High Performance Computing (HPC) resources have become the key actor for achieving more ambitious challenges in many disciplines. In this step beyond, an explosion on the available parallelism and the use of special purpose processors are crucial. With such a goal, the HPC4E project applies new exascale HPC techniques to energy industry simulations, customizing them if necessary, and going beyond the state-of-the-art in the required HPC exascale simulations for different energy sources. In this paper, a general overview of these methods is presented as well as some specific preliminary results.The research leading to these results has received funding from the European Union's Horizon 2020 Programme (2014-2020) under the HPC4E Project (ww...
One of the main concerns to build the new generation of High Performance Computing (HPC) systems is ...
International audienceExascale implies a major pre-requisite in terms of energy efficiency, as an im...
International audienceThe advent of unprecedentedly scalable yet energy hungry Exascale supercompute...
The appliance of new exascale HPC techniques to energy industry simulations is absolutely needed now...
High Performance Computing (HPC) resources have become the key actor for achieving more ambitious ch...
During the last years, High Performance Computing (HPC) resources have undergone a dramatic tr...
The High Performance Computing for Energy (HPC4e) project aims to apply "new exascale HPC techniques...
The objective of the PRACE-4IP Work Package 7 (WP7) ‘Application Enabling and Support’ is to provide...
How will the United States satisfy energy demand in a tightening global energy marketplace while, at...
The global transition away from fossil fuels towards a sustainable, decarbonized energy ecosystem wi...
International audienceTo achieve high performance and high energy efficiency on near-future exascale...
International audienceIn the near future, Exascale systems will need to bridge three technology gaps...
This volume of the book series “Advances in Parallel Computing” contains the proceedings of ParCo201...
International audienceNowadays, high-performance computing (HPC) infrastructure can consume several ...
Quantitative energy system modelling based on primarily linear mathematical optimization provide a b...
One of the main concerns to build the new generation of High Performance Computing (HPC) systems is ...
International audienceExascale implies a major pre-requisite in terms of energy efficiency, as an im...
International audienceThe advent of unprecedentedly scalable yet energy hungry Exascale supercompute...
The appliance of new exascale HPC techniques to energy industry simulations is absolutely needed now...
High Performance Computing (HPC) resources have become the key actor for achieving more ambitious ch...
During the last years, High Performance Computing (HPC) resources have undergone a dramatic tr...
The High Performance Computing for Energy (HPC4e) project aims to apply "new exascale HPC techniques...
The objective of the PRACE-4IP Work Package 7 (WP7) ‘Application Enabling and Support’ is to provide...
How will the United States satisfy energy demand in a tightening global energy marketplace while, at...
The global transition away from fossil fuels towards a sustainable, decarbonized energy ecosystem wi...
International audienceTo achieve high performance and high energy efficiency on near-future exascale...
International audienceIn the near future, Exascale systems will need to bridge three technology gaps...
This volume of the book series “Advances in Parallel Computing” contains the proceedings of ParCo201...
International audienceNowadays, high-performance computing (HPC) infrastructure can consume several ...
Quantitative energy system modelling based on primarily linear mathematical optimization provide a b...
One of the main concerns to build the new generation of High Performance Computing (HPC) systems is ...
International audienceExascale implies a major pre-requisite in terms of energy efficiency, as an im...
International audienceThe advent of unprecedentedly scalable yet energy hungry Exascale supercompute...