Add to ORKGof magnetic materials with MDGRAPE-2 The use of accelerator hardware for micromagnetics simulations is described, along with some initial results. The accelerator calculates the dipole interactions at 400 gigaflops, allowing large simulations to be performed with arbitrary geometries. Two research programs are highlighted, the simulation of a curved MRAM cell and the simulation of the write head in a computer disk drive
This is a micromagnetics code that is specifically designed to be run using high performance computi...
Schepper W, Kubota H, Reiss G. Analysis of the Disturbing Influence of Stray Fields in Very Small MR...
Software is fundamental to research. Seven out of ten researchers in the United Kingdom report that ...
We have adapted our finite element micromagnetic simulation software to the massively parallel archi...
Magnetic materials and nanoscale devices are at the heart of data storage technologies, from decades...
We report on the design, verification and performance of MuMax3, an open-source GPU-accelerated micr...
Magnetic nanostructures are vital components of numerous existing and prospective magnetic devices, ...
Micromagnetics is a field of study considering the magnetization behavior in magnetic materials and ...
Micromagnetic simulations are a valuable tool to increase our understanding of nanomagnetic systems ...
An improved two-dimensional simulator MAGFLD has been developed at CEERI, which is useful for the de...
Abstract. The development of advanced magnetic materials such as magnetic sen-sors, recording heads,...
It is shown micromagnetic and atomistic spin dynamics simulations can use multiple GPUs in order to ...
Micromagnetics is an important component for advancing the magnetic nanostructures understanding and...
With the development of both computing power and software engineering, computer simulation of the mi...
Computer based simulation software having a basis in numerical methods play a major role in research...
This is a micromagnetics code that is specifically designed to be run using high performance computi...
Schepper W, Kubota H, Reiss G. Analysis of the Disturbing Influence of Stray Fields in Very Small MR...
Software is fundamental to research. Seven out of ten researchers in the United Kingdom report that ...
We have adapted our finite element micromagnetic simulation software to the massively parallel archi...
Magnetic materials and nanoscale devices are at the heart of data storage technologies, from decades...
We report on the design, verification and performance of MuMax3, an open-source GPU-accelerated micr...
Magnetic nanostructures are vital components of numerous existing and prospective magnetic devices, ...
Micromagnetics is a field of study considering the magnetization behavior in magnetic materials and ...
Micromagnetic simulations are a valuable tool to increase our understanding of nanomagnetic systems ...
An improved two-dimensional simulator MAGFLD has been developed at CEERI, which is useful for the de...
Abstract. The development of advanced magnetic materials such as magnetic sen-sors, recording heads,...
It is shown micromagnetic and atomistic spin dynamics simulations can use multiple GPUs in order to ...
Micromagnetics is an important component for advancing the magnetic nanostructures understanding and...
With the development of both computing power and software engineering, computer simulation of the mi...
Computer based simulation software having a basis in numerical methods play a major role in research...
This is a micromagnetics code that is specifically designed to be run using high performance computi...
Schepper W, Kubota H, Reiss G. Analysis of the Disturbing Influence of Stray Fields in Very Small MR...
Software is fundamental to research. Seven out of ten researchers in the United Kingdom report that ...