Parallel higher-order-compact time-domain solutions to Maxwell's equations

Paul Robert Hayes; Matthew O'Keefe; Anand Gopinath

Parallel higher-order-compact time-domain solutions to Maxwell's equations

Paul Robert Hayes, Matthew O'Keefe, Anand Gopinath

Electrical and Computer Engineering

Research output: Contribution to journal › Conference article › peer-review

Abstract

Time-domain local-operator methods are increasingly becoming valuable tools for simulating a wide range of systems over a wide range of frequencies. We present a higher-order-compact method addressing the cells-per-wavelength issue and a parallelism strategy addressing the wall-clock simulation time issue. These two research areas improve the viability of the these methods for use in an engineering design cycle allowing significantly larger problems to be run and allowing moderately large problems to be run significantly faster.

Original language	English (US)
Pages (from-to)	1285-1288
Number of pages	4
Journal	IEEE MTT-S International Microwave Symposium Digest
Volume	3
State	Published - Dec 1 1999
Event	Proceedings of the 1999 IEEE MTT-S International Microwave Symposium Digest 'The Magic Touch of Microwaves' - Anaheim, CA, USA Duration: Jun 13 1999 → Jun 19 1999

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abstract = "Time-domain local-operator methods are increasingly becoming valuable tools for simulating a wide range of systems over a wide range of frequencies. We present a higher-order-compact method addressing the cells-per-wavelength issue and a parallelism strategy addressing the wall-clock simulation time issue. These two research areas improve the viability of the these methods for use in an engineering design cycle allowing significantly larger problems to be run and allowing moderately large problems to be run significantly faster.",

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AU - Hayes, Paul Robert

AU - O'Keefe, Matthew

AU - Gopinath, Anand

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N2 - Time-domain local-operator methods are increasingly becoming valuable tools for simulating a wide range of systems over a wide range of frequencies. We present a higher-order-compact method addressing the cells-per-wavelength issue and a parallelism strategy addressing the wall-clock simulation time issue. These two research areas improve the viability of the these methods for use in an engineering design cycle allowing significantly larger problems to be run and allowing moderately large problems to be run significantly faster.

AB - Time-domain local-operator methods are increasingly becoming valuable tools for simulating a wide range of systems over a wide range of frequencies. We present a higher-order-compact method addressing the cells-per-wavelength issue and a parallelism strategy addressing the wall-clock simulation time issue. These two research areas improve the viability of the these methods for use in an engineering design cycle allowing significantly larger problems to be run and allowing moderately large problems to be run significantly faster.

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M3 - Conference article

AN - SCOPUS:0033360146

SN - 0149-645X

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JO - IEEE MTT-S International Microwave Symposium Digest

JF - IEEE MTT-S International Microwave Symposium Digest

T2 - Proceedings of the 1999 IEEE MTT-S International Microwave Symposium Digest 'The Magic Touch of Microwaves'

Y2 - 13 June 1999 through 19 June 1999

ER -

Parallel higher-order-compact time-domain solutions to Maxwell's equations

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