A distributed memory MultiLevel fast Physical Optics algorithm

Author

Parrot, Christian ; Millot, Daniel ; Letrou, Christine ; Boag, Amir

Author_Institution

Inst. TELECOM, SudParis, Evry

fYear

2009

fDate

23-27 March 2009

Firstpage

141

Lastpage

144

Abstract

The multilevel fast physical optics (MLPO) algorithm attains a computational complexity comparable to that of the fast Fourier transform (FFT) based techniques by using hierarchical domain decomposition and phase compensated interpolation approach. In this communication we present an optimized distributed memory algorithm, obtained by partitioning not only the radiating aperture but also the grid of far field directions. Such a scheme leads to improved speed and reduced memory requirements. The performance of the proposed approach is evaluated in terms of load balance and communication cost, and tested in the context of very large antenna problems.

Keywords

antenna radiation patterns; antenna theory; computational complexity; distributed memory systems; fast Fourier transforms; interpolation; message passing; physics computing; communication cost; computational complexity; distributed memory; fast Fourier transform; hierarchical domain decomposition; interpolation approach; load balance; multilevel fast physical optics algorithm; phase compensation; very large antenna; Apertures; Computational complexity; Context; Costs; Fast Fourier transforms; Interpolation; Loaded antennas; Partitioning algorithms; Physical optics; Testing;

fLanguage

English

Publisher

ieee

Conference_Titel

Antennas and Propagation, 2009. EuCAP 2009. 3rd European Conference on

Conference_Location

Berlin

Print_ISBN

978-1-4244-4753-4

Electronic_ISBN

978-3-00-024573-2

Type

conf

Filename

5067592