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Finite-Time Last-Iterate Convergence for Multi-Agent Learning in Games
- Publication Year :
- 2020
-
Abstract
- In this paper, we consider multi-agent learning via online gradient descent in a class of games called $\lambda$-cocoercive games, a fairly broad class of games that admits many Nash equilibria and that properly includes unconstrained strongly monotone games. We characterize the finite-time last-iterate convergence rate for joint OGD learning on $\lambda$-cocoercive games; further, building on this result, we develop a fully adaptive OGD learning algorithm that does not require any knowledge of problem parameter (e.g. cocoercive constant $\lambda$) and show, via a novel double-stopping time technique, that this adaptive algorithm achieves same finite-time last-iterate convergence rate as non-adaptive counterpart. Subsequently, we extend OGD learning to the noisy gradient feedback case and establish last-iterate convergence results -- first qualitative almost sure convergence, then quantitative finite-time convergence rates -- all under non-decreasing step-sizes. To our knowledge, we provide the first set of results that fill in several gaps of the existing multi-agent online learning literature, where three aspects -- finite-time convergence rates, non-decreasing step-sizes, and fully adaptive algorithms have been unexplored before.<br />Comment: Accepted by ICML 2020; The first two authors contributed equally to this work
Details
- Database :
- arXiv
- Publication Type :
- Report
- Accession number :
- edsarx.2002.09806
- Document Type :
- Working Paper