LZMidi: Compression-Based Symbolic Music Generation

March 22, 2025 · Declared Dead · 🏛 International Symposium on Information Theory

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Authors Connor Ding, Abhiram Gorle, Sagnik Bhattacharya, Divija Hasteer, Naomi Sagan, Tsachy Weissman arXiv ID 2503.17654 Category cs.SD: Sound Cross-listed cs.IT Citations 3 Venue International Symposium on Information Theory Last Checked 3 months ago

Abstract

Recent advances in symbolic music generation primarily rely on deep learning models such as Transformers, GANs, and diffusion models. While these approaches achieve high-quality results, they require substantial computational resources, limiting their scalability. We introduce LZMidi, a lightweight symbolic music generation framework based on a Lempel-Ziv (LZ78)-induced sequential probability assignment (SPA). By leveraging the discrete and sequential structure of MIDI data, our approach enables efficient music generation on standard CPUs with minimal training and inference costs. Theoretically, we establish universal convergence guarantees for our approach, underscoring its reliability and robustness. Compared to state-of-the-art diffusion models, LZMidi achieves competitive Frechet Audio Distance (FAD), Wasserstein Distance (WD), and Kullback-Leibler (KL) scores, while significantly reducing computational overhead - up to 30x faster training and 300x faster generation. Our results position LZMidi as a significant advancement in compression-based learning, highlighting how universal compression techniques can efficiently model and generate structured sequential data, such as symbolic music, with practical scalability and theoretical rigor.

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