A generative speech model for daily dialogue.
Note
This repo contains the algorithm infrastructure and some simple examples.
Tip
For the extended end-user products, please refer to the index repo Awesome-ChatTTS maintained by the community.
ChatTTS is a text-to-speech model designed specifically for dialogue scenarios such as LLM assistant.
- English
- Chinese
- Coming Soon...
You can refer to this video on Bilibili for the detailed description.
- Conversational TTS: ChatTTS is optimized for dialogue-based tasks, enabling natural and expressive speech synthesis. It supports multiple speakers, facilitating interactive conversations.
- Fine-grained Control: The model could predict and control fine-grained prosodic features, including laughter, pauses, and interjections.
- Better Prosody: ChatTTS surpasses most of open-source TTS models in terms of prosody. We provide pretrained models to support further research and development.
Important
The released model is for academic purposes only.
- The main model is trained with Chinese and English audio data of 100,000+ hours.
- The open-source version on HuggingFace is a 40,000 hours pre-trained model without SFT.
- Open-source the 40k-hours-base model and spk_stats file.
- Streaming audio generation.
- Open-source DVAE encoder and zero shot inferring code.
- Multi-emotion controlling.
- ChatTTS.cpp (new repo in
2noise
org is welcomed)
The code is published under AGPLv3+
license.
The model is published under CC BY-NC 4.0
license. It is intended for educational and research use, and should not be used for any commercial or illegal purposes. The authors do not guarantee the accuracy, completeness, or reliability of the information. The information and data used in this repo, are for academic and research purposes only. The data obtained from publicly available sources, and the authors do not claim any ownership or copyright over the data.
ChatTTS is a powerful text-to-speech system. However, it is very important to utilize this technology responsibly and ethically. To limit the use of ChatTTS, we added a small amount of high-frequency noise during the training of the 40,000-hour model, and compressed the audio quality as much as possible using MP3 format, to prevent malicious actors from potentially using it for criminal purposes. At the same time, we have internally trained a detection model and plan to open-source it in the future.
GitHub issues/PRs are always welcomed.
For formal inquiries about the model and roadmap, please contact us at [email protected].
- Group 1, 808364215
- Group 2, 230696694
- Group 3, 933639842
- Group 4, 608667975
Join by clicking here.
git clone https://github.com/2noise/ChatTTS
cd ChatTTS
pip install --upgrade -r requirements.txt
conda create -n chattts
conda activate chattts
pip install -r requirements.txt
pip install safetensors vllm==0.2.7 torchaudio
Note
The installation process is very slow.
Warning
The adaptation of TransformerEngine is currently under development and CANNOT run properly now. Only install it on developing purpose.
pip install git+https://github.com/NVIDIA/TransformerEngine.git@stable
Note
See supported devices at the Hugging Face Doc.
Warning
Currently the FlashAttention-2 will slow down the generating speed according to this issue. Only install it on developing purpose.
pip install flash-attn --no-build-isolation
Make sure you are under the project root directory when you execute these commands below.
python examples/web/webui.py
It will save audio to
./output_audio_n.mp3
python examples/cmd/run.py "Your text 1." "Your text 2."
- Install the stable version from PyPI
pip install ChatTTS
- Install the latest version from GitHub
pip install git+https://github.com/2noise/ChatTTS
- Install from local directory in dev mode
pip install -e .
import ChatTTS
import torch
import torchaudio
chat = ChatTTS.Chat()
chat.load(compile=False) # Set to True for better performance
texts = ["PUT YOUR 1st TEXT HERE", "PUT YOUR 2nd TEXT HERE"]
wavs = chat.infer(texts)
for i in range(len(wavs)):
torchaudio.save(f"basic_output{i}.wav", torch.from_numpy(wavs[i]).unsqueeze(0), 24000)
###################################
# Sample a speaker from Gaussian.
rand_spk = chat.sample_random_speaker()
print(rand_spk) # save it for later timbre recovery
params_infer_code = ChatTTS.Chat.InferCodeParams(
spk_emb = rand_spk, # add sampled speaker
temperature = .3, # using custom temperature
top_P = 0.7, # top P decode
top_K = 20, # top K decode
)
###################################
# For sentence level manual control.
# use oral_(0-9), laugh_(0-2), break_(0-7)
# to generate special token in text to synthesize.
params_refine_text = ChatTTS.Chat.RefineTextParams(
prompt='[oral_2][laugh_0][break_6]',
)
wavs = chat.infer(
texts,
params_refine_text=params_refine_text,
params_infer_code=params_infer_code,
)
###################################
# For word level manual control.
text = 'What is [uv_break]your favorite english food?[laugh][lbreak]'
wavs = chat.infer(text, skip_refine_text=True, params_refine_text=params_refine_text, params_infer_code=params_infer_code)
torchaudio.save("word_level_output.wav", torch.from_numpy(wavs[0]).unsqueeze(0), 24000)
inputs_en = """
chat T T S is a text to speech model designed for dialogue applications.
[uv_break]it supports mixed language input [uv_break]and offers multi speaker
capabilities with precise control over prosodic elements like
[uv_break]laughter[uv_break][laugh], [uv_break]pauses, [uv_break]and intonation.
[uv_break]it delivers natural and expressive speech,[uv_break]so please
[uv_break] use the project responsibly at your own risk.[uv_break]
""".replace('\n', '') # English is still experimental.
params_refine_text = ChatTTS.Chat.RefineTextParams(
prompt='[oral_2][laugh_0][break_4]',
)
audio_array_en = chat.infer(inputs_en, params_refine_text=params_refine_text)
torchaudio.save("self_introduction_output.wav", torch.from_numpy(audio_array_en[0]), 24000)
male speaker |
female speaker |
intro_en_m.webm |
intro_en_f.webm |
For a 30-second audio clip, at least 4GB of GPU memory is required. For the 4090 GPU, it can generate audio corresponding to approximately 7 semantic tokens per second. The Real-Time Factor (RTF) is around 0.3.
This is a problem that typically occurs with autoregressive models (for bark and valle). It's generally difficult to avoid. One can try multiple samples to find a suitable result.
In the current released model, the only token-level control units are [laugh]
, [uv_break]
, and [lbreak]
. In future versions, we may open-source models with additional emotional control capabilities.
- bark, XTTSv2 and valle demostrate a remarkable TTS result by an autoregressive-style system.
- fish-speech reveals capability of GVQ as audio tokenizer for LLM modeling.
- vocos which is used as a pretrained vocoder.
- wlu-audio lab for early algorithm experiments.