1. A Neural Multigrid Solver for Helmholtz Equations with High Wavenumber and Heterogeneous Media
- Author
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Cui, Chen, Jiang, Kai, and Shu, Shi
- Subjects
Mathematics - Numerical Analysis ,65N22, 65N55, 68T07 - Abstract
Solving high-wavenumber and heterogeneous Helmholtz equations presents a long-standing challenge in scientific computing. In this paper, we introduce a deep learning-enhanced multigrid solver to address this issue. By conducting error analysis on standard multigrid applied to a discrete Helmholtz equation, we devise a strategy to handle errors with different frequencies separately. For error components with frequencies distant from the wavenumber, we perform simple smoothing based on local operations at different levels to eliminate them. On the other hand, to address error components with frequencies near the wavenumber, we utilize another multigrid V-cycle to solve an advection-diffusion-reaction (ADR) equation at a coarse scale. The resulting solver, named Wave-ADR-NS, involves parameters learned through unsupervised training. Numerical results demonstrate that Wave-ADR-NS effectively resolves heterogeneous 2D Helmholtz equation with wavenumber up to 2000. Comparative experiments against classical multigrid preconditioners and existing deep learning-based multigrid preconditioners reveals the superior performance of Wave-ADR-NS.
- Published
- 2024