MGProx: A Nonsmooth Multigrid Proximal Gradient Method with Adaptive Restriction for Strongly Convex Optimization

IF 2.6 1区数学 Q1 MATHEMATICS, APPLIED SIAM Journal on Optimization Pub Date : 2024-08-13 DOI:10.1137/23m1552140

Andersen Ang, Hans De Sterck, Stephen Vavasis

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Abstract

SIAM Journal on Optimization, Volume 34, Issue 3, Page 2788-2820, September 2024.
Abstract. We study the combination of proximal gradient descent with multigrid for solving a class of possibly nonsmooth strongly convex optimization problems. We propose a multigrid proximal gradient method called MGProx, which accelerates the proximal gradient method by multigrid, based on using hierarchical information of the optimization problem. MGProx applies a newly introduced adaptive restriction operator to simplify the Minkowski sum of subdifferentials of the nondifferentiable objective function across different levels. We provide a theoretical characterization of MGProx. First we show that the MGProx update operator exhibits a fixed-point property. Next, we show that the coarse correction is a descent direction for the fine variable of the original fine level problem in the general nonsmooth case. Last, under some assumptions we provide the convergence rate for the algorithm. In the numerical tests on the elastic obstacle problem, which is an example of a nonsmooth convex optimization problem where the multigrid method can be applied, we show that MGProx has a faster convergence speed than competing methods.

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MGProx：用于强凸优化的带有自适应限制的非光滑多网格近端梯度法

SIAM 优化期刊》，第 34 卷第 3 期，第 2788-2820 页，2024 年 9 月。摘要我们研究了近似梯度下降法与多网格法的结合，以求解一类可能是非光滑的强凸优化问题。我们提出了一种名为 MGProx 的多网格近似梯度法，它利用优化问题的层次信息，通过多网格加速近似梯度法。MGProx 应用了一种新引入的自适应限制算子，以简化不同层次的无差异目标函数的子差分的闵可夫斯基和。首先，我们证明了 MGProx 更新算子具有定点特性。接着，我们证明了在一般非光滑情况下，粗修正是原始精细问题中精细变量的下降方向。最后，在一些假设条件下，我们给出了算法的收敛速率。弹性障碍物问题是非光滑凸优化问题的一个例子，多网格方法可以应用于该问题，在对该问题的数值测试中，我们证明 MGProx 比其他竞争方法具有更快的收敛速度。

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来源期刊

SIAM Journal on Optimization 数学-应用数学

CiteScore

5.30

自引率

9.70%

发文量

101

审稿时长

6-12 weeks

期刊介绍： The SIAM Journal on Optimization contains research articles on the theory and practice of optimization. The areas addressed include linear and quadratic programming, convex programming, nonlinear programming, complementarity problems, stochastic optimization, combinatorial optimization, integer programming, and convex, nonsmooth and variational analysis. Contributions may emphasize optimization theory, algorithms, software, computational practice, applications, or the links between these subjects.