English

Nesterov Meets Optimism: Rate-Optimal Separable Minimax Optimization

Optimization and Control 2023-08-16 v2 Computer Science and Game Theory Machine Learning Machine Learning

Abstract

We propose a new first-order optimization algorithm -- AcceleratedGradient-OptimisticGradient (AG-OG) Descent Ascent -- for separable convex-concave minimax optimization. The main idea of our algorithm is to carefully leverage the structure of the minimax problem, performing Nesterov acceleration on the individual component and optimistic gradient on the coupling component. Equipped with proper restarting, we show that AG-OG achieves the optimal convergence rate (up to a constant) for a variety of settings, including bilinearly coupled strongly convex-strongly concave minimax optimization (bi-SC-SC), bilinearly coupled convex-strongly concave minimax optimization (bi-C-SC), and bilinear games. We also extend our algorithm to the stochastic setting and achieve the optimal convergence rate in both bi-SC-SC and bi-C-SC settings. AG-OG is the first single-call algorithm with optimal convergence rates in both deterministic and stochastic settings for bilinearly coupled minimax optimization problems.

Keywords

Cite

@article{arxiv.2210.17550,
  title  = {Nesterov Meets Optimism: Rate-Optimal Separable Minimax Optimization},
  author = {Chris Junchi Li and Angela Yuan and Gauthier Gidel and Quanquan Gu and Michael I. Jordan},
  journal= {arXiv preprint arXiv:2210.17550},
  year   = {2023}
}

Comments

44 pages. This version matches the camera-ready that appeared at ICML 2023 under the same title

R2 v1 2026-06-28T04:52:34.324Z