1051, in _call_impl
        return forward_call(*input, **kwargs)
      File "C:\FastPitchFormant\model\blocks.py", line 109, in forward
        enc_output, enc_slf_attn = self.slf_attn(
      File "C:\ProgramData\Anaconda3\envs\pttf2cu111py38\lib\site-packages\torch\nn\modules\module.py", line 1051, in _call_impl
        return forward_call(*input, **kwargs)
      File "C:\FastPitchFormant\model\blocks.py", line 162, in forward
        output, attn = self.attention(q, k, v, mask=mask)
      File "C:\ProgramData\Anaconda3\envs\pttf2cu111py38\lib\site-packages\torch\nn\modules\module.py", line 1051, in _call_impl
        return forward_call(*input, **kwargs)
      File "C:\FastPitchFormant\model\blocks.py", line 189, in forward
        attn = attn.masked_fill(mask, -np.inf)
    RuntimeError: The size of tensor a (32) must match the size of tensor b (34) at non-singleton dimension 2
    
    opened by MaxGodTier 1
Releases(v1.0.0)
Owner
Keon Lee
Expressive Speech Synthesis | Conversational AI | Open-domain Dialog | NLP | Generative Models | Empathic Computing | HCI
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