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| .. | ||
| README.md | ||
| config.py | ||
| ljspeech.py | ||
| preprocess.py | ||
| synthesize.py | ||
| train.py | ||
README.md
WaveFlow with LJSpeech
Dataset
Download the datasaet.
wget https://data.keithito.com/data/speech/LJSpeech-1.1.tar.bz2
Extract the dataset.
tar xjvf LJSpeech-1.1.tar.bz2
Preprocess the dataset.
Assume the path to save the preprocessed dataset is ljspeech_waveflow. Run the command below to preprocess the dataset.
python preprocess.py --input=LJSpeech-1.1/ --output=ljspeech_waveflow
Train the model
The training script requires 4 command line arguments.
--data is the path of the training dataset, --output is the path of the output directory (we recommend to use a subdirectory in runs to manage different experiments.)
--device should be "cpu" or "gpu", --nprocs is the number of processes to train the model in parallel.
python train.py --data=ljspeech_waveflow/ --output=runs/test --device="gpu" --nprocs=1
If you want distributed training, set a larger --nprocs (e.g. 4). Note that distributed training with cpu is not supported yet.
Synthesize
Synthesize waveform. We assume the --input is a directory containing several mel spectrograms(log magnitude) in .npy format. The output would be saved in --output directory, containing several .wav files, each with the same name as the mel spectrogram does.
--checkpoint_path should be the path of the parameter file (.pdparams) to load. Note that the extention name .pdparmas is not included here.
--device specifies to device to run synthesis on.
python synthesize.py --input=mels/ --output=wavs/ --checkpoint_path='step-2000000' --device="gpu" --verbose