A hybrid Finite Element – Boundary Element method is used to solve frequency-domain eddy current problems in voxel based human models. A specific procedure employs a massively parallelized algorithm implemented on a multiple GPU code to speed up the solution of large systems whose matrix exceeds the RAM capability. An application is finally presented
Integral formulations, suitable for the numerical solution of quasi-magnetostatic (eddy currents) pr...
The use of biomechanical modelling, especially in conjunction with finite element analysis, has beco...
Solving the electric activity of the heart possess a big challenge, not only because of the structur...
A hybrid finite element–boundary element method, developed to solve eddy-current problems in the fre...
Magnetic Induction Tomography (MIT) is a non‐invasive imaging technique, which has applications in b...
Boundary element and hybrid boundary element—finite element approaches are applied to the computatio...
Finite element analysis used for detailed electromagnetic analysis and design of electric machines i...
A finite element code is developed in which all computational expensive steps are performed on a gra...
Eddy currents are one of the main causes of deleterious cross-talk within hybrid MRI scanners such a...
Finite element (FE) simulations are increasingly valuable in assessing and improving the performance...
This paper deals with an accelerated implementation of the assembly of the matrices accounting for t...
In this dissertation, the hardware and API architectures of GPUs are investigated, and the correspon...
We present a novel a, v -q hybrid method for solving large-scale time-harmonic eddy-current problems...
In this paper, a GPU-accelerated implementation of a three-dimensional full-wave electromagnetic sol...
We present an implementation of a nonlinear explicit, displacement-based finite element code and its...
Integral formulations, suitable for the numerical solution of quasi-magnetostatic (eddy currents) pr...
The use of biomechanical modelling, especially in conjunction with finite element analysis, has beco...
Solving the electric activity of the heart possess a big challenge, not only because of the structur...
A hybrid finite element–boundary element method, developed to solve eddy-current problems in the fre...
Magnetic Induction Tomography (MIT) is a non‐invasive imaging technique, which has applications in b...
Boundary element and hybrid boundary element—finite element approaches are applied to the computatio...
Finite element analysis used for detailed electromagnetic analysis and design of electric machines i...
A finite element code is developed in which all computational expensive steps are performed on a gra...
Eddy currents are one of the main causes of deleterious cross-talk within hybrid MRI scanners such a...
Finite element (FE) simulations are increasingly valuable in assessing and improving the performance...
This paper deals with an accelerated implementation of the assembly of the matrices accounting for t...
In this dissertation, the hardware and API architectures of GPUs are investigated, and the correspon...
We present a novel a, v -q hybrid method for solving large-scale time-harmonic eddy-current problems...
In this paper, a GPU-accelerated implementation of a three-dimensional full-wave electromagnetic sol...
We present an implementation of a nonlinear explicit, displacement-based finite element code and its...
Integral formulations, suitable for the numerical solution of quasi-magnetostatic (eddy currents) pr...
The use of biomechanical modelling, especially in conjunction with finite element analysis, has beco...
Solving the electric activity of the heart possess a big challenge, not only because of the structur...