• Stars
    star
    2,192
  • Rank 21,045 (Top 0.5 %)
  • Language
    Jupyter Notebook
  • License
    MIT License
  • Created almost 8 years ago
  • Updated almost 2 years ago

Reviews

There are no reviews yet. Be the first to send feedback to the community and the maintainers!

Repository Details

FMA: A Dataset For Music Analysis

FMA: A Dataset For Music Analysis

Michaël Defferrard, Kirell Benzi, Pierre Vandergheynst, Xavier Bresson.
International Society for Music Information Retrieval Conference (ISMIR), 2017.

We introduce the Free Music Archive (FMA), an open and easily accessible dataset suitable for evaluating several tasks in MIR, a field concerned with browsing, searching, and organizing large music collections. The community's growing interest in feature and end-to-end learning is however restrained by the limited availability of large audio datasets. The FMA aims to overcome this hurdle by providing 917 GiB and 343 days of Creative Commons-licensed audio from 106,574 tracks from 16,341 artists and 14,854 albums, arranged in a hierarchical taxonomy of 161 genres. It provides full-length and high-quality audio, pre-computed features, together with track- and user-level metadata, tags, and free-form text such as biographies. We here describe the dataset and how it was created, propose a train/validation/test split and three subsets, discuss some suitable MIR tasks, and evaluate some baselines for genre recognition. Code, data, and usage examples are available at https://github.com/mdeff/fma.

Data

All metadata and features for all tracks are distributed in fma_metadata.zip (342 MiB). The below tables can be used with pandas or any other data analysis tool. See the paper or the usage.ipynb notebook for a description.

  • tracks.csv: per track metadata such as ID, title, artist, genres, tags and play counts, for all 106,574 tracks.
  • genres.csv: all 163 genres with name and parent (used to infer the genre hierarchy and top-level genres).
  • features.csv: common features extracted with librosa.
  • echonest.csv: audio features provided by Echonest (now Spotify) for a subset of 13,129 tracks.

Then, you got various sizes of MP3-encoded audio data:

  1. fma_small.zip: 8,000 tracks of 30s, 8 balanced genres (GTZAN-like) (7.2 GiB)
  2. fma_medium.zip: 25,000 tracks of 30s, 16 unbalanced genres (22 GiB)
  3. fma_large.zip: 106,574 tracks of 30s, 161 unbalanced genres (93 GiB)
  4. fma_full.zip: 106,574 untrimmed tracks, 161 unbalanced genres (879 GiB)

See the wiki (or #41) for known issues (errata).

Code

The following notebooks, scripts, and modules have been developed for the dataset.

  1. usage.ipynb: shows how to load the datasets and develop, train, and test your own models with it.
  2. analysis.ipynb: exploration of the metadata, data, and features. Creates the figures used in the paper.
  3. baselines.ipynb: baseline models for genre recognition, both from audio and features.
  4. features.py: features extraction from the audio (used to create features.csv).
  5. webapi.ipynb: query the web API of the FMA. Can be used to update the dataset.
  6. creation.ipynb: creation of the dataset (used to create tracks.csv and genres.csv).
  7. creation.py: creation of the dataset (long-running data collection and processing).
  8. utils.py: helper functions and classes.

Usage

Binder   Click the binder badge to play with the code and data from your browser without installing anything.

  1. Clone the repository.

    git clone https://github.com/mdeff/fma.git
    cd fma
  2. Create a Python 3.6 environment.
    # with https://conda.io
    conda create -n fma python=3.6
    conda activate fma
    
    # with https://github.com/pyenv/pyenv
    pyenv install 3.6.0
    pyenv virtualenv 3.6.0 fma
    pyenv activate fma
    
    # with https://pipenv.pypa.io
    pipenv --python 3.6
    pipenv shell
    
    # with https://docs.python.org/3/tutorial/venv.html
    python3.6 -m venv ./env
    source ./env/bin/activate
  3. Install dependencies.

    pip install --upgrade pip setuptools wheel
    pip install numpy==1.12.1  # workaround resampy's bogus setup.py
    pip install -r requirements.txt

    Note: you may need to install ffmpeg or graphviz depending on your usage.
    Note: install CUDA to train neural networks on GPUs (see Tensorflow's instructions).

  4. Download some data, verify its integrity, and uncompress the archives.

    cd data
    
    curl -O https://os.unil.cloud.switch.ch/fma/fma_metadata.zip
    curl -O https://os.unil.cloud.switch.ch/fma/fma_small.zip
    curl -O https://os.unil.cloud.switch.ch/fma/fma_medium.zip
    curl -O https://os.unil.cloud.switch.ch/fma/fma_large.zip
    curl -O https://os.unil.cloud.switch.ch/fma/fma_full.zip
    
    echo "f0df49ffe5f2a6008d7dc83c6915b31835dfe733  fma_metadata.zip" | sha1sum -c -
    echo "ade154f733639d52e35e32f5593efe5be76c6d70  fma_small.zip"    | sha1sum -c -
    echo "c67b69ea232021025fca9231fc1c7c1a063ab50b  fma_medium.zip"   | sha1sum -c -
    echo "497109f4dd721066b5ce5e5f250ec604dc78939e  fma_large.zip"    | sha1sum -c -
    echo "0f0ace23fbe9ba30ecb7e95f763e435ea802b8ab  fma_full.zip"     | sha1sum -c -
    
    unzip fma_metadata.zip
    unzip fma_small.zip
    unzip fma_medium.zip
    unzip fma_large.zip
    unzip fma_full.zip
    
    cd ..

    Note: try 7zip if decompression errors. It might be an unsupported compression issue.

