Last-Iterate Convergence of Randomized Kaczmarz and SGD with Greedy Step Size

April 10, 2026 ยท Grace Period ยท + Add venue

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Authors Michaล‚ Dereziล„ski, Xiaoyu Dong arXiv ID 2604.09909 Category cs.LG: Machine Learning Cross-listed math.NA, math.OC, stat.ML Citations 0
Abstract
We study last-iterate convergence of SGD with greedy step size over smooth quadratics in the interpolation regime, a setting which captures the classical Randomized Kaczmarz algorithm as well as other popular iterative linear system solvers. For these methods, we show that the $t$-th iterate attains an $O(1/t^{3/4})$ convergence rate, addressing a question posed by Attia, Schliserman, Sherman, and Koren, who gave an $O(1/t^{1/2})$ guarantee for this setting. In the proof, we introduce the family of stochastic contraction processes, whose behavior can be described by the evolution of a certain deterministic eigenvalue equation, which we analyze via a careful discrete-to-continuous reduction.
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