A Primal-Dual Smoothing Framework for Max-Structured Non-Convex Optimization
Abstract
We propose a primal-dual smoothing framework for finding a near-stationary point of a class of non-smooth non-convex optimization problems with max-structure. We analyze the primal and dual gradient complexities of the framework via two approaches, i.e., the dual-then-primal and primal-the-dual smoothing approaches. Our framework improves the best-known oracle complexities of the existing method, even in the restricted problem setting. As an important part of our framework, we propose a first-order method for solving a class of (strongly) convex-concave saddle-point problems, which is based on a newly developed non-Hilbertian inexact accelerated proximal gradient algorithm for strongly convex composite minimization that enjoys duality-gap convergence guarantees. Some variants and extensions of our framework are also discussed.
Cite
@article{arxiv.2003.04375,
title = {A Primal-Dual Smoothing Framework for Max-Structured Non-Convex Optimization},
author = {Renbo Zhao},
journal= {arXiv preprint arXiv:2003.04375},
year = {2023}
}
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46 pages