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--- |
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language: |
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- en |
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- de |
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- es |
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- fr |
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- hi |
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- it |
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- ja |
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- ko |
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- pl |
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- pt |
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- ru |
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- tr |
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- zh |
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thumbnail: >- |
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https://user-images.githubusercontent.com/5068315/230698495-cbb1ced9-c911-4c9a-941d-a1a4a1286ac6.png |
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library: bark |
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license: mit |
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tags: |
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- bark |
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- audio |
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- text-to-speech |
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pipeline_tag: text-to-speech |
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inference: true |
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--- |
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# Bark |
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Bark is a transformer-based text-to-audio model created by [Suno](https://www.suno.ai). |
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Bark can generate highly realistic, multilingual speech as well as other audio - including music, |
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background noise and simple sound effects. The model can also produce nonverbal |
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communications like laughing, sighing and crying. To support the research community, |
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we are providing access to pretrained model checkpoints ready for inference. |
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The original github repo and model card can be found [here](https://github.com/suno-ai/bark). |
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This model is meant for research purposes only. |
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The model output is not censored and the authors do not endorse the opinions in the generated content. |
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Use at your own risk. |
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Two checkpoints are released: |
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- [small](https://huggingface.co/suno/bark-small) |
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- [**large** (this checkpoint)](https://huggingface.co/suno/bark) |
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## Example |
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Try out Bark yourself! |
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* Bark Colab: |
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<a target="_blank" href="https://colab.research.google.com/drive/1eJfA2XUa-mXwdMy7DoYKVYHI1iTd9Vkt?usp=sharing"> |
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<img src="https://colab.research.google.com/assets/colab-badge.svg" alt="Open In Colab"/> |
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</a> |
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* Hugging Face Colab: |
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<a target="_blank" href="https://colab.research.google.com/drive/1dWWkZzvu7L9Bunq9zvD-W02RFUXoW-Pd?usp=sharing"> |
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<img src="https://colab.research.google.com/assets/colab-badge.svg" alt="Open In Colab"/> |
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</a> |
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* Hugging Face Demo: |
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<a target="_blank" href="https://huggingface.co/spaces/suno/bark"> |
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<img src="https://huggingface.co/datasets/huggingface/badges/raw/main/open-in-hf-spaces-sm.svg" alt="Open in HuggingFace"/> |
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</a> |
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## π€ Transformers Usage |
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You can run Bark locally with the π€ Transformers library from version 4.31.0 onwards. |
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1. First install the π€ [Transformers library](https://github.com/huggingface/transformers) and scipy: |
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``` |
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pip install --upgrade pip |
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pip install --upgrade transformers scipy |
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``` |
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2. Run inference via the `Text-to-Speech` (TTS) pipeline. You can infer the bark model via the TTS pipeline in just a few lines of code! |
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```python |
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from transformers import pipeline |
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import scipy |
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synthesiser = pipeline("text-to-speech", "suno/bark") |
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speech = pipe("Hello, my dog is cooler than you!", forward_params={"do_sample": True}) |
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scipy.io.wavfile.write("bark_out.wav", rate=speech["sampling_rate"], data=speech["audio"]) |
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``` |
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3. Run inference via the Transformers modelling code. You can use the processor + generate code to convert text into a mono 24 kHz speech waveform for more fine-grained control. |
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```python |
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from transformers import AutoProcessor, AutoModel |
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processor = AutoProcessor.from_pretrained("suno/bark") |
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model = AutoModel.from_pretrained("suno/bark") |
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inputs = processor( |
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text=["Hello, my name is Suno. And, uh β and I like pizza. [laughs] But I also have other interests such as playing tic tac toe."], |
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return_tensors="pt", |
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) |
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speech_values = model.generate(**inputs, do_sample=True) |
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``` |
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4. Listen to the speech samples either in an ipynb notebook: |
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```python |
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from IPython.display import Audio |
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sampling_rate = model.generation_config.sample_rate |
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Audio(speech_values.cpu().numpy().squeeze(), rate=sampling_rate) |
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``` |
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Or save them as a `.wav` file using a third-party library, e.g. `scipy`: |
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```python |
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import scipy |
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sampling_rate = model.config.sample_rate |
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scipy.io.wavfile.write("bark_out.wav", rate=sampling_rate, data=speech_values.cpu().numpy().squeeze()) |
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``` |
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For more details on using the Bark model for inference using the π€ Transformers library, refer to the [Bark docs](https://huggingface.co/docs/transformers/model_doc/bark). |
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## Suno Usage |
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You can also run Bark locally through the original [Bark library]((https://github.com/suno-ai/bark): |
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1. First install the [`bark` library](https://github.com/suno-ai/bark) |
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2. Run the following Python code: |
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```python |
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from bark import SAMPLE_RATE, generate_audio, preload_models |
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from IPython.display import Audio |
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# download and load all models |
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preload_models() |
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# generate audio from text |
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text_prompt = """ |
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Hello, my name is Suno. And, uh β and I like pizza. [laughs] |
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But I also have other interests such as playing tic tac toe. |
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""" |
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speech_array = generate_audio(text_prompt) |
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# play text in notebook |
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Audio(speech_array, rate=SAMPLE_RATE) |
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``` |
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[pizza.webm](https://user-images.githubusercontent.com/5068315/230490503-417e688d-5115-4eee-9550-b46a2b465ee3.webm) |
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To save `audio_array` as a WAV file: |
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```python |
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from scipy.io.wavfile import write as write_wav |
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write_wav("/path/to/audio.wav", SAMPLE_RATE, audio_array) |
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``` |
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## Model Details |
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The following is additional information about the models released here. |
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Bark is a series of three transformer models that turn text into audio. |
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### Text to semantic tokens |
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- Input: text, tokenized with [BERT tokenizer from Hugging Face](https://huggingface.co/docs/transformers/model_doc/bert#transformers.BertTokenizer) |
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- Output: semantic tokens that encode the audio to be generated |
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### Semantic to coarse tokens |
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- Input: semantic tokens |
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- Output: tokens from the first two codebooks of the [EnCodec Codec](https://github.com/facebookresearch/encodec) from facebook |
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### Coarse to fine tokens |
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- Input: the first two codebooks from EnCodec |
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- Output: 8 codebooks from EnCodec |
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### Architecture |
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| Model | Parameters | Attention | Output Vocab size | |
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|:-------------------------:|:----------:|------------|:-----------------:| |
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| Text to semantic tokens | 80/300 M | Causal | 10,000 | |
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| Semantic to coarse tokens | 80/300 M | Causal | 2x 1,024 | |
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| Coarse to fine tokens | 80/300 M | Non-causal | 6x 1,024 | |
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### Release date |
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April 2023 |
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## Broader Implications |
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We anticipate that this model's text to audio capabilities can be used to improve accessbility tools in a variety of languages. |
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While we hope that this release will enable users to express their creativity and build applications that are a force |
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for good, we acknowledge that any text to audio model has the potential for dual use. While it is not straightforward |
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to voice clone known people with Bark, it can still be used for nefarious purposes. To further reduce the chances of unintended use of Bark, |
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we also release a simple classifier to detect Bark-generated audio with high accuracy (see notebooks section of the main repository). |