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An Augmented Backward-Corrected Projector Splitting Integrator for Dynamical Low-Rank Training

Numerical Analysis 2025-02-06 v1 Machine Learning Numerical Analysis

Abstract

Layer factorization has emerged as a widely used technique for training memory-efficient neural networks. However, layer factorization methods face several challenges, particularly a lack of robustness during the training process. To overcome this limitation, dynamical low-rank training methods have been developed, utilizing robust time integration techniques for low-rank matrix differential equations. Although these approaches facilitate efficient training, they still depend on computationally intensive QR and singular value decompositions of matrices with small rank. In this work, we introduce a novel low-rank training method that reduces the number of required QR decompositions. Our approach integrates an augmentation step into a projector-splitting scheme, ensuring convergence to a locally optimal solution. We provide a rigorous theoretical analysis of the proposed method and demonstrate its effectiveness across multiple benchmarks.

Keywords

Cite

@article{arxiv.2502.03006,
  title  = {An Augmented Backward-Corrected Projector Splitting Integrator for Dynamical Low-Rank Training},
  author = {Jonas Kusch and Steffen Schotthöfer and Alexandra Walter},
  journal= {arXiv preprint arXiv:2502.03006},
  year   = {2025}
}
R2 v1 2026-06-28T21:33:11.721Z