# Deep Voice 3 PaddlePaddle dynamic graph implementation of Deep Voice 3, a convolutional network based text-to-speech generative model. The implementation is based on [Deep Voice 3: Scaling Text-to-Speech with Convolutional Sequence Learning](https://arxiv.org/abs/1710.07654). We implement Deep Voice 3 using Paddle Fluid with dynamic graph, which is convenient for building flexible network architectures. ## Dataset We experiment with the LJSpeech dataset. Download and unzip [LJSpeech](https://keithito.com/LJ-Speech-Dataset/). ```bash wget https://data.keithito.com/data/speech/LJSpeech-1.1.tar.bz2 tar xjvf LJSpeech-1.1.tar.bz2 ``` ## Model Architecture ![Deep Voice 3 model architecture](./images/model_architecture.png) The model consists of an encoder, a decoder and a converter (and a speaker embedding for multispeaker models). The encoder and the decoder together form the seq2seq part of the model, and the converter forms the postnet part. ## Project Structure ```text ├── data.py data_processing ├── configs/ (example) configuration files ├── sentences.txt sample sentences ├── synthesis.py script to synthesize waveform from text ├── train.py script to train a model └── utils.py utility functions ``` ## Train Train the model using train.py, follow the usage displayed by `python train.py --help`. ```text usage: train.py [-h] [-c CONFIG] [-s DATA] [-r RESUME] [-o OUTPUT] [-g DEVICE] Train a Deep Voice 3 model with LJSpeech dataset. optional arguments: -h, --help show this help message and exit -c CONFIG, --config CONFIG experimrnt config -s DATA, --data DATA The path of the LJSpeech dataset. -r RESUME, --resume RESUME checkpoint to load -o OUTPUT, --output OUTPUT The directory to save result. -g DEVICE, --device DEVICE device to use ``` - `--config` is the configuration file to use. The provided `ljspeech.yaml` can be used directly. And you can change some values in the configuration file and train the model with a different config. - `--data` is the path of the LJSpeech dataset, the extracted folder from the downloaded archive (the folder which contains metadata.txt). - `--resume` is the path of the checkpoint. If it is provided, the model would load the checkpoint before trainig. - `--output` is the directory to save results, all results are saved in this directory. The structure of the output directory is shown below. ```text ├── checkpoints # checkpoint ├── log # tensorboard log └── states # train and evaluation results ├── alignments # attention ├── lin_spec # linear spectrogram ├── mel_spec # mel spectrogram └── waveform # waveform (.wav files) ``` - `--device` is the device (gpu id) to use for training. `-1` means CPU. Example script: ```bash python train.py --config=configs/ljspeech.yaml --data=./LJSpeech-1.1/ --output=experiment --device=0 ``` You can monitor training log via tensorboard, using the script below. ```bash cd experiment/log tensorboard --logdir=. ``` ## Synthesis ```text usage: synthesis.py [-h] [-c CONFIG] [-g DEVICE] checkpoint text output_path Synthsize waveform from a checkpoint. positional arguments: checkpoint checkpoint to load. text text file to synthesize output_path path to save results optional arguments: -h, --help show this help message and exit -c CONFIG, --config CONFIG experiment config. -g DEVICE, --device DEVICE device to use ``` - `--config` is the configuration file to use. You should use the same configuration with which you train you model. - `checkpoint` is the checkpoint to load. - `text`is the text file to synthesize. - `output_path` is the directory to save results. The output path contains the generated audio files (`*.wav`) and attention plots (*.png) for each sentence. - `--device` is the device (gpu id) to use for training. `-1` means CPU. Example script: ```bash python synthesis.py --config=configs/ljspeech.yaml --device=0 experiment/checkpoints/model_step_005000000 sentences.txt generated ```