Add to ORKGIn the field of electromagnetic modeling, whether it is the complex designs for engineered materials or devices and components integrated within their natural environments, there is a big drive for highly efficient numerical techniques to model the performance of complex structures. This often cannot be achieved by conventional computer systems, but rather through using the so-called high performance computing (HPC) systems that utilize hardware acceleration. We review recent General Purpose Graphics Processing Units (GPGPU) computing strategies introduced in four fields of computational electromagnetics: Finite-Difference Time-Domain (FDTD), Finite Elements Method (FEM), Method of Moments (MoM) and ElectroMagnetic Ray Tracing (EMRT)
Abstract—This research presents the implementation of the Finite-Difference Time-Domain (FDTD) metho...
When creating electronic devices, it is essential to model what happens when an electromagnetic fiel...
The present paper describes an optimized C++ library for the study of electromagnetics. The implemen...
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 ...
Modeling electromagnetic (EM) fields and their interaction with a complex environment is important f...
International audienceAmong the techniques widely used in CEM (Computational Electromagnetics), the ...
Abstract:- Our group has employed the use of modern graphics processor units (GPUs) for the accelera...
The recent advent of general-purpose graphics-processing units (GPGPUs) as inexpensive arithmetic-pr...
Abstract—In this paper, we provide a new architecture by using the programmable graphics processing ...
In this dissertation, the hardware and API architectures of GPUs are investigated, and the correspon...
The finite difference time domain (FDTD) method is a popular technique for computational electromagn...
The use of graphic processor units (GPUs) has been recently proposed in computational electromagneti...
In this thesis, fast algorithms for solving fields defined by the Helmholtz equation using integral ...
We describe a C++ library for electromagnetics based on the Finite-Difference Time-Domain method for...
Abstract—This research presents the implementation of the Finite-Difference Time-Domain (FDTD) metho...
When creating electronic devices, it is essential to model what happens when an electromagnetic fiel...
The present paper describes an optimized C++ library for the study of electromagnetics. The implemen...
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 ...
Modeling electromagnetic (EM) fields and their interaction with a complex environment is important f...
International audienceAmong the techniques widely used in CEM (Computational Electromagnetics), the ...
Abstract:- Our group has employed the use of modern graphics processor units (GPUs) for the accelera...
The recent advent of general-purpose graphics-processing units (GPGPUs) as inexpensive arithmetic-pr...
Abstract—In this paper, we provide a new architecture by using the programmable graphics processing ...
In this dissertation, the hardware and API architectures of GPUs are investigated, and the correspon...
The finite difference time domain (FDTD) method is a popular technique for computational electromagn...
The use of graphic processor units (GPUs) has been recently proposed in computational electromagneti...
In this thesis, fast algorithms for solving fields defined by the Helmholtz equation using integral ...
We describe a C++ library for electromagnetics based on the Finite-Difference Time-Domain method for...
Abstract—This research presents the implementation of the Finite-Difference Time-Domain (FDTD) metho...
When creating electronic devices, it is essential to model what happens when an electromagnetic fiel...
The present paper describes an optimized C++ library for the study of electromagnetics. The implemen...