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Discovering Interpretable Concepts in Large Generative Music Models

Main:8 Pages
12 Figures
Bibliography:3 Pages
Appendix:5 Pages
Abstract

The fidelity with which neural networks can now generate content such as music presents a scientific opportunity: these systems appear to have learned implicit theories of the structure of such content through statistical learning alone. This could offer a novel lens on theories of human-generated media. Where these representations align with traditional constructs (e.g. chord progressions in music), they demonstrate how these can be inferred from statistical regularities. Where they diverge, they highlight potential limits in our theoretical frameworks -- patterns that we may have overlooked but that nonetheless hold significant explanatory power. In this paper, we focus on the specific case of music generators. We introduce a method to discover musical concepts using sparse autoencoders (SAEs), extracting interpretable features from the residual stream activations of a transformer model. We evaluate this approach by extracting a large set of features and producing an automatic labeling and evaluation pipeline for them. Our results reveal both familiar musical concepts and counterintuitive patterns that lack clear counterparts in existing theories or natural language altogether. Beyond improving model transparency, our work provides a new empirical tool that might help discover organizing principles in ways that have eluded traditional methods of analysis and synthesis.

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@article{singh2025_2505.18186,
  title={ Discovering Interpretable Concepts in Large Generative Music Models },
  author={ Nikhil Singh and Manuel Cherep and Pattie Maes },
  journal={arXiv preprint arXiv:2505.18186},
  year={ 2025 }
}
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