The solution of large 3D electromagnetic models is important for the modeling of a multitude of EMC, PI and SI problems. In this paper, we explore new algorithms for the parallel solution of large time domain 3D electromagnetic problems. Our approach is to use a volume Partial Element Equivalent Circuit (PEEC) electromagnetic formulation in combination with a Waveform Relaxation (WR) algorithm. In WR, we split the system into smaller subsystems and we break weak couplings so that the problem can be solved iteratively. WR has been used to solve a multitude of different problems. It is especially suited for parallel processing due to its favorable compute time to communication ratio. We consider a specific example for the application of WR to...
This thesis presents contributions within the field of numerical simulations of electromagnetic prop...
Electromagnetic solvers based on the partial element equivalent circuit (PEEC) approach have proven ...
This paper presents a fast algorithm for transient simulation of power grids in very large scale int...
The solution of large 3D electromagnetic models is important for the modeling of a multitude of EMC,...
Excessive compute time is becoming a key problem for high performance system modeling as the complex...
New algorithms are needed to solve electromagnetic problems using today\u27s widely available parall...
This paper presents a parallel implementation of a partial element equivalent circuit (PEEC) based e...
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 increase of operating frequencies requires-D electromagnetic (EM) methods, such as the partial e...
The Marching On-In-Time (MOT) unstructured Partial Element Equivalent Circuit (PEEC) method for time...
This paper presents recent advancements in creating high frequency model for air-core reactors using...
This thesis presents contributions within the field of numerical simulations of electromagnetic prop...
Electromagnetic solvers based on the partial element equivalent circuit (PEEC) approach have proven ...
This paper presents a fast algorithm for transient simulation of power grids in very large scale int...
The solution of large 3D electromagnetic models is important for the modeling of a multitude of EMC,...
Excessive compute time is becoming a key problem for high performance system modeling as the complex...
New algorithms are needed to solve electromagnetic problems using today\u27s widely available parall...
This paper presents a parallel implementation of a partial element equivalent circuit (PEEC) based e...
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 increase of operating frequencies requires-D electromagnetic (EM) methods, such as the partial e...
The Marching On-In-Time (MOT) unstructured Partial Element Equivalent Circuit (PEEC) method for time...
This paper presents recent advancements in creating high frequency model for air-core reactors using...
This thesis presents contributions within the field of numerical simulations of electromagnetic prop...
Electromagnetic solvers based on the partial element equivalent circuit (PEEC) approach have proven ...
This paper presents a fast algorithm for transient simulation of power grids in very large scale int...