Paper Info
Title
Fullwave volumetric Maxwell solver using conduction modes
Abstract
We present a gridless method for solving the interior problem for a set of conductors in an homogeneous dielectric, at sufficiently high frequencies, valid for conductor lengths that are not small compared to the minimum wavelength, and transverse dimensions that are large compared to the skin depth. For IC applications, we cover the regime 10--100 GHz and the inclusion of all relevant wire dimensions. We decompose the Electromagnetic-field in terms of the eigenfunctions of the Helmholtz equation for three dimensional current distributions inside the conductors. Using a relatively small number of modes per conductor we obtain results comparable to filament or mesh decompositions using a much larger dimensionality for the resulting linear problem. The method is an extension to the fullwave regime of a method introduced in [1].
Year
DOI
Venue
2006
10.1145/1233501.1233505
ICCAD
Keywords
Field
DocType
conduction mode,dimensional current distribution,gridless method,fullwave regime,linear problem,helmholtz equation,conductor length,high frequency,small number,interior problem,fullwave volumetric maxwell solver,ic application,dielectric materials,maxwell equations,three dimensional,helmholtz equations,electromagnetic field,eigenfunction,signal processing
Eigenfunction,Computer science,Electrical conductor,Electronic engineering,Helmholtz equation,Solver,Thermal conduction,Electromagnetic field,Conductor,Maxwell's equations
Conference
ISBN
Citations 
PageRank 
1-59593-389-1
2
0.42
References 
Authors
6
2
Name
Order
Citations
PageRank
Salvador Ortiz131.15
Roberto Suaya2197.27