BPX preconditioners for isogeometric analysis using (truncated) hierarchical B-splines

Cesare Bracco; Durkbin Cho; Carlotta Giannelli; Rafael Vázquez

doi:10.1016/j.cma.2021.113742

BPX preconditioners for isogeometric analysis using (truncated) hierarchical B-splines

Cesare Bracco, Durkbin Cho, Carlotta Giannelli, Rafael Vázquez

Department of Mathematics

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

3 Scopus citations

Abstract

We present the construction of additive multilevel preconditioners, also known as BPX preconditioners, for the solution of the linear system arising in isogeometric adaptive schemes with (truncated) hierarchical B-splines. We show that the locality of hierarchical spline functions, naturally defined on a multilevel structure, can be suitably exploited to design and analyze efficient multilevel decompositions. By obtaining smaller subspaces with respect to standard tensor-product B-splines, the computational effort on each level is reduced. We prove that, for suitably graded hierarchical meshes, the condition number of the preconditioned system is bounded independently of the number of levels. A selection of numerical examples validates the theoretical results and the performance of the preconditioner.

Original language	English
Article number	113742
Journal	Computer Methods in Applied Mechanics and Engineering
Volume	379
DOIs	https://doi.org/10.1016/j.cma.2021.113742
State	Published - 1 Jun 2021

Keywords

(Truncated) hierarchical B-splines
BPX preconditioners
Isogeometric analysis

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10.1016/j.cma.2021.113742

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title = "BPX preconditioners for isogeometric analysis using (truncated) hierarchical B-splines",

abstract = "We present the construction of additive multilevel preconditioners, also known as BPX preconditioners, for the solution of the linear system arising in isogeometric adaptive schemes with (truncated) hierarchical B-splines. We show that the locality of hierarchical spline functions, naturally defined on a multilevel structure, can be suitably exploited to design and analyze efficient multilevel decompositions. By obtaining smaller subspaces with respect to standard tensor-product B-splines, the computational effort on each level is reduced. We prove that, for suitably graded hierarchical meshes, the condition number of the preconditioned system is bounded independently of the number of levels. A selection of numerical examples validates the theoretical results and the performance of the preconditioner.",

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T1 - BPX preconditioners for isogeometric analysis using (truncated) hierarchical B-splines

AU - Bracco, Cesare

AU - Cho, Durkbin

AU - Giannelli, Carlotta

AU - Vázquez, Rafael

PY - 2021/6/1

Y1 - 2021/6/1

N2 - We present the construction of additive multilevel preconditioners, also known as BPX preconditioners, for the solution of the linear system arising in isogeometric adaptive schemes with (truncated) hierarchical B-splines. We show that the locality of hierarchical spline functions, naturally defined on a multilevel structure, can be suitably exploited to design and analyze efficient multilevel decompositions. By obtaining smaller subspaces with respect to standard tensor-product B-splines, the computational effort on each level is reduced. We prove that, for suitably graded hierarchical meshes, the condition number of the preconditioned system is bounded independently of the number of levels. A selection of numerical examples validates the theoretical results and the performance of the preconditioner.

AB - We present the construction of additive multilevel preconditioners, also known as BPX preconditioners, for the solution of the linear system arising in isogeometric adaptive schemes with (truncated) hierarchical B-splines. We show that the locality of hierarchical spline functions, naturally defined on a multilevel structure, can be suitably exploited to design and analyze efficient multilevel decompositions. By obtaining smaller subspaces with respect to standard tensor-product B-splines, the computational effort on each level is reduced. We prove that, for suitably graded hierarchical meshes, the condition number of the preconditioned system is bounded independently of the number of levels. A selection of numerical examples validates the theoretical results and the performance of the preconditioner.

KW - (Truncated) hierarchical B-splines

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KW - Isogeometric analysis

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BPX preconditioners for isogeometric analysis using (truncated) hierarchical B-splines

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