A fast algorithm for particle simulations
Journal of Computational Physics
Efficient AC and noise analysis of two-tone RF circuits
DAC '96 Proceedings of the 33rd annual Design Automation Conference
Efficient full-wave electromagnetic analysis via model-order reduction of fast integral transforms
DAC '96 Proceedings of the 33rd annual Design Automation Conference
Iterative Methods for Sparse Linear Systems
Iterative Methods for Sparse Linear Systems
DAC '98 Proceedings of the 35th annual Design Automation Conference
Proceedings of the 2002 IEEE/ACM international conference on Computer-aided design
Interconnect Geometry Optimization Using Modular Artificial Neural Networks
Analog Integrated Circuits and Signal Processing
Analysis of full-wave conductor system impedance over substrate using novel integration techniques
Proceedings of the 42nd annual Design Automation Conference
A quasi-convex optimization approach to parameterized model order reduction
Proceedings of the 42nd annual Design Automation Conference
Segregation by primary phase factors: a full-wave algorithm for model order reduction
Proceedings of the 42nd annual Design Automation Conference
Stochastic dominant singular vectors method for variation-aware extraction
Proceedings of the 47th Design Automation Conference
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In this paper we describe a computationally efficient approach to generating reduced-order models from PEEC-based three-dimensional electromagnetic analysis programs. It is shown that a recycled multipole-accelerated approach applied to recent model order reduction techniques requires nearly two orders of magnitude fewer floating point operations than direct techniques thus allowing the analysis of larger, more complex three-dimensional geometries.