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| # VALL-E | |
| ## Introduction | |
| This is an unofficial PyTorch implementation of VALL-E, a zero-shot voice cloning model via neural codec language modeling ([paper link](https://arxiv.org/abs/2301.02111)). | |
| If trained properly, this model could match the performance specified in the original paper. | |
| ## Change notes | |
| This is a refined version compared to the first version of VALL-E in Amphion, we have changed the underlying implementation to Llama | |
| to provide better model performance, faster training speed, and more readable codes. | |
| This can be a great tool if you want to learn speech language models and its implementation. | |
| ## Installation requirement | |
| Set up your environemnt as in Amphion README (you'll need a conda environment, and we recommend using Linux). A GPU is recommended if you want to train this model yourself. | |
| For inferencing our pretrained models, you could generate samples even without a GPU. | |
| To ensure your transformers library can run the code, we recommend additionally running: | |
| ```bash | |
| pip install -U transformers==4.41.2 | |
| ``` | |
| ## Inferencing pretrained VALL-E models | |
| ### Download pretrained weights | |
| You need to download our pretrained weights from huggingface. | |
| Script to download AR and NAR model checkpoint: | |
| ```bash | |
| huggingface-cli download amphion/valle valle_ar_mls_196000.bin valle_nar_mls_164000.bin --local-dir ckpts | |
| ``` | |
| Script to download codec model (SpeechTokenizer) checkpoint: | |
| ```bash | |
| mkdir -p ckpts/speechtokenizer_hubert_avg && huggingface-cli download amphion/valle SpeechTokenizer.pt config.json --local-dir ckpts/speechtokenizer_hubert_avg | |
| ``` | |
| If you cannot access huggingface, consider using the huggingface mirror to download: | |
| ```bash | |
| HF_ENDPOINT=https://hf-mirror.com huggingface-cli download amphion/valle valle_ar_mls_196000.bin valle_nar_mls_164000.bin --local-dir ckpts | |
| ``` | |
| ```bash | |
| mkdir -p ckpts/speechtokenizer_hubert_avg && HF_ENDPOINT=https://hf-mirror.com huggingface-cli download amphion/valle SpeechTokenizer.pt config.json --local-dir ckpts/speechtokenizer_hubert_avg | |
| ``` | |
| ### Inference in IPython notebook | |
| We provide our pretrained VALL-E model that is trained on 45k hours MLS dataset, which contains 10-20s English speech. | |
| The "demo.ipynb" file provides a working example of inferencing our pretrained VALL-E model. Give it a try! | |
| ## Examining the model files | |
| Examining the model files of VALL-E is a great way to learn how it works. | |
| We provide examples that allows you to overfit a single batch (so no dataset downloading is required). | |
| The AR model is essentially a causal language model that "continues" a speech. The NAR model is a modification from the AR model that allows for bidirectional attention. | |
| File `valle_ar.py` and `valle_nar.py` in "models/tts/valle_v2" folder are models files, these files can be run directly via `python -m models.tts.valle_v2.valle_ar` (or `python -m models.tts.valle_v2.valle_nar`). | |
| This will invoke a test which overfits it to a single example. | |
| ## Training VALL-E from scratch | |
| ### Preparing LibriTTS or LibriTTS-R dataset files | |
| We have tested our training script on LibriTTS and LibriTTS-R. | |
| You could download LibriTTS-R at [this link](https://www.openslr.org/141/) and LibriTTS at [this link](https://www.openslr.org/60). | |
| The "train-clean-360" split is currently used by our configuration. | |
| You can test dataset.py by run `python -m models.tts.valle_v2.libritts_dataset`. | |
| For your reference, our unzipped dataset files has a file structure like this: | |
| ``` | |
| /path/to/LibriTTS_R | |
