%0 Generic %1 kurz2024galxi %A Kurz, Marius %A Kempf, Daniel %A Blind, Marcel P. %A Kopper, Patrick %A Offenhäuser, Philipp %A Schwarz, Anna %A Starr, Spencer %A Keim, Jens %A Beck, Andrea %D 2024 %K %R 10.18419/darus-4139 %T GALÆXI Validation: Taylor-Green Vortex %X This Dataset contains the test case definition and reference data for the Taylor-Green Vortex (TGV) test case which builds the validation test case in the GALÆXI Paper (Section 5).Incompressible TGV (Ma=0.1) according to (Link):J. DeBonis, Solutions of the Taylor–Green vortex problem using high-resolution explicit finite difference methods, in: 51st AIAA AerospaceSciences Meeting, 2013, p. 382Compressible TGV (Ma=1.25) according to:J.-B. Chapelier, D. J. Lusher, W. Van Noordt, C. Wenzel, T. Gibis,P. Mossier, A. D. Beck, G. Lodato, C. Brehm, M. Ruggeri, C. Scalo,N. Sandham, Comparison of high-order numerical methodologies forthe simulation of the supersonic taylor-green vortex flow, submitted toPhysics of Fluids (2024).Executable of FLEXI/GALÆXI can be built using the build.py script:python3 build.py ./build-folder ./userblock.txtNote: Please ensure that all necessary dependencies of GALÆXI/FLEXI are available (including CUDA) and a Python3 environment is installed on the system.

@misc{kurz2024galxi, abstract = { This Dataset contains the test case definition and reference data for the Taylor-Green Vortex (TGV) test case which builds the validation test case in the GALÆXI Paper (Section 5).Incompressible TGV (Ma=0.1) according to (Link):J. DeBonis, Solutions of the Taylor–Green vortex problem using high-resolution explicit finite difference methods, in: 51st AIAA AerospaceSciences Meeting, 2013, p. 382Compressible TGV (Ma=1.25) according to:J.-B. Chapelier, D. J. Lusher, W. Van Noordt, C. Wenzel, T. Gibis,P. Mossier, A. D. Beck, G. Lodato, C. Brehm, M. Ruggeri, C. Scalo,N. Sandham, Comparison of high-order numerical methodologies forthe simulation of the supersonic taylor-green vortex flow, submitted toPhysics of Fluids (2024).Executable of FLEXI/GALÆXI can be built using the build.py script:python3 build.py ./build-folder ./userblock.txtNote: Please ensure that all necessary dependencies of GALÆXI/FLEXI are available (including CUDA) and a Python3 environment is installed on the system. }, added-at = {2024-10-15T10:17:49.000+0200}, affiliation = {Kurz, Marius/University of Stuttgart, Kempf, Daniel/University of Stuttgart, Blind, Marcel P./University of Stuttgart, Kopper, Patrick/University of Stuttgart, Offenhäuser, Philipp/Hewlett Packard Enterprise, Schwarz, Anna/University of Stuttgart, Starr, Spencer/University of Stuttgart, Keim, Jens/University of Stuttgart, Beck, Andrea/University of Stuttgart}, author = {Kurz, Marius and Kempf, Daniel and Blind, Marcel P. and Kopper, Patrick and Offenhäuser, Philipp and Schwarz, Anna and Starr, Spencer and Keim, Jens and Beck, Andrea}, biburl = {https://puma.ub.uni-stuttgart.de/bibtex/22e832d83440807aa2f46e4ace45dafb3/unibiblio}, doi = {10.18419/darus-4139}, howpublished = {Dataset}, interhash = {717538627dace4c3b6d17350e5a2c4ee}, intrahash = {2e832d83440807aa2f46e4ace45dafb3}, keywords = {}, note = {Related to: Kurz, M., Kempf, D., Blind, M., Kopper, P., Offenhäuser, P., Schwarz, A., Starr, S., Keim, J., & Beck, A. (2024). GALÆXI: Solving complex compressible flows with high-order discontinuous Galerkin methods on accelerator-based systems. Computer Physics Communications, 109388. doi: 10.1016/j.cpc.2024.109388}, orcid-numbers = {Kurz, Marius/0009-0005-0844-0769, Kempf, Daniel/0000-0002-1445-536X, Blind, Marcel P./0000-0002-4737-9359, Kopper, Patrick/0000-0002-7613-0739, Offenhäuser, Philipp/0009-0001-1674-7980, Schwarz, Anna/0000-0002-3181-8230, Starr, Spencer/0009-0005-3737-3374, Keim, Jens/0000-0002-2338-1497, Beck, Andrea/0000-0003-3634-7447}, timestamp = {2024-10-15T08:17:49.000+0200}, title = {GALÆXI Validation: Taylor-Green Vortex}, year = 2024 }