Recent graphic processing units (GPUs) have remarkable raw computing power, which can be used for very computationally challenging problems. Like in micromagnetic simulations, where the magnetostatic field computation to analyze the magnetic behavior at very small time and space scale demands a huge computation time. This paper presents a multidimensional FFT-based parallel implementation of a magnetostatic field computation on GPUs. We have developed a specialized 3D FFT library for magnetostatic field calculation on GPUs. This made it possible to fully exploit the symmetries inherent in the field calculation and other optimizations specific to the GPUs architecture. We have compared our results with the widely used CPU-based parallel OOMM...
It is shown micromagnetic and atomistic spin dynamics simulations can use multiple GPUs in order to ...
The finite difference time domain (FDTD) method is a popular technique for computational electromagn...
We present an approach to molecular-dynamics simulations of ferrofluids on graphics processing units...
Recent graphic processing units (GPUs) have remarkable raw computing power, which can be used for ve...
Computer based simulation software having a basis in numerical methods play a major role in research...
We have adapted our finite element micromagnetic simulation software to the massively parallel archi...
Computational Science has emerged as a third pillar of science along with theory and experiment, whe...
A method for the computation of magnetostatic fields in presence of magnetic materials using closed ...
Micromagnetics is a field of study considering the magnetization behavior in magnetic materials and ...
In this thesis, fast algorithms for solving fields defined by the Helmholtz equation using integral ...
Integral formulations, suitable for the numerical solution of quasi-magnetostatic (eddy currents) pr...
Magnetic diagnostics are essential for the operation and understanding of a magnetic confinement fus...
""The computation of magnetic fields produced by coils with complex 3D geometrical shapes may repres...
Modern graphics processing units (GPUs) have more computing power than CPUs, and thus, GPUs are pro...
The use of graphic processor units (GPUs) has been recently proposed in computational electromagneti...
It is shown micromagnetic and atomistic spin dynamics simulations can use multiple GPUs in order to ...
The finite difference time domain (FDTD) method is a popular technique for computational electromagn...
We present an approach to molecular-dynamics simulations of ferrofluids on graphics processing units...
Recent graphic processing units (GPUs) have remarkable raw computing power, which can be used for ve...
Computer based simulation software having a basis in numerical methods play a major role in research...
We have adapted our finite element micromagnetic simulation software to the massively parallel archi...
Computational Science has emerged as a third pillar of science along with theory and experiment, whe...
A method for the computation of magnetostatic fields in presence of magnetic materials using closed ...
Micromagnetics is a field of study considering the magnetization behavior in magnetic materials and ...
In this thesis, fast algorithms for solving fields defined by the Helmholtz equation using integral ...
Integral formulations, suitable for the numerical solution of quasi-magnetostatic (eddy currents) pr...
Magnetic diagnostics are essential for the operation and understanding of a magnetic confinement fus...
""The computation of magnetic fields produced by coils with complex 3D geometrical shapes may repres...
Modern graphics processing units (GPUs) have more computing power than CPUs, and thus, GPUs are pro...
The use of graphic processor units (GPUs) has been recently proposed in computational electromagneti...
It is shown micromagnetic and atomistic spin dynamics simulations can use multiple GPUs in order to ...
The finite difference time domain (FDTD) method is a popular technique for computational electromagn...
We present an approach to molecular-dynamics simulations of ferrofluids on graphics processing units...