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Towards Understanding Generalization via Decomposing Excess Risk Dynamics

Machine Learning 2022-03-22 v3 Artificial Intelligence Machine Learning

Abstract

Generalization is one of the fundamental issues in machine learning. However, traditional techniques like uniform convergence may be unable to explain generalization under overparameterization. As alternative approaches, techniques based on stability analyze the training dynamics and derive algorithm-dependent generalization bounds. Unfortunately, the stability-based bounds are still far from explaining the surprising generalization in deep learning since neural networks usually suffer from unsatisfactory stability. This paper proposes a novel decomposition framework to improve the stability-based bounds via a more fine-grained analysis of the signal and noise, inspired by the observation that neural networks converge relatively slowly when fitting noise (which indicates better stability). Concretely, we decompose the excess risk dynamics and apply the stability-based bound only on the noise component. The decomposition framework performs well in both linear regimes (overparameterized linear regression) and non-linear regimes (diagonal matrix recovery). Experiments on neural networks verify the utility of the decomposition framework.

Keywords

Cite

@article{arxiv.2106.06153,
  title  = {Towards Understanding Generalization via Decomposing Excess Risk Dynamics},
  author = {Jiaye Teng and Jianhao Ma and Yang Yuan},
  journal= {arXiv preprint arXiv:2106.06153},
  year   = {2022}
}

Comments

Accepted by ICLR 2022

R2 v1 2026-06-24T03:05:07.228Z