Single-loop variance reduction methods in Bregman setups for finite-sum structured variational inequalities

Abstract

In this paper, we address variational inequalities (VI) with a finite sum structure by proposing a novel single-loop variance-reduced algorithm that incorporates the Bregman distance. Under the monotone setting, we establish the almost sure convergence of the proposed algorithm and prove that it achieves the optimal complexity of O(M ) for finding an -gap. Furthermore, under the non-monotone setting, we derive a complexity of O(12 ) of the algorithm. Our proposed method yields complexity results that either match or improve the state-of-the-art complexity bounds reported in existing literature. Notably, this work is the first to rigorously establish the linear convergence rate of the algorithm for solving finite-sum variational inequalities in Bregman setups. Finally, we report two numerical experiments to validate the effectiveness and practical performance of our method.

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