Introduction To Multigrid Methods.

Wesseling, P.

Introduction To Multigrid Methods.

Active / Technical Report | Accession Number: ADA294291 |

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Abstract:

These notes were written for an introductory course on the application of multigrid methods to elliptic and hyperbolic partial differential equations for engineers, physicists and applied mathematicians. The use of more advanced mathematical tools, such as functional analysis, is avoided. The course is intended to be accessible to a wide audience of users of computational methods. We restrict ourselves to finite volume and finite difference discretization. The basic principles are given. Smoothing methods and Fourier smoothing analysis are reviewed. The fundamental multigrid algorithm is studied. The smoothing and coarse grid approximation properties are discussed. Multigrid schedules and structured programming of multigrid algorithms are treated. Robustness and efficiency are considered. AN

Author(s):

Wesseling, P.

Author Organization(s):

INSTITUTE FOR COMPUTER APPLICATIONS IN SCIENCE AND ENGINEERING HAMPTON VA

Descriptive Note:

Contract rept.,

Pagination:

0137

Security Markings

DOCUMENT & CONTEXTUAL SUMMARY

Distribution:

Approved For Public Release

RECORD

Collection: TR

Identifying Numbers

Report Number(s):

ICASE-95-11, NASA-CR-195045

Contract/Grant Number(s):

NAS1-19480

Monitor Series:

CR-195045, XD

Subject Terms

Joint Capability Areas:

JCA_5_Command and Control; JCA_5.3_Planning; JCA_1_Force Support; JCA_1.2_Force Preparation; JCA_1.2.2_Exercising; JCA_4.6_Engineering; JCA_4.6.1_General Engineering; JCA_1.2.7_Experimentation; JCA_1.3_Human Capital Management; JCA_1.3.2_Personnel Management; JCA_6_Net Centric; JCA_1.2.5_Lessons Learned; JCA_4.5.1_Contract Support Integration; JCA_4.5_Operational Contract Support; JCA_6.3.3_Spectrum Management; JCA_1.2.6_Concepts

Modernization Areas:

Quantum Science and Computing

Communities of Interest:

C4I

Descriptor(s):

*MATHEMATICAL MODELS, *GRIDS, *PARTIAL DIFFERENTIAL EQUATIONS, ALGORITHMS, TWO DIMENSIONAL, EIGENVALUES, MATHEMATICAL PROGRAMMING, FORTRAN, FINITE DIFFERENCE THEORY, SOLUTIONS(GENERAL), APPROXIMATION(MATHEMATICS), BOUNDARY VALUE PROBLEMS, FUNCTIONAL ANALYSIS, NUMERICAL METHODS AND PROCEDURES, APPLIED MATHEMATICS, INTEGRAL EQUATIONS, ITERATIONS, FOURIER ANALYSIS, HYPERBOLIC DIFFERENTIAL EQUATIONS, STRUCTURED PROGRAMMING

Field(s)/Group(s):

Numerical Mathematics, Operations Research

Keyword(s):

*MULTIGRID METHODS, SMOOTHING(MATHEMATICS)

Report Date:

1995 Feb 01