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title: Audio Diffusion | |
emoji: 🎵 | |
colorFrom: pink | |
colorTo: blue | |
sdk: gradio | |
sdk_version: 3.1.4 | |
app_file: app.py | |
pinned: false | |
license: gpl-3.0 | |
# audio-diffusion [![Open in Colab](https://colab.research.google.com/assets/colab-badge.svg)](https://colab.research.google.com/github/teticio/audio-diffusion/blob/master/notebooks/gradio_app.ipynb) | |
### Apply [Denoising Diffusion Probabilistic Models](https://arxiv.org/abs/2006.11239) using the new Hugging Face [diffusers](https://github.com/huggingface/diffusers) package to synthesize music instead of images. | |
--- | |
**UPDATES**: | |
4/10/2022 | |
It is now possible to mask parts of the input audio during generation which means you can stitch several samples together (think "out-painting"). | |
27/9/2022 | |
You can now generate an audio based on a previous one. You can use this to generate variations of the same audio or even to "remix" a track (via a sort of "style transfer"). You can find examples of how to do this in the [`test_model.ipynb`](https://colab.research.google.com/github/teticio/audio-diffusion/blob/master/notebooks/test_model.ipynb) notebook. | |
--- | |
![mel spectrogram](mel.png) | |
--- | |
Audio can be represented as images by transforming to a [mel spectrogram](https://en.wikipedia.org/wiki/Mel-frequency_cepstrum), such as the one shown above. The class `Mel` in `mel.py` can convert a slice of audio into a mel spectrogram of `x_res` x `y_res` and vice versa. The higher the resolution, the less audio information will be lost. You can see how this works in the [`test_mel.ipynb`](https://github.com/teticio/audio-diffusion/blob/main/notebooks/test_mel.ipynb) notebook. | |
A DDPM model is trained on a set of mel spectrograms that have been generated from a directory of audio files. It is then used to synthesize similar mel spectrograms, which are then converted back into audio. | |
You can play around with some pretrained models on [Google Colab](https://colab.research.google.com/github/teticio/audio-diffusion/blob/master/notebooks/test_model.ipynb) or [Hugging Face spaces](https://huggingface.co/spaces/teticio/audio-diffusion). Check out some automatically generated loops [here](https://soundcloud.com/teticio2/sets/audio-diffusion-loops). | |
| Model | Dataset | Description | | |
|-------|---------|-------------| | |
| [teticio/audio-diffusion-256](https://huggingface.co/teticio/audio-diffusion-256) | [teticio/audio-diffusion-256](https://huggingface.co/datasets/teticio/audio-diffusion-256) | My "liked" Spotify playlist | | |
| [teticio/audio-diffusion-breaks-256](https://huggingface.co/teticio/audio-diffusion-breaks-256) | [teticio/audio-diffusion-breaks-256](https://huggingface.co/datasets/teticio/audio-diffusion-breaks-256) | Samples that have been used in music, sourced from [WhoSampled](https://whosampled.com) and [YouTube](https://youtube.com) | | |
| [teticio/audio-diffusion-instrumental-hiphop-256](https://huggingface.co/teticio/audio-diffusion-instrumental-hiphop-256) | [teticio/audio-diffusion-instrumental-hiphop-256](https://huggingface.co/datasets/teticio/audio-diffusion-instrumental-hiphop-256) | Instrumental Hip Hop music | | |
--- | |
## Generate Mel spectrogram dataset from directory of audio files | |
#### Install | |
```bash | |
pip install . | |
``` | |
#### Training can be run with Mel spectrograms of resolution 64x64 on a single commercial grade GPU (e.g. RTX 2080 Ti). The `hop_length` should be set to 1024 for better results. | |
```bash | |
python scripts/audio_to_images.py \ | |
--resolution 64 \ | |
--hop_length 1024 \ | |
--input_dir path-to-audio-files \ | |
--output_dir data-test | |
``` | |
#### Generate dataset of 256x256 Mel spectrograms and push to hub (you will need to be authenticated with `huggingface-cli login`). | |
```bash | |
python scripts/audio_to_images.py \ | |
--resolution 256 \ | |
--input_dir path-to-audio-files \ | |
--output_dir data-256 \ | |
--push_to_hub teticio/audio-diffusion-256 | |
``` | |
## Train model | |
#### Run training on local machine. | |
```bash | |
accelerate launch --config_file config/accelerate_local.yaml \ | |
scripts/train_unconditional.py \ | |
--dataset_name data-64 \ | |
--resolution 64 \ | |
--hop_length 1024 \ | |
--output_dir ddpm-ema-audio-64 \ | |
--train_batch_size 16 \ | |
--num_epochs 100 \ | |
--gradient_accumulation_steps 1 \ | |
--learning_rate 1e-4 \ | |
--lr_warmup_steps 500 \ | |
--mixed_precision no | |
``` | |
#### Run training on local machine with `batch_size` of 2 and `gradient_accumulation_steps` 8 to compensate, so that 256x256 resolution model fits on commercial grade GPU and push to hub. | |
```bash | |
accelerate launch --config_file config/accelerate_local.yaml \ | |
scripts/train_unconditional.py \ | |
--dataset_name teticio/audio-diffusion-256 \ | |
--resolution 256 \ | |
--output_dir latent-audio-diffusion-256 \ | |
--num_epochs 100 \ | |
--train_batch_size 2 \ | |
--eval_batch_size 2 \ | |
--gradient_accumulation_steps 8 \ | |
--learning_rate 1e-4 \ | |
--lr_warmup_steps 500 \ | |
--mixed_precision no \ | |
--push_to_hub True \ | |
--hub_model_id latent-audio-diffusion-256 \ | |
--hub_token $(cat $HOME/.huggingface/token) | |
``` | |
#### Run training on SageMaker. | |
```bash | |
accelerate launch --config_file config/accelerate_sagemaker.yaml \ | |
scripts/train_unconditional.py \ | |
--dataset_name teticio/audio-diffusion-256 \ | |
--resolution 256 \ | |
--output_dir ddpm-ema-audio-256 \ | |
--train_batch_size 16 \ | |
--num_epochs 100 \ | |
--gradient_accumulation_steps 1 \ | |
--learning_rate 1e-4 \ | |
--lr_warmup_steps 500 \ | |
--mixed_precision no | |
``` | |