English

MIDI-GPT: A Controllable Generative Model for Computer-Assisted Multitrack Music Composition

Sound 2025-02-05 v2 Machine Learning Multimedia Audio and Speech Processing

Abstract

We present and release MIDI-GPT, a generative system based on the Transformer architecture that is designed for computer-assisted music composition workflows. MIDI-GPT supports the infilling of musical material at the track and bar level, and can condition generation on attributes including: instrument type, musical style, note density, polyphony level, and note duration. In order to integrate these features, we employ an alternative representation for musical material, creating a time-ordered sequence of musical events for each track and concatenating several tracks into a single sequence, rather than using a single time-ordered sequence where the musical events corresponding to different tracks are interleaved. We also propose a variation of our representation allowing for expressiveness. We present experimental results that demonstrate that MIDI-GPT is able to consistently avoid duplicating the musical material it was trained on, generate music that is stylistically similar to the training dataset, and that attribute controls allow enforcing various constraints on the generated material. We also outline several real-world applications of MIDI-GPT, including collaborations with industry partners that explore the integration and evaluation of MIDI-GPT into commercial products, as well as several artistic works produced using it.

Keywords

Cite

@article{arxiv.2501.17011,
  title  = {MIDI-GPT: A Controllable Generative Model for Computer-Assisted Multitrack Music Composition},
  author = {Philippe Pasquier and Jeff Ens and Nathan Fradet and Paul Triana and Davide Rizzotti and Jean-Baptiste Rolland and Maryam Safi},
  journal= {arXiv preprint arXiv:2501.17011},
  year   = {2025}
}

Comments

AAAI 25

R2 v1 2026-06-28T21:22:11.451Z