... | ... | @@ -19,7 +19,7 @@ The goal of the BMBF project **ParaPhase - space-time parallel adaptive simulati |
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Consortium
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The interdisciplinary consortium led by the Jülich Supercomputing Centre consists of two partners with a long-standing experience in the particular field of applications (the groups of [Heike Emmerich](http://www.mps.uni-bayreuth.de/de/team/Emmerich_Heike/) at Universität Bayreuth and [Marc-Andre Keip](http://www.mechbau.uni-stuttgart.de/ls1/members/profs/keip/) at Universität Stuttgart) as well as four partners with a strong background in methods, algorithms and HPC (the groups of [Carsten Gräser](http://page.mi.fu-berlin.de/graeser/) at FU Berlin, [Oliver Sander](http://www.math.tu-dresden.de/~osander/) at TU Dresden, [Robert Speck](http://www.fz-juelich.de/ias/jsc/speck_r) at JSC and Jiri Kraus from the [NVIDIA Application Lab](http://www.fz-juelich.de/ias/jsc/EN/Research/HPCTechnology/ExaScaleLabs/NVLAB/_node.html)). While the algorithms developed in this project will be primarily used for studying fracture propagation and liquid phase epitaxy, these problem classes already represent a wide range of challenges in industrial applications. Based on the open source software [DUNE](https://dune-project.org/), the “Distributed and Unified Numerics Environment”, the resulting algorithms will help to make large-scale HPC simulations accessible for researchers in these fields.
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The interdisciplinary consortium led by the Jülich Supercomputing Centre consists of two partners with a long-standing experience in the particular field of applications (the groups of [Uwe Glatzel](http://www.metalle.uni-bayreuth.de/de/team/current_members/Glatzel_Uwe/) at Universität Bayreuth and [Marc-Andre Keip](http://www.mechbau.uni-stuttgart.de/ls1/members/profs/keip/) at Universität Stuttgart) as well as four partners with a strong background in methods, algorithms and HPC (the groups of [Carsten Gräser](http://page.mi.fu-berlin.de/graeser/) at FU Berlin, [Oliver Sander](http://www.math.tu-dresden.de/~osander/) at TU Dresden, [Robert Speck](http://www.fz-juelich.de/ias/jsc/speck_r) at JSC and Jiri Kraus from the [NVIDIA Application Lab](http://www.fz-juelich.de/ias/jsc/EN/Research/HPCTechnology/ExaScaleLabs/NVLAB/_node.html)). While the algorithms developed in this project will be primarily used for studying fracture propagation and liquid phase epitaxy, these problem classes already represent a wide range of challenges in industrial applications. Based on the open source software [DUNE](https://dune-project.org/), the “Distributed and Unified Numerics Environment”, the resulting algorithms will help to make large-scale HPC simulations accessible for researchers in these fields.
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With two post docs and three PhD students fully funded by BMBF, this work will also contribute to the educational effort in the field of computational science and engineering, enabling young scientists to address challenges of real-world applications with HPC-ready methods and algorithms.
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