Related papers: A stochastic smoothing framework for nonconvex-nonconcave min-sum-max problems with applications to Wasserstein distributionally robust optimization

A stochastic smoothing framework for nonconvex-nonconcave min-sum-max problems with applications to Wasserstein distributionally robust optimization

URL: http://arxiv.org/abs/2502.17602v1
Date: Mon, 24 Feb 2025 19:36:47 GMT
Title: A stochastic smoothing framework for nonconvex-nonconcave min-sum-max problems with applications to Wasserstein distributionally robust optimization
Authors: Wei Liu, Muhammad Khan, Gabriel Mancino-Ball, Yangyang Xu,
Abstract summary: This study introduces a novel training smoothing framework based on the mboxlog-sumexp function.<n>We develop an iterative smoothing algorithm that addresses computational difficulties and guarantees convergence to a Clarke/directional stationary point.<n>Our approach outperforms or is competitive with state-of-the-art methods in solving the news problem, deep learning regression and adversarially robust deep learning.
Score: 15.21599021645008
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Applications such as adversarially robust training and Wasserstein Distributionally Robust Optimization (WDRO) can be naturally formulated as min-sum-max optimization problems. While this formulation can be rewritten as an equivalent min-max problem, the summation of max terms introduces computational challenges, including increased complexity and memory demands, which must be addressed. These challenges are particularly evident in WDRO, where existing tractable algorithms often rely on restrictive assumptions on the objective function, limiting their applicability to state-of-the-art machine learning problems such as the training of deep neural networks. This study introduces a novel stochastic smoothing framework based on the \mbox{log-sum-exp} function, efficiently approximating the max operator in min-sum-max problems. By leveraging the Clarke regularity of the max operator, we develop an iterative smoothing algorithm that addresses these computational difficulties and guarantees almost surely convergence to a Clarke/directional stationary point. We further prove that the proposed algorithm finds an $\epsilon$-scaled Clarke stationary point of the original problem, with a worst-case iteration complexity of $\widetilde{O}(\epsilon^{-3})$. Our numerical experiments demonstrate that our approach outperforms or is competitive with state-of-the-art methods in solving the newsvendor problem, deep learning regression, and adversarially robust deep learning. The results highlight that our method yields more accurate and robust solutions in these challenging problem settings.

Related papers

Single-loop Algorithms for Stochastic Non-convex Optimization with Weakly-Convex Constraints [49.76332265680669]
This paper examines a crucial subset of problems where both the objective and constraint functions are weakly convex. Existing methods often face limitations, including slow convergence rates or reliance on double-loop designs. We introduce a novel single-loop penalty-based algorithm to overcome these challenges.
arXiv Detail & Related papers (2025-04-21T17:15:48Z)
Faster Stochastic Variance Reduction Methods for Compositional MiniMax Optimization [50.10952609321302]
compositional minimax optimization is a pivotal challenge across various machine learning domains. Current methods of compositional minimax optimization are plagued by sub-optimal complexities or heavy reliance on sizable batch sizes. This paper introduces a novel method, called Nested STOchastic Recursive Momentum (NSTORM), which can achieve the optimal sample complexity of $O(kappa3 /epsilon3 )$.
arXiv Detail & Related papers (2023-08-18T14:57:21Z)
Stochastic Inexact Augmented Lagrangian Method for Nonconvex Expectation Constrained Optimization [88.0031283949404]
Many real-world problems have complicated non functional constraints and use a large number of data points. Our proposed method outperforms an existing method with the previously best-known result.
arXiv Detail & Related papers (2022-12-19T14:48:54Z)
Optimal Algorithms for Stochastic Complementary Composite Minimization [55.26935605535377]
Inspired by regularization techniques in statistics and machine learning, we study complementary composite minimization. We provide novel excess risk bounds, both in expectation and with high probability. Our algorithms are nearly optimal, which we prove via novel lower complexity bounds for this class of problems.
arXiv Detail & Related papers (2022-11-03T12:40:24Z)
Multi-block Min-max Bilevel Optimization with Applications in Multi-task Deep AUC Maximization [36.743632418094]
We present a single-loop algorithm to tackle a multiblock min-max bilevel optimization problem. We show that our algorithm can be used to tackle problems with hundreds of tasks.
arXiv Detail & Related papers (2022-06-01T06:42:36Z)
Minimax Optimization with Smooth Algorithmic Adversaries [59.47122537182611]
We propose a new algorithm for the min-player against smooth algorithms deployed by an adversary. Our algorithm is guaranteed to make monotonic progress having no limit cycles, and to find an appropriate number of gradient ascents.
arXiv Detail & Related papers (2021-06-02T22:03:36Z)
Distributed Stochastic Consensus Optimization with Momentum for Nonconvex Nonsmooth Problems [45.88640334610308]
This paper presents a new distributed optimization algorithm for non-smooth problems. We show that the proposed algorithm can achieve an overcal communication. Experiments are presented to illustrate the effectiveness of the proposed algorithms.
arXiv Detail & Related papers (2020-11-10T13:12:21Z)
Efficient Methods for Structured Nonconvex-Nonconcave Min-Max Optimization [98.0595480384208]
We propose a generalization extraient spaces which converges to a stationary point. The algorithm applies not only to general $p$-normed spaces, but also to general $p$-dimensional vector spaces.
arXiv Detail & Related papers (2020-10-31T21:35:42Z)
A Feasible Level Proximal Point Method for Nonconvex Sparse Constrained Optimization [25.73397307080647]
We present a new model of a general convex or non objective machine machine objectives. We propose an algorithm that solves a constraint with gradually relaxed point levels of each subproblem. We demonstrate the effectiveness of our new numerical scale problems.
arXiv Detail & Related papers (2020-10-23T05:24:05Z)

This list is automatically generated from the titles and abstracts of the papers in this site.

This site does not guarantee the quality of this site (including all information) and is not responsible for any consequences.