An efficient preconditioner for monolithically-coupled large-displacement fluid-structure interaction problems with pseudo-solid mesh updates

Richard L. Muddle; Milan Mihajlović; Matthias Heil

doi:10.1016/j.jcp.2012.07.001

An efficient preconditioner for monolithically-coupled large-displacement fluid-structure interaction problems with pseudo-solid mesh updates

Richard L. Muddle, Milan Mihajlović, Matthias Heil

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

Abstract

We present a block preconditioner for the efficient solution of the linear systems that arise when employing Newton's method to solve monolithically-coupled large-displacement fluid-structure interaction problems in which the update of the moving fluid mesh is performed by the equations of large-displacement elasticity. Following a theoretical analysis of the preconditioner, we propose an efficient implementation that yields a solver with near-optimal computational cost, in the sense that the time for the solution of the linear systems scales approximately linearly with the number of unknowns. We evaluate the performance of the preconditioner in selected two- and three-dimensional test problems. © 2012 Elsevier Inc.

Original language	English
Pages (from-to)	7315-7334
Number of pages	19
Journal	Journal of Computational Physics
Volume	231
Issue number	21
DOIs	https://doi.org/10.1016/j.jcp.2012.07.001
Publication status	Published - 30 Aug 2012

Keywords

Algebraic multigrid
Fluid-structure interaction
Krylov methods
Monolithic discretisation
Multi-physics
Preconditioning
Pseudo-solid mesh updates

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10.1016/j.jcp.2012.07.001

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title = "An efficient preconditioner for monolithically-coupled large-displacement fluid-structure interaction problems with pseudo-solid mesh updates",

abstract = "We present a block preconditioner for the efficient solution of the linear systems that arise when employing Newton's method to solve monolithically-coupled large-displacement fluid-structure interaction problems in which the update of the moving fluid mesh is performed by the equations of large-displacement elasticity. Following a theoretical analysis of the preconditioner, we propose an efficient implementation that yields a solver with near-optimal computational cost, in the sense that the time for the solution of the linear systems scales approximately linearly with the number of unknowns. We evaluate the performance of the preconditioner in selected two- and three-dimensional test problems. {\textcopyright} 2012 Elsevier Inc.",

keywords = "Algebraic multigrid, Fluid-structure interaction, Krylov methods, Monolithic discretisation, Multi-physics, Preconditioning, Pseudo-solid mesh updates",

author = "Muddle, {Richard L.} and Milan Mihajlovi{\'c} and Matthias Heil",

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T1 - An efficient preconditioner for monolithically-coupled large-displacement fluid-structure interaction problems with pseudo-solid mesh updates

AU - Muddle, Richard L.

AU - Mihajlović, Milan

AU - Heil, Matthias

PY - 2012/8/30

Y1 - 2012/8/30

N2 - We present a block preconditioner for the efficient solution of the linear systems that arise when employing Newton's method to solve monolithically-coupled large-displacement fluid-structure interaction problems in which the update of the moving fluid mesh is performed by the equations of large-displacement elasticity. Following a theoretical analysis of the preconditioner, we propose an efficient implementation that yields a solver with near-optimal computational cost, in the sense that the time for the solution of the linear systems scales approximately linearly with the number of unknowns. We evaluate the performance of the preconditioner in selected two- and three-dimensional test problems. © 2012 Elsevier Inc.

AB - We present a block preconditioner for the efficient solution of the linear systems that arise when employing Newton's method to solve monolithically-coupled large-displacement fluid-structure interaction problems in which the update of the moving fluid mesh is performed by the equations of large-displacement elasticity. Following a theoretical analysis of the preconditioner, we propose an efficient implementation that yields a solver with near-optimal computational cost, in the sense that the time for the solution of the linear systems scales approximately linearly with the number of unknowns. We evaluate the performance of the preconditioner in selected two- and three-dimensional test problems. © 2012 Elsevier Inc.

KW - Algebraic multigrid

KW - Fluid-structure interaction

KW - Krylov methods

KW - Monolithic discretisation

KW - Multi-physics

KW - Preconditioning

KW - Pseudo-solid mesh updates

U2 - 10.1016/j.jcp.2012.07.001

DO - 10.1016/j.jcp.2012.07.001

M3 - Article

SN - 0021-9991

VL - 231

SP - 7315

EP - 7334

JO - Journal of Computational Physics

JF - Journal of Computational Physics

IS - 21

ER -

An efficient preconditioner for monolithically-coupled large-displacement fluid-structure interaction problems with pseudo-solid mesh updates

Abstract

Keywords

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