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1. MHD Turbulence in Core-Collapse Supernovae
Authors: Philipp Moesta (pmoesta@berkeley.edu), Christian Ott (cott@tapir.caltech.edu)
Paper URL: http://www.nature.com/nature/journal/v528/n7582/full/nature15755.html
Paper DOI: dx.doi.org/10.1038/nature15755
Data URL: https://go-bluewaters.ncsa.illinois.edu/globus-app/transfer?origin_id=8fc2bb2a-9712-11e5-9991-22000b96db58&origin_path=%2F
Data DOI: ??
Size: 90 TB
Code & Tools: ?? Einstein Toolkit, see this page for list of available vis tools for this format
The dataset is a series of snapshots in time from 4 ultra-high resolution 3D magnetohydrodynamic simulations of rapidly rotating stellar core-collapse. The 3D domain for all simulations is in quadrant symmetry with dimensions 0 < x,y < 66.5km, -66.5km < z < 66.5km. It covers the newly born neutron star and it's shear layer with a uniform resolution. The simulations were performed at 4 different resolutions [500m,200m,100m,50m]. There are a total of 350 snapshots over the simulated time of 10ms with 10 variables capturing the state of the magnetofluid. For the highest resolution simulation, a single 3D output variable for a single time is ~26GB in size. The entire dataset is ~90TB in size. The highest resolution simulation used 60 million CPU hours on BlueWaters. The dataset may be used to analyze the turbulent state of the fluid and perform analysis going beyond the published results in Nature doi:10.1038/nature15755.
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