The appliance of new exascale HPC techniques to energy industry simulations is absolutely needed nowadays. In this sense, the common procedure is to customize these techniques to the specific energy sector they are of interest in order to go beyond the state-of-the-art in the required HPC exascale simulations. With this aim, the HPC4E project is developing new exascale methodologies to three different energy sources that are the present and the future of energy: wind energy production and design, efficient combustion systems for biomass-derived fuels (biogas), and exploration geophysics for hydrocarbon reservoirs. In this work, the general exascale advances proposed as part of HPC4E and its outcome to specific results in different domains a...
Quantitative energy system modelling based on primarily linear mathematical optimization provide a b...
Decarbonisation of the energy system requires substantial efforts along all sectors. This necessitat...
In order to reach exascale performance, current HPC systems need to be improved. Simple hardware sca...
High Performance Computing (HPC) resources have become the key actor for achieving more ambitious ch...
The appliance of new exascale HPC techniques to energy industry simulations is absolutely needed now...
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...
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...
The objective of the PRACE-4IP Work Package 7 (WP7) ‘Application Enabling and Support’ is to provide...
There are many possible future energy systems – many of them unforeseen. We explore the range of par...
International audienceIn the near future, Exascale systems will need to bridge three technology gaps...
International audienceTo achieve high performance and high energy efficiency on near-future exascale...
Energy systems research strongly relies on large modeling frameworks. Many of them use linear optimi...
International audienceExascale implies a major pre-requisite in terms of energy efficiency, as an im...
Quantitative energy system modelling based on primarily linear mathematical optimization provide a b...
Decarbonisation of the energy system requires substantial efforts along all sectors. This necessitat...
In order to reach exascale performance, current HPC systems need to be improved. Simple hardware sca...
High Performance Computing (HPC) resources have become the key actor for achieving more ambitious ch...
The appliance of new exascale HPC techniques to energy industry simulations is absolutely needed now...
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...
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...
The objective of the PRACE-4IP Work Package 7 (WP7) ‘Application Enabling and Support’ is to provide...
There are many possible future energy systems – many of them unforeseen. We explore the range of par...
International audienceIn the near future, Exascale systems will need to bridge three technology gaps...
International audienceTo achieve high performance and high energy efficiency on near-future exascale...
Energy systems research strongly relies on large modeling frameworks. Many of them use linear optimi...
International audienceExascale implies a major pre-requisite in terms of energy efficiency, as an im...
Quantitative energy system modelling based on primarily linear mathematical optimization provide a b...
Decarbonisation of the energy system requires substantial efforts along all sectors. This necessitat...
In order to reach exascale performance, current HPC systems need to be improved. Simple hardware sca...