This paper presents a large-scale parallel solver, specifically designed to tackle the challenges of solving high-dimensional and high-contrast linear systems in heat transfer topology optimization. The solver incorporates an interpolation technique to accelerate convergence in high-resolution domains, along with a multiscale multigrid preconditioner to handle complex coefficient fields with significant contrast. All modules of the optimization solver are implemented on a high performance computing cluster by the PETSc numerical library. Through a series of numerical investigations, we demonstrate the effectiveness of our approach in enhancing convergence and robustness during the optimization process, particularly in high-contrast scenarios with resolutions up to 10243. Our performance results indicate that the proposed preconditioner achieves over 2× speedup against the default algebraic multigrid in PETSc for high-contrast cases.
@article{arxiv.2410.06850,
title = {A robust solver for large-scale heat transfer topology optimization},
author = {Yingjie Zhou and Changqing Ye and Yucheng Liu and Shubin Fu and Eric T. Chung},
journal= {arXiv preprint arXiv:2410.06850},
year = {2025}
}