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CONTRIBUTORS.md

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Contributors

Moritz Sallermann

  • RWTH Aachen
  • PGI-1/IAS-1 at Forschungszentrum Jülich

Implementation of

  • the dipole-dipole interaction using FFT convolutions
  • the NCG and LBFGS solvers

email: m.sallermann@fz-juelich.de

(May 2018 - ongoing)


Gideon P. Müller

  • RWTH Aachen
  • University of Iceland
  • PGI-1/IAS-1 at Forschungszentrum Jülich

General code design and project setup.
Implementation of the core library and user interfaces, most notably:

  • GNEB and MMF methods
  • Velocity projection solver
  • CUDA and OpenMP parallelizations of backend
  • C API and Python bindings
  • C++ QT GUI and initial OpenGL code
  • Unit tests and continuous integration

email: gideon.mueller@outlook.de

(Oct. 2014 - Sept. 2019)


Markus Hoffmann

  • RWTH Aachen
  • PGI-1/IAS-1 at Forschungszentrum Jülich

Bug-reports, feedback on code features and general help designing some of the functionality, user interface and input file format.

email: m.hoffmann@fz-juelich.de

(Jun. 2016 - ongoing)


Nikolai S. Kiselev

  • PGI-1/IAS-1 at Forschungszentrum Jülich

Scientific advice, general help and feedback, initial (Fortran90) implementations of:

  • isotropic Heisenberg Hamiltonian
  • Neighbour calculations
  • SIB solver
  • Monte Carlo methods

email: n.kiselev@fz-juelich.de

(2007 - ongoing)


Florian Rhiem

  • Scientific IT-Systems, PGI/JCNS at Forschungszentrum Jülich

Implementation of C++ OpenGL code (VFRendering library), as well as JavaScript Web UI and WebGL code.
Code design improvements, including the C API and CMake.

(Jan. 2016 - ongoing)


Pavel F. Bessarab

  • University of Iceland

Help with the initial GNEB implementation. Initial (Fortran90) implementation of the HTST method.

email: bessarab@hi.is

(Apr. 2015 - ongoing)


Aleksei V. Ivanov

  • University of Iceland
  • St. Petersburg State University

Help with the initial implementation of conjugate gradient and L-BFGS solvers. Initial implementation of conjugate gradient and L-BFGS solvers, using the exponential transform.

(Sep. 2019 - ongoing)


Daniel Schürhoff

  • RWTH Aachen
  • PGI-1/IAS-1 at Forschungszentrum Jülich

Implementation of the initial core library, notably translating from Fortran90 to C++ and addition of STT to the SIB solver.
Work on QT GUI and Python bindings.

(Oct. 2015 - Sept. 2016)


Stefanos Mavros

  • RWTH Aachen

Work on unit testing and documentation, implementation of the Depondt solver.
Also some general code design and IO improvements.

(Apr. 2017 - Oct. 2018)


Constantin Disselkamp

  • RWTH Aachen

Implementation and testing of gradient approximation of spin transfer torque.

(Apr. 2017 - Jul. 2017)


Filipp N. R. Rybakov

  • Various Universities

Designs and ideas for the user interface and other code features, such as isosurfaces and colormaps for 3D systems.
Some help and ideas related to code performance and CUDA.

(Jan. 2016 - ongoing)


Ingo Heimbach

  • Scientific IT-Systems, PGI/JCNS at Forschungszentrum Jülich

Implementation of the initial OpenGL code.
Code design suggestions and other general help.

(Jan. 2016 - ongoing)


Mathias Redies, Maximilian Merte, Rene Suckert

  • RWTH Aachen

Initial CUDA implementation and tests.
Code optimizations, suggestions and feedback.

(Sept. 2016 - Dec. 2016)


Dmitrii Tolmachev

  • RWTH Aachen

Support on the initial implementation of micromagnetics.

(Sept. 2019 - Mar. 2020)


David Bauer

  • RWTH Aachen
  • PGI-1/IAS-1 at Forschungszentrum Jülich

Initial (Fortran90) implementations of the isotropic Heisenberg Hamiltonian, Neighbour calculations and the SIB solver.

(Oct. 2007 - Sept. 2008)


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