A Unified Analysis of Saddle Flow Dynamics: Stability and Algorithm Design

arXiv - MATH - Optimization and Control Pub Date : 2024-09-09 DOI:arxiv-2409.05290

Pengcheng You, Yingzhu Liu, Enrique Mallada

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Abstract

This work examines the conditions for asymptotic and exponential convergence of saddle flow dynamics of convex-concave functions. First, we propose an observability-based certificate for asymptotic convergence, directly bridging the gap between the invariant set in a LaSalle argument and the equilibrium set of saddle flows. This certificate generalizes conventional conditions for convergence, e.g., strict convexity-concavity, and leads to a novel state-augmentation method that requires minimal assumptions for asymptotic convergence. We also show that global exponential stability follows from strong convexity-strong concavity, providing a lower-bound estimate of the convergence rate. This insight also explains the convergence of proximal saddle flows for strongly convex-concave objective functions. Our results generalize to dynamics with projections on the vector field and have applications in solving constrained convex optimization via primal-dual methods. Based on these insights, we study four algorithms built upon different Lagrangian function transformations. We validate our work by applying these methods to solve a network flow optimization and a Lasso regression problem.

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鞍流动力学统一分析：稳定性与算法设计

本研究探讨了凸凹函数鞍流动力学的渐近收敛和指数收敛条件。首先，我们提出了基于可观测性的渐近收敛证明，直接弥补了拉萨尔论证中不变集与鞍流均衡集之间的差距。该证书概括了传统的收敛条件，如严格凸凹性，并产生了一种新颖的状态增强方法，该方法只需最少的假设即可实现渐近收敛。我们还证明了强凸性-强凹性带来的全局指数稳定性，提供了收敛性的下限估计。这一见解也解释了强凸凹目标函数近似鞍流的收敛性。我们的结果可推广到向量场上有投影的动力学，并可应用于通过初等-二元方法求解有约束的凸优化。基于这些观点，我们研究了建立在不同拉格朗日函数变换基础上的四种算法。我们将这些方法应用于解决网络流优化和拉索回归问题，从而验证了我们的工作。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - MATH - Optimization and Control

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