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Using high performance computing to analyse electrically large planar scattering structures via the method of moments technique - an initial comparison for suitable HPC platforms

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dc.contributor.author Marsh, Andy en
dc.contributor.author Kaklamani Dimitra, I en
dc.date.accessioned 2014-03-01T02:41:17Z
dc.date.available 2014-03-01T02:41:17Z
dc.date.issued 1996 en
dc.identifier.uri http://hdl.handle.net/123456789/30446
dc.subject High Performance Computer en
dc.subject Integral Equation en
dc.subject Parallel Computer en
dc.subject Method of Moment en
dc.subject.other Algorithms en
dc.subject.other Chebyshev approximation en
dc.subject.other Computational complexity en
dc.subject.other Electric conductivity en
dc.subject.other Electric fields en
dc.subject.other Electromagnetic wave scattering en
dc.subject.other Green's function en
dc.subject.other Hybrid computers en
dc.subject.other Integral equations en
dc.subject.other Electrically large planar scattering structures en
dc.subject.other Galerkin technique en
dc.subject.other High performance computing en
dc.subject.other Method of moments en
dc.subject.other Parallel processing systems en
dc.title Using high performance computing to analyse electrically large planar scattering structures via the method of moments technique - an initial comparison for suitable HPC platforms en
heal.type conferenceItem en
heal.identifier.primary 10.1109/MELCON.1996.550985 en
heal.identifier.secondary http://dx.doi.org/10.1109/MELCON.1996.550985 en
heal.publicationDate 1996 en
heal.abstract Analysis of electrically large planar conducting structures is examined, by employing parallel computations of an integral equation technique in conjunction with a Method of Moments (MoM). The integral equation, in terms of the induced conductivity currents, is solved using entire domain Galerkin technique, with Chebyshev type basis functions. The resulting algorithm parallelisation enables extension of the proposed methodology above the resonance region. Numerical results are computed for several scatterer sizes and excitations source types on varying HPC platforms namely: CRAY C-90, CRAY T3D, Silicon Graphics Power Challenge and Intel Paragon XP/S. An initial comparison is made between these diverse computing platforms for their applicability/suitability in solving fundamental electromagnetic problems in the domain of electrically large planar scattering structures. Their suitability is not only judged on performance obtained, but also on ease of code portation. en
heal.publisher IEEE, Piscataway, NJ, United States en
heal.journalName Proceedings of the Mediterranean Electrotechnical Conference - MELECON en
dc.identifier.doi 10.1109/MELCON.1996.550985 en
dc.identifier.volume 1 en
dc.identifier.spage 173 en
dc.identifier.epage 176 en


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