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Parallel solution of integral equation-based EM problems in the frequency domain

A step-by-step guide to parallelizing cem codes. The future of computational electromagnetics is changing drastically as the new generation of computer chips evolves from single-core to multi-core. The burden now falls on software programmers to revamp existing codes and add new functionality to ena...

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Bibliographic Details
Main Authors: Zhang, Yu, 1978 April 20
Group Author: Sarkar, Tapan Tapan K
Published:
Literature type: Electronic eBook
Language: English
Series: Wiley series in microwave and optical engineering
Subjects:
Electromagnetism > Data processing
Electromagnetic fields > Mathematical models
Electromagnetic waves > Mathematical models
Parallel processing Electronic computers
Integral domains
Time-domain analysis
Electromagnetic fields
Electromagnetic waves
Electromagnetism
SCIENCE > Physics > Electricity
SCIENCE > Physics > Electromagnetism
Electronic books
Online Access: http://onlinelibrary.wiley.com/book/10.1002/9780470495094
Summary: A step-by-step guide to parallelizing cem codes. The future of computational electromagnetics is changing drastically as the new generation of computer chips evolves from single-core to multi-core. The burden now falls on software programmers to revamp existing codes and add new functionality to enable computational codes to run efficiently on this new generation of multi-core CPUs. In this book, you'll learn everything you need to know to deal with multi-core advances in chip design by employing highly efficient parallel electromagnetic code. Focusing only on the Method of Moments (MoM), th
Carrier Form: 1 online resource (xx, 341 pages) : illustrations.
Bibliography: Includes bibliographical references and index.
ISBN: 9780470495094 (electronic bk.)
047049509X (electronic bk.)
9780470495087 (electronic bk.)
0470495081 (electronic bk.)
Index Number: QC760
CLC: O441-37
Contents: In-core and out-of-core LU factorization for solving a matrix equation -- A parallel MoM code using RWG basis functions and ScaLAPACK-based in-core and out-of-core solvers -- A parallel MoM code using higher-order basis functions and ScaLAPACK-based in-core and out-of-core solvers -- Tuning the performance of a parallel integral equation solver -- Refinement of the solution using the iterative conjugate gradient method -- A parallel MoM code using higher-order basis functions and PLAPACK-based in-core and out-of-core solvers -- Applications of the parallel frequency-domain integral equation

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