A high-frequency time domain finite element scattering code using a combination of edge and piecewise constant elements on unstructured tetrahedral meshes is described. A comparison of computation with theory is given for scattering from a sphere. A parallel implementation making use of the bulk synchronous parallel (BSP) programming model is described in detail; a BSP performance model of the parallelized field calculation is derived and compared to timing measurements on up to 128 processors on a Cray T3D
The development of a scalable parallel multilevel fast multipole algorithm (MLFMA) for three dimensi...
We report on practical experience using the Oxford BSP Library to parallelize a large electromagneti...
The upwind leapfrog scheme for electromagnetic scattering is briefly described. Its application to t...
The finite element method (FEM) with local absorbing boundary conditions has been recently applied t...
A finite element method is presented to compute time harmonic microwave fields in three dimensional...
Abstract- In this paper results obtained from the par-allelisation of existing 3D electromagnetic Fi...
In this paper results obtained from the parallelisation of existing 3D electromagnetic Finite Elemen...
The 3D Finite-Difference Time-Domain (FDTD) method simulates structures in the time-domain using a d...
The conventional wisdom in the scientific computing community is that the best way to solve large-sc...
The parallelization of existing/industrial electromagnetic software using the bulk synchronous paral...
At the Physics and Electronics Laboratory TNO much research is done in the field of computational el...
The focus of this thesis is on the development of parallel algorithms which exploit hypercube multip...
Numerical solution methods for electromagnetic scattering problems lead to large systems of equation...
The finite element method (FEM) with local absorbing boundary conditions has been recently applied t...
A higher order multilevel fast multipole algorithm (MLFMA) is presented for solving integral equatio...
The development of a scalable parallel multilevel fast multipole algorithm (MLFMA) for three dimensi...
We report on practical experience using the Oxford BSP Library to parallelize a large electromagneti...
The upwind leapfrog scheme for electromagnetic scattering is briefly described. Its application to t...
The finite element method (FEM) with local absorbing boundary conditions has been recently applied t...
A finite element method is presented to compute time harmonic microwave fields in three dimensional...
Abstract- In this paper results obtained from the par-allelisation of existing 3D electromagnetic Fi...
In this paper results obtained from the parallelisation of existing 3D electromagnetic Finite Elemen...
The 3D Finite-Difference Time-Domain (FDTD) method simulates structures in the time-domain using a d...
The conventional wisdom in the scientific computing community is that the best way to solve large-sc...
The parallelization of existing/industrial electromagnetic software using the bulk synchronous paral...
At the Physics and Electronics Laboratory TNO much research is done in the field of computational el...
The focus of this thesis is on the development of parallel algorithms which exploit hypercube multip...
Numerical solution methods for electromagnetic scattering problems lead to large systems of equation...
The finite element method (FEM) with local absorbing boundary conditions has been recently applied t...
A higher order multilevel fast multipole algorithm (MLFMA) is presented for solving integral equatio...
The development of a scalable parallel multilevel fast multipole algorithm (MLFMA) for three dimensi...
We report on practical experience using the Oxford BSP Library to parallelize a large electromagneti...
The upwind leapfrog scheme for electromagnetic scattering is briefly described. Its application to t...