Distributed ℋ 2 -Matrices for Boundary Element Methods

Author:

Börm Steffen1ORCID

Affiliation:

1. Mathematisches Seminar, Christian-Albrechts-Universität zu Kiel

Abstract

Standard discretization techniques for boundary integral equations, e.g., the Galerkin boundary element method, lead to large densely populated matrices that require fast and efficient compression techniques like the fast multipole method or hierarchical matrices. If the underlying mesh is very large, running the corresponding algorithms on a distributed computer is attractive, e.g., since distributed computers frequently are cost-effective and offer a high accumulated memory bandwidth. Compared to the closely related particle methods, for which distributed algorithms are well-established, the Galerkin discretization poses a challenge, since the supports of the basis functions influence the block structure of the matrix and therefore the flow of data in the corresponding algorithms. This article introduces distributed ℋ 2 -matrices, a class of hierarchical matrices that is closely related to fast multipole methods and particularly well-suited for distributed computing. While earlier efforts required the global tree structure of the ℋ 2 -matrix to be stored in every node of the distributed system, the new approach needs only local multilevel information that can be obtained via a simple distributed algorithm, allowing us to scale to significantly larger systems. Experiments show that this approach can handle very large meshes with more than 130 million triangles efficiently.

Publisher

Association for Computing Machinery (ACM)

Subject

Applied Mathematics,Software

Reference46 articles.

1. An Implementation of the Fast Multipole Method without Multipoles

2. Approximation of boundary element matrices

3. M. Bebendorf. 2008. Hierarchical Matrices: A Means to Efficiently Solve Elliptic Boundary Value Problems. Springer.

4. Adaptive Low-Rank Approximation of Collocation Matrices

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