New algorithms are needed to solve electromagnetic problems using today\u27s widely available parallel processors. In this paper, we show that applying the optimized waveform relaxation approach to a partial element equivalent circuit will yield a powerful technique for solving electromagnetic problems with the potential for a large number of parallel processor nodes
Abstract: Electrical circuit simulation was one of the first CAD tools developed for IC design. The ...
Waveform Relaxation (WR) methods are iterative methods to solve time-dependent problems and large sy...
Excessive compute time is becoming a key problem for high performance system modeling as the complex...
The solution of large 3D electromagnetic models is important for the modeling of a multitude of EMC,...
peer reviewedThe convergence of classical and optimized waveform relaxation methods is compared for ...
The Partial Element Equivalent Circuit (PEEC) method is an integral equation based full-wave approac...
The research presented in this thesis discusses an electromagnetic (EM) analysis tool which is based...
The partial element equivalent circuit method is a numerical algorithm for simulating electromagne...
Parallel computation is an efficient method for speeding up electromagnetic (EM) optimization. This ...
Abstract. Waveform relaxation techniques have become increasingly important with the wide availabili...
This article presents a novel waveform relaxation scheme to solve electromagnetically large structur...
High-speed interconnects are increasingly becoming susceptible to electromagnetic interference (EMI)...
In this paper, the authors extend the results of their earlier paper on waveform relamtion (WR), whi...
Three research projects are presented in this manuscript. Projects one and two describe two waveform...
This paper reviews the recent advances in electromagnetic (EM) modeling and optimization approaches ...
Abstract: Electrical circuit simulation was one of the first CAD tools developed for IC design. The ...
Waveform Relaxation (WR) methods are iterative methods to solve time-dependent problems and large sy...
Excessive compute time is becoming a key problem for high performance system modeling as the complex...
The solution of large 3D electromagnetic models is important for the modeling of a multitude of EMC,...
peer reviewedThe convergence of classical and optimized waveform relaxation methods is compared for ...
The Partial Element Equivalent Circuit (PEEC) method is an integral equation based full-wave approac...
The research presented in this thesis discusses an electromagnetic (EM) analysis tool which is based...
The partial element equivalent circuit method is a numerical algorithm for simulating electromagne...
Parallel computation is an efficient method for speeding up electromagnetic (EM) optimization. This ...
Abstract. Waveform relaxation techniques have become increasingly important with the wide availabili...
This article presents a novel waveform relaxation scheme to solve electromagnetically large structur...
High-speed interconnects are increasingly becoming susceptible to electromagnetic interference (EMI)...
In this paper, the authors extend the results of their earlier paper on waveform relamtion (WR), whi...
Three research projects are presented in this manuscript. Projects one and two describe two waveform...
This paper reviews the recent advances in electromagnetic (EM) modeling and optimization approaches ...
Abstract: Electrical circuit simulation was one of the first CAD tools developed for IC design. The ...
Waveform Relaxation (WR) methods are iterative methods to solve time-dependent problems and large sy...
Excessive compute time is becoming a key problem for high performance system modeling as the complex...