Open AccessWeighted max norms, splittings, and overlapping additive Schwarz iterations
Author(s) -
Andreas Frommer,
Daniel B. Szyld
Publication year - 1999
Publication title -
numerische mathematik
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.214
H-Index - 90
eISSN - 0945-3245
pISSN - 0029-599X
DOI - 10.1007/s002110050449
Subject(s) - mathematics , additive schwarz method , schwarz alternating method , norm (philosophy) , algebraic number , matrix (chemical analysis) , matrix norm , positive definite matrix , coefficient matrix , convergence (economics) , pure mathematics , mathematical analysis , domain decomposition methods , finite element method , physics , thermodynamics , eigenvalues and eigenvectors , materials science , quantum mechanics , political science , law , economics , composite material , economic growth
Summary. Weighted max-norm bounds are obtained for Algebraic Additive Schwarz Iterations with overlapping blocks for the solution of Ax = b, when the coefficient matrix A is an M-matrix. The case of inexact local solvers is also covered. These bounds are analogous to those that exist using A-norms when the matrix A is symmetric positive definite. A new theorem concerning P-regular splittings is presented which provides a useful tool for the A-norm bounds. Furthermore, a theory of splittings is developed to represent Algebraic Additive Schwarz Iterations. This representation makes a connection with multisplitting methods. With this representation, and using a comparison theorem, it is shown that a coarse grid correction improves the convergence of Additive Schwarz Iterations when measured in weighted max norm.
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