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Parallel finite-difference time-domain method.


Parallel finite-difference time-domain method.

Ed. by Wenhua Yu et al.

Artech House


262 pages



Artech House electromagnetic analysis series


The finite difference time domain (FDTD) method is a common method used in computational electromagnetics that, by its very nature, lends itself to efficient parallel processing. The authors (of the Department of Engineering, Pennsylvania State U.) describe the parallel implementation of the three-dimensional Cartesian FDTD method, first introducing such basic concepts as the boundary conditions, near-to-far-field transformation, and enhancements to the FDTD, and later discussing such topics as absorbing boundary condition, singular boundary condition, and simulation technique for the partially symmetric problem. Finally, they address the parallel implementation of the body of revolution/FDTD method.

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Publication:SciTech Book News
Article Type:Book Review
Date:Sep 1, 2006
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