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Learning Variational Inequalities from Data: Fast Generalization Rates under Strong Monotonicity

Machine Learning 2025-02-20 v3 Optimization and Control Machine Learning

Abstract

Variational inequalities (VIs) are a broad class of optimization problems encompassing machine learning problems ranging from standard convex minimization to more complex scenarios like min-max optimization and computing the equilibria of multi-player games. In convex optimization, strong convexity allows for fast statistical learning rates requiring only Θ(1/ϵ)\Theta(1/\epsilon) stochastic first-order oracle calls to find an ϵ\epsilon-optimal solution, rather than the standard Θ(1/ϵ2)\Theta(1/\epsilon^2) calls. This note provides a simple overview of how one can similarly obtain fast Θ(1/ϵ)\Theta(1/\epsilon) rates for learning VIs that satisfy strong monotonicity, a generalization of strong convexity. Specifically, we demonstrate that standard stability-based generalization arguments for convex minimization extend directly to VIs when the domain admits a small covering, or when the operator is integrable and suboptimality is measured by potential functions; such as when finding equilibria in multi-player games.

Keywords

Cite

@article{arxiv.2410.20649,
  title  = {Learning Variational Inequalities from Data: Fast Generalization Rates under Strong Monotonicity},
  author = {Eric Zhao and Tatjana Chavdarova and Michael Jordan},
  journal= {arXiv preprint arXiv:2410.20649},
  year   = {2025}
}
R2 v1 2026-06-28T19:37:28.304Z