As an exemplary prototype for high-dimensional problems, turbulence simulations in plasma physics are studied. Download to read the full chapter text ...

Feb 17, 2018 · The main motivation behind EXAHD is the development of novel numerical schemes to tackle the exascale-challenges scalability and fault tolerance ...

This project tackles such problems by a hierarchical extrapolation approach, the sparse grid combination technique. The method not only enables their treatment ...

This project tackles such problems by a hierarchical extrapolation approach, the sparse grid combination technique. The method not only enables their treatment ...

Higher-dimensional problems (i.e., beyond four dimensions) appear in medicine, finance, and plasma physics, posing a challenge for tomorrow's HPC. As an example ...

Higher-dimensional problems are among the most compute-hungry problems, with an inherent need for future exascale resources. Caused by the exponential ...

M. Obersteiner, EXAHD - An Exa-Scalable Two-Level Sparse Grid Ap- proach for Higher-Dimensional Problems in Plasma Physics and Beyond, 20th Results and Review ...

EXAHD: An Exa-Scalable Two-Level Sparse Grid Approach for Higher-Dimensional Problems in Plasma Physics and Beyond. https://doi.org/10.1007/978-3-319-68394 ...

Dive into the research topics of 'Exahd: An exa-scalable two-level sparse grid approach for higher-dimensional problems in plasma physics and beyond'. Together ...

Mar 21, 2017 · EXAHD: An exa-scalable two-level sparse grid approach for higher-dimensional problems in plasma physics and beyond. In Euro-Par 2014 ...