Rethinking the Role of Tensor Decompositions in Post-Training LLM Compression

Artur Zagitov; Alexander Miasnikov; Maxim Krutikov; Vladimir Aletov; Gleb Molodtsov; Nail Bashirov; Artem Tsedenov; Aleksandr Beznosikov

Rethinking the Role of Tensor Decompositions in Post-Training LLM Compression

Artur Zagitov, Alexander Miasnikov, Maxim Krutikov, Vladimir Aletov, Gleb Molodtsov, Nail Bashirov, Artem Tsedenov, Aleksandr Beznosikov

Published: 12 Jun 2026, Last Modified: 12 Jun 2026KDD 2026 Workshop TensorKDD PosterEveryoneRevisionsBibTeXCC BY 4.0

Keywords: Tensor Decompositions, Large Language Models, LLM compression

Abstract: Post-training compression is essential for deploying large language models (LLMs) under tight resource constraints. Tensor decompositions have emerged as a promising direction, offering compact parameterizations well suited to Transformer weight structures. However, existing studies evaluate these methods in narrow settings, leaving unclear whether tensorization is effective at large-scale deployment. We systematically evaluate tensor compression across dense and MoE architectures, establishing performance trade-offs grounded in both empirical analysis and theoretical derivation. We identify a fundamental mismatch between the shared subspaces assumed by tensor decompositions and the heterogeneous representations learned by modern LLMs, thereby delineating their practical limits and clarifying their viable role in large-scale deployment.

Submission Number: 14

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