  5. Fill a .env configuration file (at repository's root) with the following content.

    AUDIO_DIR=./data/fma_small/  # the path to a decompressed fma_*.zip
    FMA_KEY=MYKEY  # only if you want to query the freemusicarchive.org API
    
  6. Open Jupyter or run a notebook.

    jupyter notebook
    make usage.ipynb

Impact, coverage, and resources

100+ research papers

Full list on Google Scholar. Some picks below.

2 derived works
~10 posts
5 events
~10 dataset lists

Contributing

Contribute by opening an issue or a pull request. Let this repository be a hub around the dataset!

History

2017-05-09 pre-publication release

  • paper: arXiv:1612.01840v2
  • code: git tag rc1
  • fma_metadata.zip sha1: f0df49ffe5f2a6008d7dc83c6915b31835dfe733
  • fma_small.zip sha1: ade154f733639d52e35e32f5593efe5be76c6d70
  • fma_medium.zip sha1: c67b69ea232021025fca9231fc1c7c1a063ab50b
  • fma_large.zip sha1: 497109f4dd721066b5ce5e5f250ec604dc78939e
  • fma_full.zip sha1: 0f0ace23fbe9ba30ecb7e95f763e435ea802b8ab
  • known issues: see #41

2016-12-06 beta release

  • paper: arXiv:1612.01840v1
  • code: git tag beta
  • fma_small.zip sha1: e731a5d56a5625f7b7f770923ee32922374e2cbf
  • fma_medium.zip sha1: fe23d6f2a400821ed1271ded6bcd530b7a8ea551

Acknowledgments and Licenses

We are grateful to the Swiss Data Science Center (EPFL and ETHZ) for hosting the dataset.

Please cite our work if you use our code or data.

@inproceedings{fma_dataset,
  title = {{FMA}: A Dataset for Music Analysis},
  author = {Defferrard, Micha\"el and Benzi, Kirell and Vandergheynst, Pierre and Bresson, Xavier},
  booktitle = {18th International Society for Music Information Retrieval Conference (ISMIR)},
  year = {2017},
  archiveprefix = {arXiv},
  eprint = {1612.01840},
  url = {https://arxiv.org/abs/1612.01840},
}
@inproceedings{fma_challenge,
  title = {Learning to Recognize Musical Genre from Audio},
  subtitle = {Challenge Overview},
  author = {Defferrard, Micha\"el and Mohanty, Sharada P. and Carroll, Sean F. and Salath\'e, Marcel},
  booktitle = {The 2018 Web Conference Companion},
  year = {2018},
  publisher = {ACM Press},
  isbn = {9781450356404},
  doi = {10.1145/3184558.3192310},
  archiveprefix = {arXiv},
  eprint = {1803.05337},
  url = {https://arxiv.org/abs/1803.05337},
}

More Repositories

1

cnn_graph

Convolutional Neural Networks on Graphs with Fast Localized Spectral Filtering
Jupyter Notebook
1,333
star
2

ntds_2016

Material for the EPFL master course "A Network Tour of Data Science", edition 2016.
Jupyter Notebook
97
star
3

pygsp_tutorial_graphsip

Graph signal processing tutorial, presented at the GraphSiP summer school.
Jupyter Notebook
71
star
4

ntds_2019

Material for the EPFL master course "A Network Tour of Data Science", edition 2019.
Jupyter Notebook
66
star
5

ntds_2017

Material for the EPFL master course "A Network Tour of Data Science", edition 2017.
Jupyter Notebook
66
star
6

ntds_2018

Material for the EPFL master course "A Network Tour of Data Science", edition 2018.
Jupyter Notebook
57
star
7

python_tour_of_data_science

A Python Tour of Data Science
Jupyter Notebook
28
star
8

dlaudio

Master thesis: Structured Auto-Encoder with application to Music Genre Recognition (code)
Jupyter Notebook
15
star
9

giin

Graph-based Image Inpainting
MATLAB
14
star
10

learning-from-graphs-webconf2021

Learning from Graphs: From Mathematical Principles to Practical Tools
Makefile
11
star
11

dotfiles

my dotfiles
Shell
9
star
12

atcsim

Air Traffic Control simulation, a C++11 learning experience
C++
8
star
13

terrain

OpenGL generated scene
C++
7
star
14

saga

Mini-batch and distributed SAGA
TeX
6
star
15

dlaudio_report

Master thesis: Structured Auto-Encoder with application to Music Genre Recognition (report)
TeX
6
star
16

paper-cnn-graph-recurrent-iclr2017

Structured Sequence Modeling with Graph Convolutional Recurrent Networks
TeX
6
star
17

paper-fma-challenge-webconf2018

Learning to Recognize Musical Genre from Audio, Challenge Overview
TeX
4
star
18

srfsp

Super-resolution for mass spectrometry
Python
3
star
19

paper-fma-ismir2017

FMA: A Dataset For Music Analysis
TeX
2
star
20

paper-cheblienet

ChebLieNet: Invariant spectral graph NNs turned equivariant by Riemannian geometry on Lie groups
TeX
2
star
21

dlaudio_results

Master thesis: Structured Auto-Encoder with application to Music Genre Recognition (results)
Jupyter Notebook
2
star
22

cv

Curriculum Vitae
TeX
1
star
23

gsp-summer-school-2016

Organization of a Graph Signal Processing Summer School
TeX
1
star
24

paper-cryoem-orientation-recovery

Learning to recover orientations from projections in single-particle cryo-EM
Jupyter Notebook
1
star
25

paper-cnn-graph-nips2016

Convolutional Neural Networks on Graphs with Fast Localized Spectral Filtering
HTML
1
star