We report on the design, verification and performance of MuMax3, an open-source GPU-accelerated micromagnetic simulation program. This software solves the time- and space dependent magnetization evolution in nano- to micro scale magnets using a finite-difference discretization. Its high performance and low memory requirements allow for large-scale simulations to be performed in limited time and on inexpensive hardware. We verified each part of the software by comparing results to analytical values where available and to micromagnetic standard problems. MuMax3 also offers specific extensions like MFM image generation, moving simulation window, edge charge removal and material grains
We perform micromagnetic simulations in MuMax3 on various magneticnanostructures to study their magn...
We describe an extension of the micromagnetic finite difference simulation software MuMax3 to solve ...
This paper presents a GPU-parallelized 3D micromagnetic code for the efficient calculation of the ma...
We report on the design, verification and performance of MUMAX3, an open-source GPU-accelerated micr...
We have adapted our finite element micromagnetic simulation software to the massively parallel archi...
Micromagnetics is a field of study considering the magnetization behavior in magnetic materials and ...
In the last twenty years, numerical modeling has become an indispensable part of magnetism research....
Micromagnetic simulations are a valuable tool to increase our understanding of nanomagnetic systems ...
Computer based simulation software having a basis in numerical methods play a major role in research...
We present a method and an implementation for smooth linear motion in a finite-difference-based micr...
Since magnetic vortex cores have two ground states, they are candidates for digital memory bits in f...
Abstract magnum.np is a micromagnetic finite-difference library completely based on the tensor libra...
It is shown micromagnetic and atomistic spin dynamics simulations can use multiple GPUs in order to ...
of magnetic materials with MDGRAPE-2 The use of accelerator hardware for micromagnetics simulations ...
Fidimag is an open-source scientific code for the study of magnetic materials at the nano- or micro-...
We perform micromagnetic simulations in MuMax3 on various magneticnanostructures to study their magn...
We describe an extension of the micromagnetic finite difference simulation software MuMax3 to solve ...
This paper presents a GPU-parallelized 3D micromagnetic code for the efficient calculation of the ma...
We report on the design, verification and performance of MUMAX3, an open-source GPU-accelerated micr...
We have adapted our finite element micromagnetic simulation software to the massively parallel archi...
Micromagnetics is a field of study considering the magnetization behavior in magnetic materials and ...
In the last twenty years, numerical modeling has become an indispensable part of magnetism research....
Micromagnetic simulations are a valuable tool to increase our understanding of nanomagnetic systems ...
Computer based simulation software having a basis in numerical methods play a major role in research...
We present a method and an implementation for smooth linear motion in a finite-difference-based micr...
Since magnetic vortex cores have two ground states, they are candidates for digital memory bits in f...
Abstract magnum.np is a micromagnetic finite-difference library completely based on the tensor libra...
It is shown micromagnetic and atomistic spin dynamics simulations can use multiple GPUs in order to ...
of magnetic materials with MDGRAPE-2 The use of accelerator hardware for micromagnetics simulations ...
Fidimag is an open-source scientific code for the study of magnetic materials at the nano- or micro-...
We perform micromagnetic simulations in MuMax3 on various magneticnanostructures to study their magn...
We describe an extension of the micromagnetic finite difference simulation software MuMax3 to solve ...
This paper presents a GPU-parallelized 3D micromagnetic code for the efficient calculation of the ma...