Paper Info
Title
A generalized predictive analysis tool for multigrid methods
Abstract
Multigrid and related multilevel methods are the approaches of choice for solving linear systems that result from discretization of a wide class of PDEs. A large gap, however, exists between the theoretical analysis of these algorithms and their actual performance. This paper focuses on the extension of the well-known local mode (often local Fourier) analysis approach to a wider class of problems. The semi-algebraic mode analysis (SAMA) proposed here couples standard local Fourier analysis approaches with algebraic computation to enable analysis of a wider class of problems, including those with strong advective character. The predictive nature of SAMA is demonstrated by applying it to the parabolic diffusion equation in one and two space dimensions, elliptic diffusion in layered media, as well as a two-dimensional convection-diffusion problem. These examples show that accounting for boundary conditions and heterogeneity enables accurate predictions of the short-term and asymptotic convergence behavior for multigrid and related multilevel methods. Copyright (c) 2015 John Wiley & Sons, Ltd.
Year
DOI
Venue
2015
10.1002/nla.1977
NUMERICAL LINEAR ALGEBRA WITH APPLICATIONS
Keywords
Field
DocType
local Fourier analysis,multigrid methods,space-time discretizations
Convergence (routing),Discretization,Boundary value problem,Mathematical optimization,Linear system,Symbolic computation,Multigrid method,Diffusion equation,Mathematics,Parabola
Journal
Volume
Issue
ISSN
22.0
4.0
1070-5325
Citations 
PageRank 
References 
6
0.60
27
Authors
2
Name
Order
Citations
PageRank
S. Friedhoff1253.33
S. P. MacLachlan29811.78