Segregation by primary phase factors: a full-wave algorithm for model order reduction
Klemas, T.
Daniel, L.
White, J.
Res. Lab. for Electron., Massachusetts Inst. of Technol., Cambridge, MA, USA;
This paper appears in: Design Automation Conference, 2005. Proceedings. 42nd
Publication Date: 13-17 June 2005
On page(s): 943- 946
ISBN: 1-59593-058-2
INSPEC Accession Number: 8565398
Current Version Published: 2005-09-26
Abstract
Existing full-wave model order reduction (FMOR) approaches are based on expanded Taylor series approximations (ETAS) of the oscillatory full-wave system matrix. The accuracy of such approaches hinges on the worst case interaction distances, producing accurate models over a very narrow band of frequencies. In this paper we present segregation by primary phase factors (SPPF), an algorithm for FMOR enabling wideband interconnect impedance analysis. SPPF extracts exponential terms (primary phase factors) and then approximates the smoother remainder with ETAS, thus resulting in good accuracies over a very wide band of frequencies. We also present a technique to improve conditioning for the required computation. Example results are given for simple interconnect structures modeled using a discretized mixed potential integral equation formulation.
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