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# AudioGen: Textually-guided audio generation | |
AudioCraft provides the code and a model re-implementing AudioGen, a [textually-guided audio generation][audiogen_arxiv] | |
model that performs text-to-sound generation. | |
The provided AudioGen reimplementation follows the LM model architecture introduced in [MusicGen][musicgen_arxiv] | |
and is a single stage auto-regressive Transformer model trained over a 16kHz | |
<a href="https://github.com/facebookresearch/encodec">EnCodec tokenizer</a> with 4 codebooks sampled at 50 Hz. | |
This model variant reaches similar audio quality than the original implementation introduced in the AudioGen publication | |
while providing faster generation speed given the smaller frame rate. | |
**Important note:** The provided models are NOT the original models used to report numbers in the | |
[AudioGen publication][audiogen_arxiv]. Refer to the model card to learn more about architectural changes. | |
Listen to samples from the **original AudioGen implementation** in our [sample page][audiogen_samples]. | |
## Model Card | |
See [the model card](../model_cards/AUDIOGEN_MODEL_CARD.md). | |
## Installation | |
Please follow the AudioCraft installation instructions from the [README](../README.md). | |
AudioCraft requires a GPU with at least 16 GB of memory for running inference with the medium-sized models (~1.5B parameters). | |
## API and usage | |
We provide a simple API and 1 pre-trained models for AudioGen: | |
`facebook/audiogen-medium`: 1.5B model, text to sound - [🤗 Hub](https://huggingface.co/facebook/audiogen-medium) | |
You can play with AudioGen by running the jupyter notebook at [`demos/audiogen_demo.ipynb`](../demos/audiogen_demo.ipynb) locally (if you have a GPU). | |
See after a quick example for using the API. | |
```python | |
import torchaudio | |
from audiocraft.models import AudioGen | |
from audiocraft.data.audio import audio_write | |
model = AudioGen.get_pretrained('facebook/audiogen-medium') | |
model.set_generation_params(duration=5) # generate 5 seconds. | |
descriptions = ['dog barking', 'sirene of an emergency vehicle', 'footsteps in a corridor'] | |
wav = model.generate(descriptions) # generates 3 samples. | |
for idx, one_wav in enumerate(wav): | |
# Will save under {idx}.wav, with loudness normalization at -14 db LUFS. | |
audio_write(f'{idx}', one_wav.cpu(), model.sample_rate, strategy="loudness", loudness_compressor=True) | |
``` | |
## Training | |
The [AudioGenSolver](../audiocraft/solvers/audiogen.py) implements the AudioGen's training pipeline | |
used to develop the released model. Note that this may not fully reproduce the results presented in the paper. | |
Similarly to MusicGen, it defines an autoregressive language modeling task over multiple streams of | |
discrete tokens extracted from a pre-trained EnCodec model (see [EnCodec documentation](./ENCODEC.md) | |
for more details on how to train such model) with dataset-specific changes for environmental sound | |
processing. | |
Note that **we do NOT provide any of the datasets** used for training AudioGen. | |
### Example configurations and grids | |
We provide configurations to reproduce the released models and our research. | |
AudioGen solvers configuration are available in [config/solver/audiogen](../config/solver/audiogen). | |
The base training configuration used for the released models is the following: | |
[`solver=audiogen/audiogen_base_16khz`](../config/solver/audiogen/audiogen_base_16khz.yaml) | |
Please find some example grids to train AudioGen at | |
[audiocraft/grids/audiogen](../audiocraft/grids/audiogen/). | |
```shell | |
# text-to-sound | |
dora grid audiogen.audiogen_base_16khz | |
``` | |
### Sound dataset and metadata | |
AudioGen's underlying dataset is an AudioDataset augmented with description metadata. | |
The AudioGen dataset implementation expects the metadata to be available as `.json` files | |
at the same location as the audio files or through specified external folder. | |
Learn more in the [datasets section](./DATASETS.md). | |
### Evaluation stage | |
By default, evaluation stage is also computing the cross-entropy and the perplexity over the | |
evaluation dataset. Indeed the objective metrics used for evaluation can be costly to run | |
or require some extra dependencies. Please refer to the [metrics documentation](./METRICS.md) | |
for more details on the requirements for each metric. | |
We provide an off-the-shelf configuration to enable running the objective metrics | |
for audio generation in | |
[config/solver/audiogen/evaluation/objective_eval](../config/solver/audiogen/evaluation/objective_eval.yaml). | |
One can then activate evaluation the following way: | |
```shell | |
# using the configuration | |
dora run solver=audiogen/debug solver/audiogen/evaluation=objective_eval | |
# specifying each of the fields, e.g. to activate KL computation | |
dora run solver=audiogen/debug evaluate.metrics.kld=true | |
``` | |
See [an example evaluation grid](../audiocraft/grids/audiogen/audiogen_pretrained_16khz_eval.py). | |
### Generation stage | |
The generation stage allows to generate samples conditionally and/or unconditionally and to perform | |
audio continuation (from a prompt). We currently support greedy sampling (argmax), sampling | |
from softmax with a given temperature, top-K and top-P (nucleus) sampling. The number of samples | |
generated and the batch size used are controlled by the `dataset.generate` configuration | |
while the other generation parameters are defined in `generate.lm`. | |
```shell | |
# control sampling parameters | |
dora run solver=audiogen/debug generate.lm.gen_duration=5 generate.lm.use_sampling=true generate.lm.top_k=15 | |
``` | |
## More information | |
Refer to [MusicGen's instructions](./MUSICGEN.md). | |
### Learn more | |
Learn more about AudioCraft training pipelines in the [dedicated section](./TRAINING.md). | |
## Citation | |
AudioGen | |
``` | |
@article{kreuk2022audiogen, | |
title={Audiogen: Textually guided audio generation}, | |
author={Kreuk, Felix and Synnaeve, Gabriel and Polyak, Adam and Singer, Uriel and D{\'e}fossez, Alexandre and Copet, Jade and Parikh, Devi and Taigman, Yaniv and Adi, Yossi}, | |
journal={arXiv preprint arXiv:2209.15352}, | |
year={2022} | |
} | |
``` | |
MusicGen | |
``` | |
@article{copet2023simple, | |
title={Simple and Controllable Music Generation}, | |
author={Jade Copet and Felix Kreuk and Itai Gat and Tal Remez and David Kant and Gabriel Synnaeve and Yossi Adi and Alexandre Défossez}, | |
year={2023}, | |
journal={arXiv preprint arXiv:2306.05284}, | |
} | |
``` | |
## License | |
See license information in the [model card](../model_cards/AUDIOGEN_MODEL_CARD.md). | |
[audiogen_arxiv]: https://arxiv.org/abs/2209.15352 | |
[musicgen_arxiv]: https://arxiv.org/abs/2306.05284 | |
[audiogen_samples]: https://felixkreuk.github.io/audiogen/ | |