Finite element method (FEM) has been used for years for radiation problems in the field of electromagnetism. To tackle problems of this kind, mesh truncation techniques are required, which may lead to the use of high computational resources. In fact, electrically large radiation problems can only be tackled using massively parallel computational resources. Different types of multi-core machines are commonly employed in diverse fields of science for accelerating a number of applications. However, properly managing their computational resources becomes a very challenging task. On the one hand, we present a hybrid message passing interface + OpenMP-based acceleration of a mesh truncation technique included in a FEM code for electromag...
Multicore processors have become the dominant industry trend to increase computer systems performanc...
A hybrid finite element–boundary element method, developed to solve eddy-current problems in the fre...
In this article, we present the ExaScale PaRallel finite element tearing and interconnecting SOlver ...
Achieving maximum parallel performance on multi-core CPUs and many-core GPUs is a challenging task d...
The emergence of General Purpose Graphics Processing Units (GPGPUs) provides new opportunities to ac...
The emergence of General Purpose Graphics Processing Units (GPGPUs) provides new opportunities to ac...
Parallelization of time-consuming volume integrations in the matrix filling is performed using OpenM...
In the field of electromagnetic modeling, whether it is the complex designs for engineered materials...
The solution of large and complex electromagnetic (EM) problems often leads to a substantial demand ...
The first part of the paper presents the implementation and performance of a new absorbing boundary ...
Finite element analysis used for detailed electromagnetic analysis and design of electric machines i...
The work in this dissertation primarily focuses on the development of numerical algorithms for elect...
In this work we present a new alternate way to formulate the finite element method (FEM) for paralle...
The physical phenomena in the electrical engineering field are based on Maxwell's equations in which...
The research presented in this thesis investigates parallel implementations of the Fast Sweeping Met...
Multicore processors have become the dominant industry trend to increase computer systems performanc...
A hybrid finite element–boundary element method, developed to solve eddy-current problems in the fre...
In this article, we present the ExaScale PaRallel finite element tearing and interconnecting SOlver ...
Achieving maximum parallel performance on multi-core CPUs and many-core GPUs is a challenging task d...
The emergence of General Purpose Graphics Processing Units (GPGPUs) provides new opportunities to ac...
The emergence of General Purpose Graphics Processing Units (GPGPUs) provides new opportunities to ac...
Parallelization of time-consuming volume integrations in the matrix filling is performed using OpenM...
In the field of electromagnetic modeling, whether it is the complex designs for engineered materials...
The solution of large and complex electromagnetic (EM) problems often leads to a substantial demand ...
The first part of the paper presents the implementation and performance of a new absorbing boundary ...
Finite element analysis used for detailed electromagnetic analysis and design of electric machines i...
The work in this dissertation primarily focuses on the development of numerical algorithms for elect...
In this work we present a new alternate way to formulate the finite element method (FEM) for paralle...
The physical phenomena in the electrical engineering field are based on Maxwell's equations in which...
The research presented in this thesis investigates parallel implementations of the Fast Sweeping Met...
Multicore processors have become the dominant industry trend to increase computer systems performanc...
A hybrid finite element–boundary element method, developed to solve eddy-current problems in the fre...
In this article, we present the ExaScale PaRallel finite element tearing and interconnecting SOlver ...