Dominik Bartuschat



Organisation


Lehrstuhl für Informatik 10 (Systemsimulation)


Awards / Honours


2018 : International Symposium on Computational Science at Scale 2018: Best Poster Award (2nd)
2008 : 3. Posterpreis des Publikums


Project member


waLBerla-MC: waLBerla-MC - A Widely Applicable Lattice-Boltzmann Solver for Many-Core Architectures
Prof. Dr. Ulrich Rüde
(01/01/2009 - 31/12/2011)

waLBerla: waLBerla - Widely applicable Lattice Boltzmann from Erlangen
Prof. Dr. Ulrich Rüde
(01/01/2007 - 01/01/2099)


Other Research Activities


Organisation of a congress / conference
Dominik Bartuschat; Prof. Dr. Ulrich Rüde
Minisymposium Large-Scale Simulation in Geodynamics (SIAM PP 2018)
(10/03/2018 - 10/03/2018)
Organisation of a congress / conference
Dominik Bartuschat; Prof. Dr. Ulrich Rüde
PARNUM 2017 -- International Workshop on Parallel Numerics
(19/04/2017 - 21/04/2017)
Organisation of a congress / conference
Dominik Bartuschat; Prof. Dr. Ulrich Rüde
International Symposium on Computational Science at Scale - CoSaS
(05/09/2018 - 07/09/2018)
Other expert activities (FAU-external)
Dominik Bartuschat
Technical Program Committee member of IEEE Cluster conference 2018 -
(22/04/2018 - 03/07/2018)


Publications (Download BibTeX)

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Kohl, N., Thoennes, D., Drzisga, D., Bartuschat, D., & Rüde, U. (2019). A Scalable and Modular Software Architecture for Finite Elements on Hierarchical Hybrid Grids. In Andrew Adamatzky, Selim Akl, Georgios Sirakoulis (Eds.), From Parallel to Emergent Computing. ‎: Taylor & Francis.
Thoennes, D., Kohl, N., Drzisga, D., Bartuschat, D., & Rüde, U. (2019). HyTeG: A High Performance Multigrid Framework on Hybrid Meshes. Spokane, Washington, US.
Bartuschat, D., Gmeiner, B., Thoennes, D., Kohl, N., Rüde, U., Drzisga, D.,... Bunge, H.-P. (2018). A Finite Element Multigrid Framework for 
Extreme-Scale Earth Mantle Convection Simulations. Tokyo, JP.
Bartuschat, D., Gmeiner, B., Thoennes, D., Kohl, N., Rüde, U., Drzisga, D.P.,... Bunge, H.-P. (2018). A Finite Element Multigrid Framework for 
Extreme-Scale Earth Mantle Convection Simulations. Tokyo, JP.
Bartuschat, D., & Rüde, U. (2018). A scalable multiphysics algorithm for massively parallel direct numerical simulations of electrophoresis. Journal of Computational Science, 27, 147 - 167. https://dx.doi.org/10.1016/j.jocs.2018.05.011
Bartuschat, D., & Rüde, U. (2018). Massively Parallel Simulations of Particulate Electrokinetic Micro-fluid Flows. IIT Delhi, Neu Delhi, IN.
Thoennes, D., Kohl, N., Bartuschat, D., & Rüde, U. (2018). Sustainability and Efficiency for Simulation Software in the Exascale Era. Tokyo, JP.
Kohl, N., Thoennes, D., Drzisga, D., Bartuschat, D., & Rüde, U. (2018). Terra-Neo - Integrated Co-Design of an Exascale Earth Mantle Modeling Framework. Institute for Advanced Study, Garching bei München, Germany, DE.
Kohl, N., Thoennes, D., Drzisga, D., Bartuschat, D., & Rüde, U. (2018). The HyTeG Finite-Element Framework for Scalable Geophysics Simulations. Friedrich-Alexander-Universität Erlangen-Nürnberg, DE.
Kohl, N., Thoennes, D., Drzisga, D., Bartuschat, D., & Rüde, U. (2018). The HyTeG Finite-Element Software Framework for Scalable Multigrid Solvers. International Journal of Parallel, Emergent and Distributed Systems. https://dx.doi.org/10.1080/17445760.2018.1506453

Last updated on 2019-15-03 at 22:54