English

A generalized alternating NGMRES method for PDE-constrained optimization problems governed by transport equations

Optimization and Control 2025-10-13 v1

Abstract

In this work, we propose a generalized alternating nonlinear generalized minimal residual method (GA-NGMRES) to accelerate first-order optimization schemes for PDE-constrained optimization problems governed by transport equations. We apply GA-NGMRES to a preconditioned first-order optimization scheme by interpreting the update rule as a fixed-point (FP) iteration. Our approach introduces a novel periodic mixing strategy that integrates NGMRES updates with FP steps. This new scheme improves efficiency in terms of both iteration count and runtime compared to the state-of-the-art. We include a comparison to first-order preconditioned gradient descent and preconditioned, inexact Gauss--Newton--Krylov methods. Since the proposed optimization scheme only relies on first-order derivative information, its implementation is straightforward. We evaluate performance as a function of hyperparameters, the mesh size, and the regularization parameter. We consider advection, incompressible flows, and mass-preserving transport (i.e., optimal transport-type problems) as PDE models. Stipulating adequate smoothness requirements based on variational regularization of the control variable ensures that the computed transport maps are diffeomorphic. Numerical experiments on real-world and synthetic problems highlight the robustness and effectiveness of the proposed method. Our approach yields runtimes that are up to 5x faster than state-of-the-art Newton--Krylov methods, without sacrificing accuracy. Additionally, our GA-NGMRES algorithm outperforms the well-known Anderson acceleration for the models and numerical approach considered in this work.

Keywords

Cite

@article{arxiv.2510.08782,
  title  = {A generalized alternating NGMRES method for PDE-constrained optimization problems governed by transport equations},
  author = {Yunhui He and Andreas Mang},
  journal= {arXiv preprint arXiv:2510.08782},
  year   = {2025}
}

Comments

35 pages, 10 figures

R2 v1 2026-07-01T06:28:08.875Z