Local Fourier analysis for multigrid with overlapping smoothers applied to systems of PDEs

Scott P. Maclachlan; C. W. Oosterlee

doi:10.1002/nla.762

Local Fourier analysis for multigrid with overlapping smoothers applied to systems of PDEs

Scott P. Maclachlan^*
, C. W. Oosterlee

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Since their popularization in the late 1970s and early 1980s, multigrid methods have been a central tool in the numerical solution of the linear and nonlinear systems that arise from the discretization of many PDEs. In this paper, we present a local Fourier analysis (LFA, or local mode analysis) framework for analyzing the complementarity between relaxation and coarse-grid correction within multigrid solvers for systems of PDEs. Important features of this analysis framework include the treatment of arbitrary finite-element approximation subspaces, leading to discretizations with staggered grids, and overlapping multiplicative Schwarz smoothers. The resulting tools are demonstrated for the Stokes, curl-curl, and grad-div equations.

Original language	English
Pages (from-to)	751-774
Number of pages	24
Journal	Numerical Linear Algebra with Applications
Volume	18
Issue number	4
DOIs	https://doi.org/10.1002/nla.762
Publication status	Published - Aug 2011
Externally published	Yes

Keywords

Finite-element discretizations
Local Fourier analysis
Multigrid

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10.1002/nla.762

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abstract = "Since their popularization in the late 1970s and early 1980s, multigrid methods have been a central tool in the numerical solution of the linear and nonlinear systems that arise from the discretization of many PDEs. In this paper, we present a local Fourier analysis (LFA, or local mode analysis) framework for analyzing the complementarity between relaxation and coarse-grid correction within multigrid solvers for systems of PDEs. Important features of this analysis framework include the treatment of arbitrary finite-element approximation subspaces, leading to discretizations with staggered grids, and overlapping multiplicative Schwarz smoothers. The resulting tools are demonstrated for the Stokes, curl-curl, and grad-div equations.",

keywords = "Finite-element discretizations, Local Fourier analysis, Multigrid",

author = "Maclachlan, \{Scott P.\} and Oosterlee, \{C. W.\}",

year = "2011",

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doi = "10.1002/nla.762",

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N2 - Since their popularization in the late 1970s and early 1980s, multigrid methods have been a central tool in the numerical solution of the linear and nonlinear systems that arise from the discretization of many PDEs. In this paper, we present a local Fourier analysis (LFA, or local mode analysis) framework for analyzing the complementarity between relaxation and coarse-grid correction within multigrid solvers for systems of PDEs. Important features of this analysis framework include the treatment of arbitrary finite-element approximation subspaces, leading to discretizations with staggered grids, and overlapping multiplicative Schwarz smoothers. The resulting tools are demonstrated for the Stokes, curl-curl, and grad-div equations.

AB - Since their popularization in the late 1970s and early 1980s, multigrid methods have been a central tool in the numerical solution of the linear and nonlinear systems that arise from the discretization of many PDEs. In this paper, we present a local Fourier analysis (LFA, or local mode analysis) framework for analyzing the complementarity between relaxation and coarse-grid correction within multigrid solvers for systems of PDEs. Important features of this analysis framework include the treatment of arbitrary finite-element approximation subspaces, leading to discretizations with staggered grids, and overlapping multiplicative Schwarz smoothers. The resulting tools are demonstrated for the Stokes, curl-curl, and grad-div equations.

KW - Finite-element discretizations

KW - Local Fourier analysis

KW - Multigrid

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JO - Numerical Linear Algebra with Applications

JF - Numerical Linear Algebra with Applications

IS - 4

ER -

Local Fourier analysis for multigrid with overlapping smoothers applied to systems of PDEs

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Keywords

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