HS TasNet
Project description
HS-TasNet
Implementation of HS-TasNet, "Real-time Low-latency Music Source Separation using Hybrid Spectrogram-TasNet", proposed by the research team at L-Acoustics
Install
$ pip install HS-TasNet
Usage
import torch
from hs_tasnet import HSTasNet
model = HSTasNet()
audio = torch.randn(1, 2, 204800) # ~5 seconds of stereo
separated_audios, _ = model(audio)
assert separated_audios.shape == (1, 4, 2, 204800) # second dimension is the separated tracks
With the Trainer
# model
from hs_tasnet import HSTasNet, Trainer
model = HSTasNet()
# trainer
trainer = Trainer(
model,
dataset = None, # add your in-house Dataset
concat_musdb_dataset = True, # concat the musdb dataset automatically
batch_size = 2,
max_steps = 2,
cpu = True,
)
trainer()
# after much training
# inferencing
model.sounddevice_stream(
duration_seconds = 2,
return_reduced_sources = [0, 2]
)
# or from the exponentially smoothed model (in the trainer)
trainer.ema_model.sounddevice_stream(...)
# or you can load from a specific checkpoint
model.load('./checkpoints/path.to.desired.ckpt.pt')
model.sounddevice_stream(...)
# to load an HS-TasNet from any of the saved checkpoints, without having to save its hyperparameters, just run
model = HSTasNet.init_and_load_from('./checkpoints/path.to.desired.ckpt.pt')
Training script
First make sure dependencies are there by running
$ sh scripts/install.sh
Then make sure uv is installed
$ pip install uv
Finally run the following to train a newly initialized model on a small subset of MusDB, and make sure the loss goes down
$ uv run train.py
For distributed training, you just need to run accelerate config first, courtesy of accelerate from 🤗 but single machine is fine too
Experiment tracking
To enable online experiment monitoring / tracking, you need to have wandb installed and logged in
$ pip install wandb && wandb login
Then
$ uv run train.py --use-wandb
To wipe the previous checkpoints and evaluated results, append --clear-folders
Test
$ uv pip install '.[test]' --system
Then
$ pytest tests
Sponsors
This open sourced work is sponsored by Sweet Spot
Citations
@misc{venkatesh2024realtimelowlatencymusicsource,
title = {Real-time Low-latency Music Source Separation using Hybrid Spectrogram-TasNet},
author = {Satvik Venkatesh and Arthur Benilov and Philip Coleman and Frederic Roskam},
year = {2024},
eprint = {2402.17701},
archivePrefix = {arXiv},
primaryClass = {eess.AS},
url = {https://arxiv.org/abs/2402.17701},
}
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