Fast FDTD simulation using laguerre polynomials in MNA framework

K. Srinivasan; E. Engin; M. Swaminathan

doi:10.1109/ISEMC.2007.151

Fast FDTD simulation using laguerre polynomials in MNA framework

K. Srinivasan, E. Engin, M. Swaminathan

Electrical Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

5 Scopus citations

Abstract

In this paper, a fast transient simulation scheme using Laguerre polynomials, called Laguerre-MNA, has been developed for FDTD and circuit simulation. Companion models for the Yee cells and circuit components have been derived, permitting the use of MNA analysis to perform FDTD/transient circuit simulation using the Laguerre method. Companion models help simplify the matrix setup and reduce the matrix dimension that needs to be solved without employing long cumbersome equations. FDTD simulation using Laguerre polynomials is unconditionally stable and has shown to be much faster than conventional FDTD scheme. Prior work on transient electromagnetic simulation using Laguerre polynomials has a drawback of being able to simulate only for a certain time-duration. A memory/time efficient solution has been proposed by which simulation can be done for all time.

Original language	English (US)
Title of host publication	IEEE International Symposium on Electromagnetic Compatibility, EMC 2007
DOIs	https://doi.org/10.1109/ISEMC.2007.151
State	Published - 2007
Event	IEEE International Symposium on Electromagnetic Compatibility, EMC 2007 - Honolulu, HI, United States Duration: Jul 9 2007 → Jul 13 2007

Publication series

Name	IEEE International Symposium on Electromagnetic Compatibility
ISSN (Print)	1077-4076

Conference

Conference	IEEE International Symposium on Electromagnetic Compatibility, EMC 2007
Country/Territory	United States
City	Honolulu, HI
Period	7/9/07 → 7/13/07

All Science Journal Classification (ASJC) codes

Condensed Matter Physics
Electrical and Electronic Engineering

Access to Document

10.1109/ISEMC.2007.151

Cite this

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title = "Fast FDTD simulation using laguerre polynomials in MNA framework",

abstract = "In this paper, a fast transient simulation scheme using Laguerre polynomials, called Laguerre-MNA, has been developed for FDTD and circuit simulation. Companion models for the Yee cells and circuit components have been derived, permitting the use of MNA analysis to perform FDTD/transient circuit simulation using the Laguerre method. Companion models help simplify the matrix setup and reduce the matrix dimension that needs to be solved without employing long cumbersome equations. FDTD simulation using Laguerre polynomials is unconditionally stable and has shown to be much faster than conventional FDTD scheme. Prior work on transient electromagnetic simulation using Laguerre polynomials has a drawback of being able to simulate only for a certain time-duration. A memory/time efficient solution has been proposed by which simulation can be done for all time.",

author = "K. Srinivasan and E. Engin and M. Swaminathan",

year = "2007",

doi = "10.1109/ISEMC.2007.151",

language = "English (US)",

isbn = "1424413508",

series = "IEEE International Symposium on Electromagnetic Compatibility",

booktitle = "IEEE International Symposium on Electromagnetic Compatibility, EMC 2007",

note = "IEEE International Symposium on Electromagnetic Compatibility, EMC 2007 ; Conference date: 09-07-2007 Through 13-07-2007",

}

Srinivasan, K, Engin, E & Swaminathan, M 2007, Fast FDTD simulation using laguerre polynomials in MNA framework. in IEEE International Symposium on Electromagnetic Compatibility, EMC 2007., 4305731, IEEE International Symposium on Electromagnetic Compatibility, IEEE International Symposium on Electromagnetic Compatibility, EMC 2007, Honolulu, HI, United States, 7/9/07. https://doi.org/10.1109/ISEMC.2007.151

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T1 - Fast FDTD simulation using laguerre polynomials in MNA framework

AU - Srinivasan, K.

AU - Engin, E.

AU - Swaminathan, M.

PY - 2007

Y1 - 2007

N2 - In this paper, a fast transient simulation scheme using Laguerre polynomials, called Laguerre-MNA, has been developed for FDTD and circuit simulation. Companion models for the Yee cells and circuit components have been derived, permitting the use of MNA analysis to perform FDTD/transient circuit simulation using the Laguerre method. Companion models help simplify the matrix setup and reduce the matrix dimension that needs to be solved without employing long cumbersome equations. FDTD simulation using Laguerre polynomials is unconditionally stable and has shown to be much faster than conventional FDTD scheme. Prior work on transient electromagnetic simulation using Laguerre polynomials has a drawback of being able to simulate only for a certain time-duration. A memory/time efficient solution has been proposed by which simulation can be done for all time.

AB - In this paper, a fast transient simulation scheme using Laguerre polynomials, called Laguerre-MNA, has been developed for FDTD and circuit simulation. Companion models for the Yee cells and circuit components have been derived, permitting the use of MNA analysis to perform FDTD/transient circuit simulation using the Laguerre method. Companion models help simplify the matrix setup and reduce the matrix dimension that needs to be solved without employing long cumbersome equations. FDTD simulation using Laguerre polynomials is unconditionally stable and has shown to be much faster than conventional FDTD scheme. Prior work on transient electromagnetic simulation using Laguerre polynomials has a drawback of being able to simulate only for a certain time-duration. A memory/time efficient solution has been proposed by which simulation can be done for all time.

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M3 - Conference contribution

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SN - 1424413508

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T3 - IEEE International Symposium on Electromagnetic Compatibility

BT - IEEE International Symposium on Electromagnetic Compatibility, EMC 2007

T2 - IEEE International Symposium on Electromagnetic Compatibility, EMC 2007

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ER -

Fast FDTD simulation using laguerre polynomials in MNA framework

Abstract

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All Science Journal Classification (ASJC) codes

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