This paper discusses the computational challenges involved in the electromagnetic simulation of large scale thermonuclear fusion devices by means of Integral Equation methods. In particular, the drawback of the generation of large and dense matrices is addressed and a possible solution by means of data-sparse formats based on hierarchical matrices is presented. Moreover, the problem of handling multi-connected domains in relation of using such hierarchical matrices is also discussed. Finally, the practical problem of generating suitable electromagnetic CAD models and meshes is also discussed and a possible solution based on voxelization technique is presented
Despite vast advancements in computational hardware capabilities, full-wave electromagnetic simulati...
International audienceThis paper deals with the electromagnetic modelingof oversized and complex ele...
This paper reviews recent advances in large-scale computational electromagnetics using frequency dom...
This paper discusses the computational challenges involved in the electromagnetic simulation of larg...
A volume integral (VI) equation method based on the fast Fourier transform (FFT) is proposed for the...
International audienceThis paper deals with the electromagnetic modeling of large and complex electr...
" In the presentation foundations of electromagnetic simulations are recapitulated. Initially, the ...
We report on our work aiming at enabling large-scale simulations of frequency-domain electromagnetic...
Among existing computational electromagnetic methods, volume integral equation (VIE) based methods h...
This paper deals with an accelerated implementation of the assembly of the matrices accounting for t...
Numerical solution methods for electromagnetic scattering problems lead to large systems of equation...
The specification of the large magnets needed in future fusion reactors based on the tokamak concept...
International audienceThis paper deals with the electromagnetic mod-eling of large and complex elect...
The specification of the large magnets needed in future fusion reactors based on the tokamak concept...
This dissertation is a process of seeking solutions to two important and challenging problems relate...
Despite vast advancements in computational hardware capabilities, full-wave electromagnetic simulati...
International audienceThis paper deals with the electromagnetic modelingof oversized and complex ele...
This paper reviews recent advances in large-scale computational electromagnetics using frequency dom...
This paper discusses the computational challenges involved in the electromagnetic simulation of larg...
A volume integral (VI) equation method based on the fast Fourier transform (FFT) is proposed for the...
International audienceThis paper deals with the electromagnetic modeling of large and complex electr...
" In the presentation foundations of electromagnetic simulations are recapitulated. Initially, the ...
We report on our work aiming at enabling large-scale simulations of frequency-domain electromagnetic...
Among existing computational electromagnetic methods, volume integral equation (VIE) based methods h...
This paper deals with an accelerated implementation of the assembly of the matrices accounting for t...
Numerical solution methods for electromagnetic scattering problems lead to large systems of equation...
The specification of the large magnets needed in future fusion reactors based on the tokamak concept...
International audienceThis paper deals with the electromagnetic mod-eling of large and complex elect...
The specification of the large magnets needed in future fusion reactors based on the tokamak concept...
This dissertation is a process of seeking solutions to two important and challenging problems relate...
Despite vast advancements in computational hardware capabilities, full-wave electromagnetic simulati...
International audienceThis paper deals with the electromagnetic modelingof oversized and complex ele...
This paper reviews recent advances in large-scale computational electromagnetics using frequency dom...