Title :
Improved integral formulations for fast 3-D method-of-moments solvers
Author :
Tausch, Johannes ; Wang, Junfeng ; White, Jacob
Author_Institution :
Dept. of Math., Southern Methodist Univ., Dallas, TX, USA
fDate :
12/1/2001 12:00:00 AM
Abstract :
This paper introduces a new integral formulation to calculate charge densities of conductor systems that may include multiple dielectric materials. We show that the conditioning of our formulation is much better than that of the standard equivalent charge formulation. When combined with a nonstandard discretization scheme, results can be obtained with higher accuracy at reduced numerical cost. We present a multipole accelerated implementation of our formulation. The results demonstrate that the new approach can cut the iteration count by a factor between two and four. Moreover, we will demonstrate that in the presence of sparsification errors and multiple dielectric materials second-kind formulations are much more accurate than the standard first-kind formulations
Keywords :
conducting bodies; dielectric materials; electric charge; integral equations; method of moments; 3D method-of-moments solver; charge density; conductor system; iteration count; multiple dielectric materials; multipole acceleration; numerical discretization; second-kind integral equation; sparsification error; Acceleration; Associate members; Capacitance; Circuits; Conducting materials; Dielectric materials; Integral equations; Iterative algorithms; Moment methods; Very large scale integration;
Journal_Title :
Computer-Aided Design of Integrated Circuits and Systems, IEEE Transactions on
