Jul 31, 2020 · The EXAMAG project has been aiming to advance novel numerical methodologies for astrophysical simulations, and to apply them right away to timely research ...
We will apply our code on current state-of-the art supercomputers to carry out transformative magnetohydrodynamic simulations of galaxy and primordial star ...
The EXAMAG project has been aiming to advance novel numerical methodologies for astrophysical simulations, and to apply them right away to timely research ...
EXAMAG: Towards Exascale Simulations of the Magnetic Universe · V. Springel, C. Klingenberg, +2 authors. P. Chandrashekar · Published in Software for Exascale…
[PDF] Exascale simulations of the magnetic universe (EXAMAG) - SPPEXA
www.sppexa.de › examag_springel
Cosmic ray dynamics is coupled to magnetic fields. INTERACTIONS OF COSMIC RAYS AND MAGNETIC FIELDS. Cosmic Ray proton. Cosmic rays scatter on magnetic fields ...
Simulations of cosmic structure formation address multi-scale, multi-physics problems of vast proportions. These calculations are presently at the forefront ...
EXAMAG: Towards Exascale Simulations of the Magnetic Universe. https://doi.org/10.1007/978-3-030-47956-5_12. Journal: Software for Exascale Computing ...
Bibliographic details on EXAMAG: Towards Exascale Simulations of the Magnetic Universe.
Oct 28, 2014 · Major research directions include complex simulations across scales, making sense of data, and enabling science via computational research.
EXAMAG - Exascale Simulations of the Magnetic Universe. Principal Investigators. Volker Springel (University of Heidelberg). Christian Klingenberg (University ...