A block-acoustic preconditioner for the elastic Helmholtz equation
Autor: | Yovel, Rachel, Treister, Eran |
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Rok vydání: | 2024 |
Předmět: | |
Druh dokumentu: | Working Paper |
Popis: | We present a novel block-preconditioner for the elastic Helmholtz equation, based on a reduction to acoustic Helmholtz equations. Both versions of the Helmholtz equations are challenging numerically. The elastic Helmholtz equation is larger, as a system of PDEs, and harder to solve due to its more complicated physics. It was recently suggested that the elastic Helmholtz equation can be reformulated as a generalized saddle-point system, opening the door to the current development. Utilizing the approximate commutativity of the underlying differential operators, we suggest a block-triangular preconditioner whose diagonal blocks are acoustic Helmholtz operators. Thus, we enable the solution of the elastic version using virtually any existing solver for the acoustic version as a black-box. We prove a sufficient condition for the convergence of our method, that sheds light on the long questioned role of the commutator in the convergence of approximate commutator preconditioners. We show scalability of our preconditioner with respect to the Poisson ratio and with respect to the grid size. We compare our approach, combined with multigrid solve of each block, to a recent monolithic multigrid method for the elastic Helmholtz equation. The block-acoustic multigrid achieves a lower computational cost for various heterogeneous media, and a significantly lower memory consumption, compared to the monolithic approach. It results in a fast solution method for wave propagation problems in challenging heterogeneous media in 2D and 3D. Comment: 22 pages, 8 figures |
Databáze: | arXiv |
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