| βββ BOOKS.txt | |
| βββ CHAPTERS.txt | |
| βββ dev-clean | |
| β βββ 2412 | |
| β β βββ 153947 | |
| β β β βββ 2412_153947_000014_000000.normalized.txt | |
| β β β βββ 2412_153947_000014_000000.original.txt | |
| β β β βββ 2412_153947_000014_000000.wav | |
| β β β βββ 2412_153947_000017_000001.normalized.txt | |
| β β β βββ 2412_153947_000017_000001.original.txt | |
| β β β βββ 2412_153947_000017_000001.wav | |
| β β β βββ 2412_153947_000017_000005.normalized.txt | |
| βββ train-clean-360 | |
| βββ 422 | |
| β β βββ 122949 | |
| β β βββ 422_122949_000009_000007.normalized.txt | |
| β β βββ 422_122949_000009_000007.original.txt | |
| β β βββ 422_122949_000009_000007.wav | |
| β β βββ 422_122949_000013_000010.normalized.txt | |
| β β βββ 422_122949_000013_000010.original.txt | |
| β β βββ 422_122949_000013_000010.wav | |
| β β βββ 422_122949.book.tsv | |
| β β βββ 422_122949.trans.tsv | |
| ``` | |
| Alternativelly, you could write your own dataloader for your dataset. | |
| You can reference the `__getitem__` method in `models/tts/VALLE_V2/mls_dataset.py` | |
| It should return a dict of a 1-dimensional tensor 'speech', which is a 16kHz speech; and a 1-dimensional tensor of 'phone', which is the phoneme sequence of the speech. | |
| As long as your dataset returns this in `__getitem__`, it should work. | |
| ### Changing batch size and dataset path in configuration file | |
| Our configuration file for training VALL-E AR model is at "egs/tts/VALLE_V2/exp_ar_libritts.json", and NAR model at "egs/tts/VALLE_V2/exp_nar_libritts.json" | |
| To train your model, you need to modify the `dataset` variable in the json configurations. | |
| Currently it's at line 40, you should modify the "data_dir" to your dataset's root directory. | |
| ``` | |
| "dataset": { | |
| "dataset_list":["train-clean-360"], // You can also change to other splits like "dev-clean" | |
| "data_dir": "/path/to/your/LibriTTS_R", | |
| }, | |
| ``` | |
| You should also select a reasonable batch size at the "batch_size" entry (currently it's set at 5). | |
| You can change other experiment settings in the `/egs/tts/VALLE_V2/exp_ar_libritts.json` such as the learning rate, optimizer and the dataset. | |
| ### Run the command to Train AR model | |
| (Make sure your current directory is at the Amphion root directory). | |
| Run: | |
| ```sh | |
| sh egs/tts/VALLE_V2/train_ar_libritts.sh | |
| ``` | |
| Your initial model checkpoint could be found in places such as `ckpt/VALLE_V2/ar_libritts/checkpoint/epoch-0000_step-0000000_loss-7.397293/pytorch_model.bin` | |
| ### Resume from existing checkpoint | |
| Our framework supports resuming from existing checkpoint. | |
| Run: | |
| ```sh | |
| sh egs/tts/VALLE_V2/train_ar_libritts.sh --resume | |
| ``` | |
| ### Finetuning based on our AR model | |
| We provide our AR model optimizer, and random_states checkpoints to support finetuning (No need to download these files if you're only inferencing from the pretrained model). First rename the models as "pytorch_model.bin", "optimizer.bin", and "random_states_0.pkl", then you could resume from these checkpoints. [Link to AR optimizer checkpoint](https://huggingface.co./amphion/valle/blob/main/optimizer_valle_ar_mls_196000.bin) and [Link to random_states.pkl](https://huggingface.co./amphion/valle/blob/main/random_states_0.pkl). | |
| ### Run the command to Train NAR model | |
| (Make sure your current directory is at the Amphion root directory). | |
| Run: | |
| ```sh | |
| sh egs/tts/VALLE_V2/train_nar_libritts.sh | |
| ``` | |
| ### Inference your models | |
| Since our inference script is already given, you can change the paths | |
| from our pretrained model to you newly trained models and do the inference. | |
| ## Future plans | |
| - [ ] Support more languages | |
| - [ ] More are coming... | |