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The PyTorch-based audio source separation toolkit for researchers || Pretrained models available

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The PyTorch-based audio source separation toolkit for researchers.

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Asteroid is a Pytorch-based audio source separation toolkit that enables fast experimentation on common datasets. It comes with a source code thats supports a large range of datasets and architectures, and a set of recipes to reproduce some important papers.

You use Asteroid or you want to?

Please, if you have found a bug, open an issue, if you solved it, open a pull request !
Same goes for new features, tell us what you want or help us building it !
Don't hesitate to join the slack and ask questions / suggest new features there as well !
Asteroid is intended to be a community-based project so hop on and help us !

Contents

Installation

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In order to install Asteroid, clone the repo and install it using pip or python :

git clone https://github.com/mpariente/asteroid
cd asteroid
# Install install-required deps
pip install numpy Cython
# Install with pip in editable mode
pip install -e .
# Or, install with python in dev mode
# python setup.py develop

Asteroid is also on PyPI, you can install the latest release with

pip install numpy Cython
pip install asteroid

Tutorials

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Here is a list of notebooks showing example usage of Asteroid's features.

Running a recipe

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Running the recipes requires additional packages in most cases, we recommend running :

# from asteroid/
pip install -r requirements.txt

Then choose the recipe you want to run and run it !

cd egs/wham/ConvTasNet
. ./run.sh

More information in egs/README.md.

Available recipes

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Supported datasets

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Pretrained models

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Asteroid provides pretrained models through the Asteroid community in Zenodo. Loading a pretrained model is super simple !

from asteroid.models import ConvTasNet
model = ConvTasNet.from_pretrained('mpariente/ConvTasNet_WHAM!_sepclean')

Have a look at the Zenodo page or at the model cards to choose which model you want to load.

You can also load it with Hub

from torch import hub
model = hub.load('mpariente/asteroid', 'conv_tasnet', 'mpariente/ConvTasNet_WHAM!_sepclean')

Enjoy having pretrained models? Please share your models if you train some, we made it simple with the asteroid-upload CLI, check the next sections.

Share your models

At the end of each sharing-enabled recipe, all the necessary infos are gathered into a file, the only thing that's left to do is to run

asteroid-upload exp/your_exp_dir/publish_dir --uploader "Name Here"

Ok, not really. First you need to register to Zenodo (Sign in with GitHub ok), create a token and use it with the --token option of the CLI, or by setting the ACCESS_TOKEN environment variable. If you plan to upload more models (and you should 😇), you can fill in your infos in uploader_info.yml at the root, like this.

uploader: Manuel Pariente
affiliation: INRIA
git_username: mpariente
token: TOKEN_HERE

Contributing

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We are always looking to expand our coverage of the source separation and speech enhancement research, the following is a list of things we're missing. You want to contribute? This is a great place to start !

Don't forget to read our contributing guidelines.

You can also open an issue or make a PR to add something we missed in this list.

TensorBoard visualization

The default logger is TensorBoard in all the recipes. From the recipe folder, you can run the following to visualize the logs of all your runs. You can also compare different systems on the same dataset by running a similar command from the dataset directiories.

# Launch tensorboard (default port is 6006)
tensorboard --logdir exp/ --port tf_port

If your launching tensorboard remotely, you should open an ssh tunnel

# Open port-forwarding connection. Add -Nf option not to open remote. 
ssh -L local_port:localhost:tf_port user@ip

Then open http://localhost:local_port/. If both ports are the same, you can click on the tensorboard URL given on the remote, it's just more practical.

Guiding principles

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  • Modularity. Building blocks are thought and designed to be seamlessly plugged together. Filterbanks, encoders, maskers, decoders and losses are all common building blocks that can be combined in a flexible way to create new systems.
  • Extensibility. Extending Asteroid with new features is simple. Add a new filterbank, separator architecture, dataset or even recipe very easily.
  • Reproducibility. Recipes provide an easy way to reproduce results with data preparation, system design, training and evaluation in a single script. This is an essential tool for the community !

Citing Asteroid

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If you loved using Asteroid and you want to cite us, use this :

@article{Pariente2020Asteroid,
    title={Asteroid: the {PyTorch}-based audio source separation toolkit for researchers},
    author={Manuel Pariente and Samuele Cornell and Joris Cosentino and Sunit Sivasankaran and 
            Efthymios Tzinis and Jens Heitkaemper and Michel Olvera and Fabian-Robert Stöter and 
            Mathieu Hu and Juan M. Martín-Doñas and David Ditter and Ariel Frank and Antoine Deleforge 
            and Emmanuel Vincent},
    year={2020},
    journal={arXiv preprint arXiv:2005.04132},
    primaryClass={eess.AS}
}

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