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FAcodec

This project is supported by Amphion.

Pytorch implementation for the training of FAcodec, which was proposed in paper NaturalSpeech 3: Zero-Shot Speech Synthesis with Factorized Codec and Diffusion Models

This implementation made some key improvements to the training pipeline, so that the requirements of any form of annotations, including transcripts, phoneme alignments, and speaker labels, are eliminated. All you need are simply raw speech files.
With the new training pipeline, it is possible to train the model on more languages with more diverse timbre distributions.
We release the code for training and inference, including a pretrained checkpoint on 50k hours speech data with over 1 million speakers.

Requirements

  • Python 3.10

Installation

git clone https://github.com/Plachtaa/FAcodec.git
pip install -r requirements.txt

If you want to train the model by yourself, install the following packages:

pip install nemo_toolkit['all']
pip install descript-audio-codec

Model storage

We provide pretrained checkpoints on 50k hours speech data.

Model type Link
FAcodec Hugging Face
FAcodec redecoder Hugging Face

Demo

Try our model on Hugging Face!

Training

accelerate launch train.py --config ./configs/config.yaml

Before you run the command above, replace the PseudoDataset class in meldataset.py with your own dataset. Simply load your own wave files in the same format.
To train redecoder, the voice conversion model, run:

accelerate launch train_redecoder.py --config ./configs/config_redecoder.yaml

Remember to fill in the checkpoint path of a pretrained FAcodec model in the config file.

Usage

Encode & reconstruct

python reconstruct.py --source <source_wav> --ckpt-path <ckpt_path> --config-path <config_path>

If no --ckpt-path or --config-path is specified, model weights will be automatically downloaded from Hugging Face.
For China mainland users, add additional environment variable to specify huggingface endpoint:

HF_ENDPOINT=https://hf-mirror.com python reconstruct_redecoder.py --source <source_wav> --target <target_wav>

Extracting representations

import yaml
from modules.commons import build_model, recursive_munch
from hf_utils import load_custom_model_from_hf
import torch
import torchaudio
import librosa

device = torch.device("cuda" if torch.cuda.is_available() else "cpu")
ckpt_path, config_path = load_custom_model_from_hf("Plachta/FAcodec")
model = build_model(yaml.safe_load(open(config_path))['model_params'])
ckpt_params = torch.load(ckpt_path, map_location="cpu")

for key in ckpt_params:
    model[key].load_state_dict(ckpt_params[key])

_ = [model[key].eval() for key in model]
_ = [model[key].to(device) for key in model]

with torch.no_grad():
    source = "path/to/source.wav"
    source_audio = librosa.load(source, sr=24000)[0]
    source_audio = torch.tensor(source_audio).unsqueeze(0).float().to(device)
    z = model.encoder(source_audio[None, ...].to(device).float())
    z, quantized, _, _, timbre, codes = model.quantizer(z, source_audio[None, ...].to(device).float(), return_codes=True)

where:
timbre is the timbre representation, one single vector for each utterance.
codes[0] is the prosody representation
codes[1] is the content representation

Zero-shot voice conversion

python reconstruct_redecoder.py \
    --source <source_wav> 
    --target <target_wav> 
    --codec-ckpt-path <codec_ckpt_path> 
    --redecoder-ckpt-path <redecoder_ckpt_path> 
    --codec-config-path <codec_config_path> 
    --redecoder-config-path <redecoder_config_path>

same as above, if no checkpoint path or config path is specified, model weights will be automatically downloaded from Hugging Face.