The MTG-Jamendo Dataset
We present the MTG-Jamendo Dataset, a new open dataset for music auto-tagging. It is built using music available at Jamendo under Creative Commons licenses and tags provided by content uploaders. The dataset contains over 55,000 full audio tracks with 195 tags from genre, instrument, and mood/theme categories. We provide elaborated data splits for researchers and report the performance of a simple baseline approach on five different sets of tags: genre, instrument, mood/theme, top-50, and overall.
This repository contains metadata, scripts, instructions on how to download and use the dataset and reproduce baseline results.
A subset of the dataset is used in the Emotion and Theme Recognition in Music Task within MediaEval 2019-2021 (you are welcome to participate).
Structure
Metadata files in data
Pre-processing
raw.tsv(56,639) - raw file without postprocessingraw_30s.tsv(55,701) - tracks with duration more than 30sraw_30s_cleantags.tsv(55,701) - with tags merged according totag_map.jsonraw_30s_cleantags_50artists.tsv(55,609) - with tags that have at least 50 unique artiststag_map.json- map of tags that we mergedtags_top50.txt- list of top 50 tagsautotagging.tsv=raw_30sec_cleantags_50artists.tsv- base file for autotagging (after all postprocessing, 195 tags)
Subsets
autotagging_top50tags.tsv(54,380) - only top 50 tags according to tag frequency in terms of tracksautotagging_genre.tsv(55,215) - only tracks with genre tags (95 tags), and only those tagsautotagging_instrument.tsv(25,135) - instrument tags (41 tags)autotagging_moodtheme.tsv(18,486) - mood/theme tags (59 tags)
Splits
splitsfolder contains training/validation/testing sets forautotagging.tsvand subsets
Note: A few tags are discarded in the splits to guarantee the same list of tags across all splits. For autotagging.tsv, this results in 55,525 tracks annotated by 87 genre tags, 40 instrument tags, and 56 mood/theme tags available in the splits.
Splits are generated from autotagging.tsv, containing all tags. For each split, the related subsets (top50, genre, instrument, mood/theme) are built filtering out unrelated tags and tracks without any tags.
Statistics in stats
Statistics of number of tracks, albums and artists per tag sorted by number of artists.
Each directory has statistics for metadata file with the same name.
Statistics for subsets based on categories are not kept seperated due to it already included in autotagging
Using the dataset
Requirements
- Python 3.6+
- Virtualenv:
pip install virtualenv - Create virtual environment and install requirements
python -m venv venv
source venv/bin/activate
pip install -r scripts/requirements.txtDownloading the data
All audio is distributed in 320kbps MP3 format. In addition we provide precomputed mel-spectrograms which are distributed as NumPy Arrays in NPY format. We also provide precomputed statistical features from Essentia (used in the AcousticBrainz music database) in JSON format. The audio files and the NPY/JSON files are split into folders packed into TAR archives. The dataset is hosted online at MTG UPF.
We provide the following data subsets:
raw_30s/audio- all available audio forraw_30s.tsv(508 GB)raw_30s/melspecs- mel-spectrograms forraw_30s.tsv(229 GB)autotagging-moodtheme/audio- audio for the mood/theme subsetautotagging_moodtheme.tsv(152 GB)autotagging-moodtheme/melspecs- mel-spectrograms for theautotagging_moodtheme.tsvsubset (68 GB)
For faster downloads, we host a copy of the dataset on Google Drive. We provide a script to download and validate all files in the dataset. See its help message for more information:
python scripts/download/download.py -husage: download.py [-h] [--dataset {raw_30s,autotagging_moodtheme}]
[--type {audio,melspecs,acousticbrainz}]
[--from {gdrive,mtg}] [--unpack] [--remove]
outputdir
Download the MTG-Jamendo dataset
positional arguments:
outputdir directory to store the dataset
optional arguments:
-h, --help show this help message and exit
--dataset {raw_30s,autotagging_moodtheme}
dataset to download (default: raw_30s)
--type {audio,melspecs,acousticbrainz}
type of data to download (audio, mel-spectrograms,
AcousticBrainz features) (default: audio)
--from {gdrive,mtg} download from Google Drive (fast everywhere) or MTG
(server in Spain, slow) (default: gdrive)
--unpack unpack tar archives (default: False)
--remove remove tar archives while unpacking one by one (use to
save disk space) (default: False)
For example, to download audio for the autotagging_moodtheme.tsv subset, unpack and validate all tar archives:
mkdir /path/to/download
python3 scripts/download/download.py --dataset autotagging_moodtheme --type audio /path/to/download --unpack --remove
Unpacking process is run after tar archive downloads are complete and validated. In the case of download errors, re-run the script to download missing files.
Due to the large size of the dataset, it can be useful to include the --remove flag to save disk space: in this case, tar archive are unpacked and immediately removed one by one.
