--- license: mit tags: - audio --- # SNAC 🍿 Multi-**S**cale **N**eural **A**udio **C**odec (SNAC) compressess audio into discrete codes at a low bitrate. 👉 This model was primarily trained on speech data, and its recommended use case is speech synthesis. See below for other pretrained models. 🔗 GitHub repository: https://github.com/hubertsiuzdak/snac/ ## Overview SNAC encodes audio into hierarchical tokens similarly to SoundStream, EnCodec, and DAC. However, SNAC introduces a simple change where coarse tokens are sampled less frequently, covering a broader time span. This model compresses 24 kHz audio into discrete codes at a 0.98 kbps bitrate. It uses 3 RVQ levels with token rates of 12, 23, and 47 Hz. ## Pretrained models Currently, all models support only single audio channel (mono). | Model | Bitrate | Sample Rate | Params | Recommended use case | |-----------------------------------------------------------------------------|-----------|-------------|--------|--------------------------| | hubertsiuzdak/snac_24khz (this model) | 0.98 kbps | 24 kHz | 19.8 M | 🗣️ Speech | | [hubertsiuzdak/snac_32khz](https://huggingface.co./hubertsiuzdak/snac_32khz) | 1.9 kbps | 32 kHz | 54.5 M | 🎸 Music / Sound Effects | | [hubertsiuzdak/snac_44khz](https://huggingface.co./hubertsiuzdak/snac_44khz) | 2.6 kbps | 44 kHz | 54.5 M | 🎸 Music / Sound Effects | ## Usage Install it using: ```bash pip install snac ``` To encode (and decode) audio with SNAC in Python, use the following code: ```python import torch from snac import SNAC model = SNAC.from_pretrained("hubertsiuzdak/snac_24khz").eval().cuda() audio = torch.randn(1, 1, 24000).cuda() # B, 1, T with torch.inference_mode(): codes = model.encode(audio) audio_hat = model.decode(codes) ``` You can also encode and reconstruct in a single call: ```python with torch.inference_mode(): audio_hat, codes = model(audio) ``` ⚠️ Note that `codes` is a list of token sequences of variable lengths, each corresponding to a different temporal resolution. ``` >>> [code.shape[1] for code in codes] [12, 24, 48] ``` ## Acknowledgements Module definitions are adapted from the [Descript Audio Codec](https://github.com/descriptinc/descript-audio-codec).