Algebraic multigrid (AMG) method for electromagnetic finite edge element analyses and its performance on a PC workstation is described. Finite edge element formulation of electromagnetic field analyses leads to a large scale sparse system of linear equations and iterative solution methods play a crucial role in the solution phase. AMG method is used as a preconditioner for CG method. Static magnetic field analyses and transient analyses of eddy current problems are treated
Over the past ten years, the ability of computers has progressed rapidly, and techniques of numerica...
In this dissertation, the hardware and API architectures of GPUs are investigated, and the correspon...
Finite element method using edge element have been developed and utilized for practical eddy current...
In this paper, the efficiency of the multigrid method for electromagnetic field computations is pres...
In this paper the investigation of the efficiency of the multigrid method as a solution method for l...
In this paper the investigation of the efficiency multigrid method as a solution method for large sy...
At present, the finite element method has become one of the most efficient and widely used numerical...
Will be published in the proceedings of the multigrid conference, Bristol, UK, September 1983Copy he...
Finite element method is widely used to analyze, simulate, optimize and design electromagnetic devic...
Over the last thirty years, the finite element method has been established as a powerful and widely ...
In Finite Element Methods for solving electromagnetic field problems, the use of Edge Elements has b...
Abstract. With the rise in popularity of compatible nite element, nite dierence and nite volume dis...
Various types of numerical analysis methods for electromagnetic problems have been established and f...
Abstract — The finite element method (FEM) is applied on an arbitrarily shaped and perfectly conduct...
AbstractWe consider efficient and robust adaptive multigrid and domain decomposition methods for the...
Over the past ten years, the ability of computers has progressed rapidly, and techniques of numerica...
In this dissertation, the hardware and API architectures of GPUs are investigated, and the correspon...
Finite element method using edge element have been developed and utilized for practical eddy current...
In this paper, the efficiency of the multigrid method for electromagnetic field computations is pres...
In this paper the investigation of the efficiency of the multigrid method as a solution method for l...
In this paper the investigation of the efficiency multigrid method as a solution method for large sy...
At present, the finite element method has become one of the most efficient and widely used numerical...
Will be published in the proceedings of the multigrid conference, Bristol, UK, September 1983Copy he...
Finite element method is widely used to analyze, simulate, optimize and design electromagnetic devic...
Over the last thirty years, the finite element method has been established as a powerful and widely ...
In Finite Element Methods for solving electromagnetic field problems, the use of Edge Elements has b...
Abstract. With the rise in popularity of compatible nite element, nite dierence and nite volume dis...
Various types of numerical analysis methods for electromagnetic problems have been established and f...
Abstract — The finite element method (FEM) is applied on an arbitrarily shaped and perfectly conduct...
AbstractWe consider efficient and robust adaptive multigrid and domain decomposition methods for the...
Over the past ten years, the ability of computers has progressed rapidly, and techniques of numerica...
In this dissertation, the hardware and API architectures of GPUs are investigated, and the correspon...
Finite element method using edge element have been developed and utilized for practical eddy current...