Extreme-scale computing requires a new perspective on the role of performance observation in the Exascale system software stack. Because of the anticipated high …
WS Thornton, N Vence, R Harrison - Proceedings of the Cray Users Group, 2009 - cug.org
Introducing the MADNESS numerical framework for petascale computing Page 1 Introducing the MADNESS numerical framework for petascale computing W. Scott Thornton, Nicholas …
One of the core missions of the Department of Energy (DOE) is to move beyond current high performance computing (HPC) capabilities toward a capable exascale computing …
Extreme scale parallel computing systems will have tens of thousands of optionally accelerator-equiped nodes with hundreds of cores each, as well as deep memory …
John von Neumann Institute for Computing, Jülich, NIC Series, Vol. 38, ISBN 978-3- 9810843-4-4, pp. 687-688, 2007. Reprinted in: Advances in Parallel Computing, Volume 15 …
Exascale services bring new unique challenges that the current computational, big data and workflow solutions are unable to meet. The chapter includes a detailed description of …
The scope of our working group is scientific visualization and data analysis. Scientific visualization refers to the process of transforming scientific simulation and experimental data …
JS Camier - Proceedings of the 3rd International Conference on …, 2015 - nabla-lang.org
Addressing the major challenges of software productivity and performance portability becomes necessary to take advantage of emerging extreme-scale computing architectures …
" Physical phenomena can be modeled at varying degrees of complexity and at different scales. Multiscale modeling provides a framework, based on fundamental principles, for …