English

Fully Parallel Mesh I/O using PETSc DMPlex with an Application to Waveform Modeling

Mathematical Software 2021-03-15 v2 Numerical Analysis Numerical Analysis

Abstract

Large-scale PDE simulations using high-order finite-element methods on unstructured meshes are an indispensable tool in science and engineering. The widely used open-source PETSc library offers an efficient representation of generic unstructured meshes within its DMPlex module. This paper details our recent implementation of parallel mesh reading and topological interpolation (computation of edges and faces from a cell-vertex mesh) into DMPlex. We apply these developments to seismic wave propagation scenarios on Mars as an example application. The principal motivation is to overcome single-node memory limits and reach mesh sizes which were impossible before. Moreover, we demonstrate that scalability of I/O and topological interpolation goes beyond 12'000 cores, and memory-imposed limits on mesh size vanish.

Keywords

Cite

@article{arxiv.2004.08729,
  title  = {Fully Parallel Mesh I/O using PETSc DMPlex with an Application to Waveform Modeling},
  author = {Vaclav Hapla and Matthew G. Knepley and Michael Afanasiev and Christian Boehm and Martin van Driel and Lion Krischer and Andreas Fichtner},
  journal= {arXiv preprint arXiv:2004.08729},
  year   = {2021}
}

Comments

23 pages, 11 figures

R2 v1 2026-06-23T14:56:33.141Z