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arxiv: 2410.00573 · v2 · pith:WOR6SUF5 · submitted 2024-10-01 · math.OC

An Improved Analysis of the Clipped Stochastic subGradient Method under Heavy-Tailed Noise

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classification math.OC
keywords convergenceratesclippedexpectationheavy-tailedmethodnoiseobjective
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In this paper, we provide novel optimal (or near optimal) convergence rates for a clipped version of the stochastic subgradient method. We consider nonsmooth convex problems over possibly unbounded domains, under heavy-tailed noise that possesses only the first $p$ moments for $p \in \left]1,2\right]$. For the last iterate, we establish convergence in expectation for the objective values with rates of order $(\log^{1/p} k)/k^{(p-1)/p}$ and $1/k^{(p-1)/p}$, for anytime and finite-horizon respectively. We also derive new convergence rates, in expectation and with high probability, for the objective values along the average iterates--improving existing results by a $\log^{(2p-1)/p} k$ factor. Those results are applied to the problem of supervised learning with kernels demonstrating the effectiveness of our theory. Finally, we give preliminary experiments.

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Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. In-Expectation Convergence of Stochastic Gradient Methods under Heavy-Tailed Noise

    math.OC 2026-05 unverdicted novelty 6.0

    New in-expectation convergence guarantees for SMD, ASMD (convex) and SGD, SGDM (nonconvex) under heavy-tailed noise without bounded-domain restrictions or algorithmic modifications.