A parallel computation approach based on the properties of the Graphics Processor Units (GPU) is here presented to speed-up the broadband modeling of passive 3D structures. The full-wave electromagnetic model is based on a surface integral formulation, numerically implemented by using a null-pinv decomposition of the unknowns. The numerical model has been proven to be accurate and well-posed for a frequency range from DC to hundreds of GHz. A bottleneck of the model is the assembly of fully populated matrices and the final matrix inversion. This paper presents A GPU parallelization of the matrix assembly phase, and analyzes two case-studies which refer to full-wave analysis of interconnects. The achieved speedup with respect to a convention...
International audienceElectromagnetic simulation continues to be the primary method by which enginee...
In this paper we present three-dimensional numerical simulations of electromagnetic waves....
International audienceElectromagnetic simulation continues to be the primary method by which enginee...
The paper deals with the problem of the efficient full-wave modeling of full 3D interconnects, in a ...
International audienceA parallel computing approach to run fast and full-wave electromagnetic simula...
In this dissertation, the hardware and API architectures of GPUs are investigated, and the correspon...
Modeling electromagnetic (EM) fields and their interaction with a complex environment is important f...
In the field of electromagnetic modeling, whether it is the complex designs for engineered materials...
In this thesis, fast algorithms for solving fields defined by the Helmholtz equation using integral ...
This paper deals with an accelerated implementation of the assembly of the matrices accounting for t...
In this paper, an efficient computational framework for the full-wave design by optimization of comp...
The 3D Finite-Difference Time-Domain (FDTD) method simulates structures in the time-domain using a d...
When creating electronic devices, it is essential to model what happens when an electromagnetic fiel...
This paper discusses the practical implementation on graphics processing unit (GPU) of a computer co...
International audienceElectromagnetic simulation continues to be the primary method by which enginee...
In this paper we present three-dimensional numerical simulations of electromagnetic waves....
International audienceElectromagnetic simulation continues to be the primary method by which enginee...
The paper deals with the problem of the efficient full-wave modeling of full 3D interconnects, in a ...
International audienceA parallel computing approach to run fast and full-wave electromagnetic simula...
In this dissertation, the hardware and API architectures of GPUs are investigated, and the correspon...
Modeling electromagnetic (EM) fields and their interaction with a complex environment is important f...
In the field of electromagnetic modeling, whether it is the complex designs for engineered materials...
In this thesis, fast algorithms for solving fields defined by the Helmholtz equation using integral ...
This paper deals with an accelerated implementation of the assembly of the matrices accounting for t...
In this paper, an efficient computational framework for the full-wave design by optimization of comp...
The 3D Finite-Difference Time-Domain (FDTD) method simulates structures in the time-domain using a d...
When creating electronic devices, it is essential to model what happens when an electromagnetic fiel...
This paper discusses the practical implementation on graphics processing unit (GPU) of a computer co...
International audienceElectromagnetic simulation continues to be the primary method by which enginee...
In this paper we present three-dimensional numerical simulations of electromagnetic waves....
International audienceElectromagnetic simulation continues to be the primary method by which enginee...