Related papers: Convergence Rate of the Last Iterate of Stochastic Proximal Algorithms

Convergence Rate of the Last Iterate of Stochastic Proximal Algorithms

URL: http://arxiv.org/abs/2602.05489v1
Date: Thu, 05 Feb 2026 09:50:06 GMT
Title: Convergence Rate of the Last Iterate of Stochastic Proximal Algorithms
Authors: Kevin Kurian Thomas Vaidyan, Michael P. Friedlander, Ahmet Alacaoglu,
Abstract summary: We analyze two classical algorithms for solving additively composite convex optimization problems.<n>We focus on the bounded variance assumption that is common, yet stringent, for getting last iterate convergence rates.<n>Our results apply directly to graph-guided regularizers that arise in multi-task and federated learning, where the regularizer decomposes as a sum over edges of a collaboration graph.
Score: 8.636513507553504
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: We analyze two classical algorithms for solving additively composite convex optimization problems where the objective is the sum of a smooth term and a nonsmooth regularizer: proximal stochastic gradient method for a single regularizer; and the randomized incremental proximal method, which uses the proximal operator of a randomly selected function when the regularizer is given as the sum of many nonsmooth functions. We focus on relaxing the bounded variance assumption that is common, yet stringent, for getting last iterate convergence rates. We prove the $\widetilde{O}(1/\sqrt{T})$ rate of convergence for the last iterate of both algorithms under componentwise convexity and smoothness, which is optimal up to log terms. Our results apply directly to graph-guided regularizers that arise in multi-task and federated learning, where the regularizer decomposes as a sum over edges of a collaboration graph.

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