An algebraic multiscale solver with local Robin boundary value problems for flows in high-contrast media

The algebraic and semi-algebraic formulations of a new multiscale elliptic solver based on a non-overlapping domain decomposition method are presented. By algebraic we mean that all information needed to implement the proposed procedure can be extracted from the underlying fine grid finite volume li...

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Published in	Journal of engineering mathematics Vol. 123; no. 1; pp. 109 - 128
Main Authors	Akbari, Hani, Pereira, Felipe
Format	Journal Article
Language	English
Published	Dordrecht Springer Netherlands 01.08.2020 Springer Nature B.V
Subjects	Algebra Applications of Mathematics Basis functions Boundary conditions Boundary value problems Coefficients Computational Mathematics and Numerical Analysis Contrast media Discontinuity Domain decomposition methods Mathematical analysis Mathematical and Computational Engineering Mathematical Modeling and Industrial Mathematics Mathematics Mathematics and Statistics Multiscale analysis Smoothing Theoretical and Applied Mechanics Robin condition Highly heterogeneous media Preconditioning Algebraic multiscale methods Defect correction scheme
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Abstract	The algebraic and semi-algebraic formulations of a new multiscale elliptic solver based on a non-overlapping domain decomposition method are presented. By algebraic we mean that all information needed to implement the proposed procedure can be extracted from the underlying fine grid finite volume linear system. In addition to the entries of this linear system, the proposed semi-algebraic procedure will also use the coefficients of the elliptic equation at subdomain boundaries. Initially we construct multiscale basis functions (or local solutions) subject to Robin boundary conditions. Although the implementation of Robin conditions in the formulation of the multiscale method uses the coefficients of the elliptic equation of interest, we modify it such that only entries of the finite volume linear system appear in the calculation of local solutions. A linear combination of local solutions gives a (discontinuous at subdomain boundaries) solution that is refined in a smoothing step. To this end we propose an algebraic scheme to remove discontinuities that needs a staggered (or dual) coarse grid. By iterating with the defect correction scheme, we construct an effective two-stage preconditioner that combines both local solutions and the smoothing step; the final result is obtained in a small number of iterations. Our focus in this work is the presentation of the algebraic and semi-algebraic formulations of the multiscale elliptic solver, which are carefully explained, and in verifying their accuracy and efficiency in the solution of challenging problems. We consider two- and three-dimensional problems with coefficients exhibiting high-contrast, anisotropic, and channelized structures that are solved to reveal the good properties of the proposed schemes.
AbstractList	The algebraic and semi-algebraic formulations of a new multiscale elliptic solver based on a non-overlapping domain decomposition method are presented. By algebraic we mean that all information needed to implement the proposed procedure can be extracted from the underlying fine grid finite volume linear system. In addition to the entries of this linear system, the proposed semi-algebraic procedure will also use the coefficients of the elliptic equation at subdomain boundaries. Initially we construct multiscale basis functions (or local solutions) subject to Robin boundary conditions. Although the implementation of Robin conditions in the formulation of the multiscale method uses the coefficients of the elliptic equation of interest, we modify it such that only entries of the finite volume linear system appear in the calculation of local solutions. A linear combination of local solutions gives a (discontinuous at subdomain boundaries) solution that is refined in a smoothing step. To this end we propose an algebraic scheme to remove discontinuities that needs a staggered (or dual) coarse grid. By iterating with the defect correction scheme, we construct an effective two-stage preconditioner that combines both local solutions and the smoothing step; the final result is obtained in a small number of iterations. Our focus in this work is the presentation of the algebraic and semi-algebraic formulations of the multiscale elliptic solver, which are carefully explained, and in verifying their accuracy and efficiency in the solution of challenging problems. We consider two- and three-dimensional problems with coefficients exhibiting high-contrast, anisotropic, and channelized structures that are solved to reveal the good properties of the proposed schemes.
Author	Pereira, Felipe Akbari, Hani
Author_xml	– sequence: 1 givenname: Hani orcidid: 0000-0002-6724-1509 surname: Akbari fullname: Akbari, Hani email: hani.akbari@shamimhpc.ir organization: Shamim Institute of HPC, Scientific Visualization and Machine Learning – sequence: 2 givenname: Felipe surname: Pereira fullname: Pereira, Felipe organization: Department of Mathematical Sciences, The University of Texas at Dallas
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Snippet	The algebraic and semi-algebraic formulations of a new multiscale elliptic solver based on a non-overlapping domain decomposition method are presented. By...
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SubjectTerms	Algebra Applications of Mathematics Basis functions Boundary conditions Boundary value problems Coefficients Computational Mathematics and Numerical Analysis Contrast media Discontinuity Domain decomposition methods Mathematical analysis Mathematical and Computational Engineering Mathematical Modeling and Industrial Mathematics Mathematics Mathematics and Statistics Multiscale analysis Smoothing Theoretical and Applied Mechanics
Title	An algebraic multiscale solver with local Robin boundary value problems for flows in high-contrast media
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