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requirements.txt |
README.md
Riffusion
Riffusion is a technique for real-time music and audio generation with stable diffusion.
Read about it at https://www.riffusion.com/about and try it at https://www.riffusion.com/.
- Inference server: https://github.com/riffusion/riffusion
- Web app: https://github.com/riffusion/riffusion-app
- Model checkpoint: https://huggingface.co/riffusion/riffusion-model-v1
This repository contains the Python backend does the model inference and audio processing, including:
- a diffusers pipeline that performs prompt interpolation combined with image conditioning
- a module for (approximately) converting between spectrograms and waveforms
- a flask server to provide model inference via API to the next.js app
- a model template titled baseten.py for deploying as a Truss
Install
Tested with Python 3.9 and diffusers 0.9.0.
To run this model, you need a GPU with CUDA. To run it in real time, it needs to be able to run stable diffusion with approximately 50 steps in under five seconds.
You need to make sure you have torch and torchaudio installed with CUDA support. See the install guide or stable wheels.
conda create --name riffusion-inference python=3.9
conda activate riffusion-inference
python -m pip install -r requirements.txt
If torchaudio has no audio backend, see this issue.
You can open and save WAV files with pure python. For opening and saving non-wav files – like mp3 – you'll need ffmpeg or libav.
Guides:
Run the model server
Start the Flask server:
python -m riffusion.server --host 127.0.0.1 --port 3013
You can specify --checkpoint
with your own directory or huggingface ID in diffusers format.
The model endpoint is now available at http://127.0.0.1:3013/run_inference
via POST request.
Example input (see InferenceInput for the API):
{
"alpha": 0.75,
"num_inference_steps": 50,
"seed_image_id": "og_beat",
"start": {
"prompt": "church bells on sunday",
"seed": 42,
"denoising": 0.75,
"guidance": 7.0
},
"end": {
"prompt": "jazz with piano",
"seed": 123,
"denoising": 0.75,
"guidance": 7.0
}
}
Example output (see InferenceOutput for the API):
{
"image": "< base64 encoded JPEG image >",
"audio": "< base64 encoded MP3 clip >"
}
Use the --device
argument to specify the torch device to use.
cuda
is recommended.
cpu
works but is quite slow.
mps
is supported for inference, but some operations fall back to CPU. You may need to set
PYTORCH_ENABLE_MPS_FALLBACK=1. In addition, it is not deterministic.
Test
Tests live in the test/
directory and are implemented with unittest
.
To run all tests:
python -m unittest test/*_test.py
To run a single test:
python -m unittest test.audio_to_image_test
To preserve temporary outputs for debugging, set RIFFUSION_TEST_DEBUG
:
RIFFUSION_TEST_DEBUG=1 python -m unittest test.audio_to_image_test
To run a single test case:
python -m unittest test.audio_to_image_test -k AudioToImageTest.test_stereo
To run tests using a specific torch device, set RIFFUSION_TEST_DEVICE
. Tests should pass with
cpu
, cuda
, and mps
backends.
Development
Install additional packages for dev with pip install -r dev_requirements.txt
.
- Linter:
ruff
- Formatter:
black
- Type checker:
mypy
These are configured in pyproject.toml
.
The results of mypy .
, black .
, and ruff .
must be clean to accept a PR.
Citation
If you build on this work, please cite it as follows:
@article{Forsgren_Martiros_2022,
author = {Forsgren, Seth* and Martiros, Hayk*},
title = {{Riffusion - Stable diffusion for real-time music generation}},
url = {https://riffusion.com/about},
year = {2022}
}