TensorFlow implementation of:
- Deep Voice 2: Multi-Speaker Neural Text-to-Speech
- Listening while Speaking: Speech Chain by Deep Learning
- Tacotron: Towards End-to-End Speech Synthesis
Samples audios (in Korean) can be found here.
- Python 3.6+
- FFmpeg
- Tensorflow 1.3
After preparing Tensorflow, install prerequisites with:
pip3 install -r requirements.txt
python -c "import nltk; nltk.download('punkt')"
If you want to synthesize a speech in Korean dicrectly, follow 2-3. Download pre-trained models.
The datasets
directory should look like:
datasets
├── son
│ ├── alignment.json
│ └── audio
│ ├── 1.mp3
│ ├── 2.mp3
│ ├── 3.mp3
│ └── ...
└── YOUR_DATASET
├── alignment.json
└── audio
├── 1.mp3
├── 2.mp3
├── 3.mp3
└── ...
and YOUR_DATASET/alignment.json
should look like:
{
"./datasets/YOUR_DATASET/audio/001.mp3": "My name is Taehoon Kim.",
"./datasets/YOUR_DATASET/audio/002.mp3": "The buses aren't the problem.",
"./datasets/YOUR_DATASET/audio/003.mp3": "They have discovered a new particle.",
}
After you prepare as described, you should genearte preprocessed data with:
python3 -m datasets.generate_data ./datasets/YOUR_DATASET/alignment.json
Follow below commands. (explain with son
dataset)
-
To automate an alignment between sounds and texts, prepare
GOOGLE_APPLICATION_CREDENTIALS
to use Google Speech Recognition API. To get credentials, read this.export GOOGLE_APPLICATION_CREDENTIALS="YOUR-GOOGLE.CREDENTIALS.json"
-
Download speech(or video) and text.
python3 -m datasets.son.download
-
Segment all audios on silence.
python3 -m audio.silence --audio_pattern "./datasets/son/audio/*.wav" --method=pydub
-
By using Google Speech Recognition API, we predict sentences for all segmented audios.
python3 -m recognition.google --audio_pattern "./datasets/son/audio/*.*.wav"
-
By comparing original text and recognised text, save
audio<->text
pair information into./datasets/son/alignment.json
.python3 -m recognition.alignment --recognition_path "./datasets/son/recognition.json" --score_threshold=0.5
-
Finally, generated numpy files which will be used in training.
python3 -m datasets.generate_data ./datasets/son/alignment.json
Because the automatic generation is extremely naive, the dataset is noisy. However, if you have enough datasets (20+ hours with random initialization or 5+ hours with pretrained model initialization), you can expect an acceptable quality of audio synthesis.
The important hyperparameters for a models are defined in hparams.py
.
(Change cleaners
in hparams.py
from korean_cleaners
to english_cleaners
to train with English dataset)
To train a single-speaker model:
python3 train.py --data_path=datasets/son
python3 train.py --data_path=datasets/son --initialize_path=PATH_TO_CHECKPOINT
To train a multi-speaker model:
# after change `model_type` in `hparams.py` to `deepvoice` or `simple`
python3 train.py --data_path=datasets/son1,datasets/son2
To restart a training from previous experiments such as logs/son-20171015
:
python3 train.py --data_path=datasets/son --load_path logs/son-20171015
If you don't have good and enough (10+ hours) dataset, it would be better to use --initialize_path
to use a well-trained model as initial parameters.
You can train your own models with:
python3 app.py --load_path logs/son-20171015 --num_speakers=1
or generate audio directly with:
python3 synthesizer.py --load_path logs/son-20171015 --text "이거 실화냐?"
Training attention on single speaker model:
Training attention on multi speaker model:
This is not an official DEVSISTERS product. This project is not responsible for misuse or for any damage that you may cause. You agree that you use this software at your own risk.
Taehoon Kim / @carpedm20