English

Parallel Controllability Methods For the Helmholtz Equation

Numerical Analysis 2020-03-18 v1

Abstract

The Helmholtz equation is notoriously difficult to solve with standard numerical methods, increasingly so, in fact, at higher frequencies. Controllability methods instead transform the problem back to the time-domain, where they seek the time-harmonic solution of the corresponding time-dependent wave equation. Two different approaches are considered here based either on the first or second-order formulation of the wave equation. Both are extended to general boundary-value problems governed by the Helmholtz equation and lead to robust and inherently parallel algorithms. Numerical results illustrate the accuracy, convergence and strong scalability of controllability methods for the solution of high frequency Helmholtz equations with up to a billion unknowns on massively parallel architectures.

Keywords

Cite

@article{arxiv.1903.12522,
  title  = {Parallel Controllability Methods For the Helmholtz Equation},
  author = {Marcus J. Grote and Frédéric Nataf and Jet Hoe Tang and Pierre-Henri Tournier},
  journal= {arXiv preprint arXiv:1903.12522},
  year   = {2020}
}
R2 v1 2026-06-23T08:23:15.799Z