Loading data in python
Assuming you are working in scripts folder
import commons
input_file = '../data/autotagging.tsv'
tracks, tags, extra = commons.read_file(input_file)tracks is a dictionary with track_id as key and track data as value:
{
1376256: {
'artist_id': 490499,
'album_id': 161779,
'path': '56/1376256.mp3',
'duration': 166.0,
'tags': [
'genre---easylistening',
'genre---downtempo',
'genre---chillout',
'mood/theme---commercial',
'mood/theme---corporate',
'instrument---piano'
],
'genre': {'chillout', 'downtempo', 'easylistening'},
'mood/theme': {'commercial', 'corporate'},
'instrument': {'piano'}
}
...
}tags contains mapping of tags to track_id:
{
'genre': {
'easylistening': {1376256, 1376257, ...},
'downtempo': {1376256, 1376257, ...},
...
},
'mood/theme': {...},
'instrument': {...}
}extra has information that is useful to format output file, so pass it to write_file if you are using it, otherwise you can just ignore it
Reproduce postprocessing & statistics
- Recompute statistics for
rawandraw_30s
python scripts/get_statistics.py data/raw.tsv stats/raw
python scripts/get_statistics.py data/raw_30s.tsv stats/raw_30s- Clean tags and recompute statistics (
raw_30s_cleantags)
python scripts/clean_tags.py data/raw_30s.tsv data/tag_map.json data/raw_30s_cleantags.tsv
python scripts/get_statistics.py data/raw_30s_cleantags.tsv stats/raw_30s_cleantags- Filter out tags with low number of unique artists and recompute statistics (
raw_30s_cleantags_50artists)
python scripts/filter_fewartists.py data/raw_30s_cleantags.tsv 50 data/raw_30s_cleantags_50artists.tsv --stats-directory stats/raw_30s_cleantags_50artists-
autotaggingfile indataand folder instatsis a symbolic link toraw_30s_cleantags_50artists -
Visualize top 20 tags per category
python scripts/visualize_tags.py stats/autotagging 20 # generates top20.pdf figureRecreate subsets
- Create subset with only top50 tags by number of tracks
python scripts/filter_toptags.py data/autotagging.tsv 50 data/autotagging_top50tags.tsv --stats-directory stats/autotagging_top50tags --tag-list data/tags/tags_top50.txt
python scripts/split_filter_subset.py data/splits autotagging autotagging_top50tags --subset-file data/tags/top50.txt- Create subset with only mood/theme tags (or other category: genre, instrument)
python scripts/filter_category.py data/autotagging.tsv mood/theme data/autotagging_moodtheme.tsv --tag-list data/tags/moodtheme.txt
python scripts/split_filter_subset.py data/splits autotagging autotagging_moodtheme --category mood/theme Reproduce experiments
- Preprocessing
python scripts/baseline/get_npy.py run 'your_path_to_spectrogram_npy'- Train
python scripts/baseline/main.py --mode 'TRAIN' - Test
python scripts/baseline/main.py --mode 'TEST' optional arguments:
--batch_size batch size (default: 32)
--mode {'TRAIN', 'TEST'} train or test (default: 'TRAIN')
--model_save_path path to save trained models (default: './models')
--audio_path path of the dataset (default='/home')
--split {0, 1, 2, 3, 4} split of data to use (default=0)
--subset {'all', 'genre', 'instrument', 'moodtheme', 'top50tags'}
subset to use (default='all')
Results
- ML4MD2019: 5 splits, 5 tag sets (3 categories, top50, all)
- Mediaeval2019: split-0, mood/theme category
Research challenges using the dataset
- MediaEval 2019 Emotion and Theme Recognition in Music
- MediaEval 2020 Emotion and Theme Recognition in Music
- MediaEval 2021 Emotion and Theme Recognition in Music
Citing the dataset
Please consider citing the following publication when using the dataset:
Bogdanov, D., Won M., Tovstogan P., Porter A., & Serra X. (2019). The MTG-Jamendo Dataset for Automatic Music Tagging. Machine Learning for Music Discovery Workshop, International Conference on Machine Learning (ICML 2019).
@conference {bogdanov2019mtg,
author = "Bogdanov, Dmitry and Won, Minz and Tovstogan, Philip and Porter, Alastair and Serra, Xavier",
title = "The MTG-Jamendo Dataset for Automatic Music Tagging",
booktitle = "Machine Learning for Music Discovery Workshop, International Conference on Machine Learning (ICML 2019)",
year = "2019",
address = "Long Beach, CA, United States",
url = "http://hdl.handle.net/10230/42015"
}
An expanded version of the paper describing the dataset and the baselines will be announced later.
License
- The code in this repository is licensed under Apache 2.0
- The metadata is licensed under a CC BY-NC-SA 4.0.
- The audio files are licensed under Creative Commons licenses, see individual licenses for details in
audio_licenses.txt.
Copyright 2019 Music Technology Group
Acknowledgments
This work was funded by the predoctoral grant MDM-2015-0502-17-2 from the Spanish Ministry of Economy and Competitiveness linked to the Maria de Maeztu Units of Excellence Programme (MDM-2015-0502).
This project has received funding from the European Union's Horizon 2020 research and innovation programme under the Marie Skłodowska-Curie grant agreement No. 765068.
This work has received funding from the European Union's Horizon 2020 research and innovation programme under grant agreement No 688382 "AudioCommons".
