A new randomized primal-dual algorithm for convex optimization with fast last iterate convergence rates

Optimization Methods and Software Pub Date : 2022-09-26 DOI:10.1080/10556788.2022.2119233

Quoc Tran-Dinh, Deyi Liu

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引用次数: 2

Abstract

We develop a novel unified randomized block-coordinate primal-dual algorithm to solve a class of nonsmooth constrained convex optimization problems, which covers different existing variants and model settings from the literature. We prove that our algorithm achieves and convergence rates in two cases: merely convexity and strong convexity, respectively, where k is the iteration counter and n is the number of block-coordinates. These rates are known to be optimal (up to a constant factor) when n = 1. Our convergence rates are obtained through three criteria: primal objective residual and primal feasibility violation, dual objective residual, and primal-dual expected gap. Moreover, our rates for the primal problem are on the last-iterate sequence. Our dual convergence guarantee requires additionally a Lipschitz continuity assumption. We specify our algorithm to handle two important special cases, where our rates are still applied. Finally, we verify our algorithm on two well-studied numerical examples and compare it with two existing methods. Our results show that the proposed method has encouraging performance on different experiments.

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一种新的具有快速迭代收敛速度的随机原对偶凸优化算法

针对一类非光滑约束凸优化问题，提出了一种新的统一的随机块坐标原始对偶算法，该算法涵盖了文献中不同的现有变量和模型设置。我们证明了我们的算法分别在两种情况下达到和收敛速度:单纯凸性和强凸性，其中k是迭代计数器，n是块坐标数。当n = 1时，这些速率已知是最优的(直到一个常数因子)。我们的收敛速度通过三个准则得到:原始目标残差和原始可行性违反，对偶目标残差和原始-对偶期望差。此外，我们的原始问题的速率是在最后迭代序列上。我们的对偶收敛保证还需要一个Lipschitz连续性假设。我们指定我们的算法来处理两种重要的特殊情况，其中我们的速率仍然适用。最后，通过两个研究充分的数值算例验证了算法的正确性，并与现有的两种方法进行了比较。实验结果表明，该方法在不同的实验中都取得了令人满意的效果。

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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Optimization Methods and Software

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