Nonlinear optimized Schwarz preconditioner for elliptic optimal control problems
Code:
51/2021
Title:
Nonlinear optimized Schwarz preconditioner for elliptic optimal control problems
Date:
Tuesday 3rd August 2021
Author(s):
Ciaramella, G.; Kwok, F.; Mueller, G.
Abstract:
We introduce a domain decomposition-based nonlinear preconditioned iteration for solving nonlinear, nonsmooth elliptic optimal control problems, with a nonlinear reaction term, $L^1$ regularization and box constraints on the control function. The method is obtained by applying semismooth Newton to the fixed-point equation of the parallel optimized Schwarz iteration. As a proof of concept, numerical experiments are performed on two subdomains, as well as on a multi-subdomain test case. The results show that it is possible to obtain substantial improvements in robustness and efficiency with the
new method, relative to semismooth Newton applied directly to the full optimization problem, provided appropriate Robin parameters and a good continuation strategy are chosen.
This report, or a modified version of it, has been also submitted to, or published on
Proceedings in Domain Decomposition Methods in Science and Engineering XXVI
Proceedings in Domain Decomposition Methods in Science and Engineering XXVI