Audio-focused loss functions in PyTorch
Project description
Setup
pip install git+https://github.com/csteinmetz1/auraloss
Usage
import torch
import auraloss
mrstft = auraloss.freq.MultiResolutionSTFTLoss()
input = torch.rand(8,1,44100)
target = torch.rand(8,1,44100)
loss = mrstft(input, target)
Loss functions
We categorize the loss functions as either time-domain or frequency-domain approaches. Additionally, we include perceptual transforms.
| Loss function | Interface | Reference |
|---|---|---|
| Time domain | ||
| Error-to-signal ratio (ESR) | auraloss.time.ESRLoss() |
Wright & Välimäki, 2019 |
| DC error (DC) | auraloss.time.DCLoss() |
Wright & Välimäki, 2019 |
| Log hyperbolic cosine (Log-cosh) | auraloss.time.LogCoshLoss() |
Chen et al., 2019 |
| Signal-to-noise ratio (SNR) | auraloss.time.SNRLoss() |
|
| Scale-invariant signal-to-distortion ratio (SI-SDR) |
auraloss.time.SISDRLoss() |
Le Roux et al., 2018 |
| Scale-dependent signal-to-distortion ratio (SD-SDR) |
auraloss.time.SDSDRLoss() |
Le Roux et al., 2018 |
| Frequency domain | ||
| Spectral convergence | auraloss.freq.SpectralConvergenceLoss() |
Arik et al., 2018 |
| Log STFT magnitude | auraloss.freq.LogSTFTMagnitudeLoss() |
Arik et al., 2018 |
| Aggregate STFT | auraloss.freq.STFTLoss() |
Arik et al., 2018 |
| Aggregate Mel-scaled STFT | auraloss.freq.MelSTFTLoss() |
|
| Multi-resolution STFT | auraloss.freq.MultiResolutionSTFTLoss() |
Yamamoto et al., 2019* |
| Random-resolution STFT | auraloss.freq.RandomResolutionSTFTLoss() |
Steinmetz & Reiss, 2020 |
| Sum and difference STFT loss | auraloss.freq.SumAndDifferenceSTFTLoss() |
Steinmetz et al., 2020 |
| Perceptual transforms | ||
| Sum and difference signal trasform | auraloss.perceptual.SumAndDifference() |
|
| FIR pre-emphasis filters | auraloss.perceptual.FIRFilter() |
Wright & Välimäki, 2019 |
* Wang et al., 2019 also propose a multi-resolution spectral loss (that Engel et al., 2020 follow), but they do not include both the log magnitude (L1 distance) and spectral convergence terms, introduced in Arik et al., 2018, and then extended for the multi-resolution case in Yamamoto et al., 2019.
Examples
Currently we include an example using a set of the loss functions to train a TCN for modeling an analog dynamic range compressor.
For details please refer to the details in examples/compressor.
We provide pre-trained models, evaluation scripts to compute the metrics in the paper, as well as scripts to retrain models.
Development
We currently have no tests, but those will also be coming soon, so use caution at the moment. Future loss functions to be included will target neural network based perceptual losses, which tend to be a bit more sophisticated than those we have included so far.
If you are interested in adding a loss function please make a pull request.
Cite
If you use this code in your work please consider citing us.
@inproceedings{steinmetz2020auraloss,
title={auraloss: {A}udio focused loss functions in {PyTorch}},
author={Steinmetz, Christian J. and Reiss, Joshua D.},
booktitle={Digital Music Research Network One-day Workshop (DMRN+15)},
year={2020}}
Download files
Download the file for your platform. If you're not sure which to choose, learn more about installing packages.
