221 lines
6.2 KiB
Markdown
221 lines
6.2 KiB
Markdown
# :guitar: Riffusion
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<a href="https://github.com/riffusion/riffusion/actions/workflows/ci.yml?query=branch%3Amain"><img alt="CI status" src="https://github.com/riffusion/riffusion/actions/workflows/ci.yml/badge.svg" /></a>
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<img alt="Python 3.9 | 3.10" src="https://img.shields.io/badge/Python-3.9%20%7C%203.10-blue" />
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<a href="https://github.com/riffusion/riffusion/tree/main/LICENSE"><img alt="MIT License" src="https://img.shields.io/badge/License-MIT-yellowgreen" /></a>
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Riffusion is a library for real-time music and audio generation with stable diffusion.
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Read about it at https://www.riffusion.com/about and try it at https://www.riffusion.com/.
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This is the core repository for riffusion image and audio processing code.
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* Diffusion pipeline that performs prompt interpolation combined with image conditioning
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* Conversions between spectrogram images and audio clips
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* Command-line interface for common tasks
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* Interactive app using streamlit
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* Flask server to provide model inference via API
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* Various third party integrations
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Related repositories:
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* Web app: https://github.com/riffusion/riffusion-app
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* Model checkpoint: https://huggingface.co/riffusion/riffusion-model-v1
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## Citation
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If you build on this work, please cite it as follows:
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```
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@article{Forsgren_Martiros_2022,
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author = {Forsgren, Seth* and Martiros, Hayk*},
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title = {{Riffusion - Stable diffusion for real-time music generation}},
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url = {https://riffusion.com/about},
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year = {2022}
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}
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```
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## Install
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Tested in CI with Python 3.9 and 3.10.
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It's highly recommended to set up a virtual Python environment with `conda` or `virtualenv`:
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```
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conda create --name riffusion python=3.9
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conda activate riffusion
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```
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Install Python dependencies:
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```
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python -m pip install -r requirements.txt
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```
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In order to use audio formats other than WAV, [ffmpeg](https://ffmpeg.org/download.html) is required.
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```
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sudo apt-get install ffmpeg # linux
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brew install ffmpeg # mac
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conda install -c conda-forge ffmpeg # conda
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```
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If torchaudio has no backend, you may need to install `libsndfile`. See [this issue](https://github.com/riffusion/riffusion/issues/12).
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If you have an issue, try upgrading [diffusers](https://github.com/huggingface/diffusers). Tested with 0.9 - 0.11.
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Guides:
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* [Simple Install Guide for Windows](https://www.reddit.com/r/riffusion/comments/zrubc9/installation_guide_for_riffusion_app_inference/)
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## Backends
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### CPU
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`cpu` is supported but is quite slow.
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### CUDA
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`cuda` is the recommended and most performant backend.
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To use with CUDA, make sure you have torch and torchaudio installed with CUDA support. See the
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[install guide](https://pytorch.org/get-started/locally/) or
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[stable wheels](https://download.pytorch.org/whl/torch_stable.html).
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To generate audio in real-time, you need a GPU that can run stable diffusion with approximately 50
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steps in under five seconds, such as a 3090 or A10G.
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Test availability with:
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```python3
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import torch
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torch.cuda.is_available()
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```
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### MPS
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The `mps` backend on Apple Silicon is supported for inference but some operations fall back to CPU,
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particularly for audio processing. You may need to set
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`PYTORCH_ENABLE_MPS_FALLBACK=1`.
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In addition, this backend is not deterministic.
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Test availability with:
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```python3
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import torch
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torch.backends.mps.is_available()
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```
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## Command-line interface
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Riffusion comes with a command line interface for performing common tasks.
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See available commands:
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```
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python -m riffusion.cli -h
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```
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Get help for a specific command:
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```
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python -m riffusion.cli image-to-audio -h
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```
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Execute:
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```
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python -m riffusion.cli image-to-audio --image spectrogram_image.png --audio clip.wav
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```
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## Riffusion Playground
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Riffusion contains a [streamlit](https://streamlit.io/) app for interactive use and exploration.
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Run with:
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```
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python -m streamlit run riffusion/streamlit/playground.py --browser.serverAddress 127.0.0.1 --browser.serverPort 8501
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```
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And access at http://127.0.0.1:8501/
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<img alt="Riffusion Playground" style="width: 600px" src="https://i.imgur.com/OOMKBbT.png" />
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## Run the model server
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Riffusion can be run as a flask server that provides inference via API. This server enables the [web app](https://github.com/riffusion/riffusion-app) to run locally.
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Run with:
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```
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python -m riffusion.server --host 127.0.0.1 --port 3013
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```
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You can specify `--checkpoint` with your own directory or huggingface ID in diffusers format.
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Use the `--device` argument to specify the torch device to use.
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The model endpoint is now available at `http://127.0.0.1:3013/run_inference` via POST request.
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Example input (see [InferenceInput](https://github.com/hmartiro/riffusion-inference/blob/main/riffusion/datatypes.py#L28) for the API):
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```
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{
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"alpha": 0.75,
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"num_inference_steps": 50,
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"seed_image_id": "og_beat",
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"start": {
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"prompt": "church bells on sunday",
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"seed": 42,
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"denoising": 0.75,
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"guidance": 7.0
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},
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"end": {
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"prompt": "jazz with piano",
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"seed": 123,
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"denoising": 0.75,
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"guidance": 7.0
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}
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}
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```
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Example output (see [InferenceOutput](https://github.com/hmartiro/riffusion-inference/blob/main/riffusion/datatypes.py#L54) for the API):
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```
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{
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"image": "< base64 encoded JPEG image >",
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"audio": "< base64 encoded MP3 clip >"
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}
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```
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## Tests
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Tests live in the `test/` directory and are implemented with `unittest`.
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To run all tests:
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```
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python -m unittest test/*_test.py
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```
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To run a single test:
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```
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python -m unittest test.audio_to_image_test
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```
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To preserve temporary outputs for debugging, set `RIFFUSION_TEST_DEBUG`:
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```
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RIFFUSION_TEST_DEBUG=1 python -m unittest test.audio_to_image_test
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```
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To run a single test case within a test:
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```
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python -m unittest test.audio_to_image_test -k AudioToImageTest.test_stereo
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```
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To run tests using a specific torch device, set `RIFFUSION_TEST_DEVICE`. Tests should pass with
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`cpu`, `cuda`, and `mps` backends.
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## Development Guide
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Install additional packages for dev with `python -m pip install -r dev_requirements.txt`.
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* Linter: `ruff`
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* Formatter: `black`
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* Type checker: `mypy`
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These are configured in `pyproject.toml`.
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The results of `mypy .`, `black .`, and `ruff .` *must* be clean to accept a PR.
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CI is run through GitHub Actions from `.github/workflows/ci.yml`.
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Contributions are welcome through pull requests.
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