READEX is a EU Horizon 2020 FET-HPC project whose objective is to exploit the dynamism found in high-performance computing applications at runtime to achieve ecient computation on Exascale systems. In this paper, we describe the use of the READEX methodology to investigate dynamic behaviour of PRACE-relevant applications at runtime and describe how such application dynamism can be exploited to tune a range of application-, system software- and hardware-level parameters for improved performance and energy eciency on current and future European extreme-scale systems
In High Performance Computing, being respectful of the environment is usually secondary compared to ...
Power and energy efficiency are important challenges for the High Performance Computing (HPC) commun...
While parallel applications in all scientific and engineering domains have always been prone to exec...
Efficiently utilizing the resources provided on current petascale and future exascale systems will b...
In both the embedded systems and High Performance Computing domains, energy-efficiency has become on...
High Performance Computing (HPC) applications are highly complex and demand ecient execution. Energy...
Energy efficiency is an important aspect of future exascale systems, mainly due to rising energy cos...
Energy efficiency is an important aspect of future exascale systems, mainly due to rising energy cos...
To overcome the challenges of energy consumption of HPC systems, the European Union Horizon 2020 REA...
Energy consumption of HPC centers becomes a major limitation in building a new peta or exascale syst...
This paper introduces the READEX project tuning approach which exploits the dynamic application beha...
EU-prosjektet READEX (Runtime Exploitation of Application Dynamism for Energy-efficient eXascale com...
The European Horizon 2020 project READEX is developing a tool suite for dynamic energy tuning of HPC...
Power and energy efficiency are important challenges for the High Performance Computing (HPC) commun...
This paper introduces two tools for manual energy evaluation and runtime tuning developed at IT4Inno...
In High Performance Computing, being respectful of the environment is usually secondary compared to ...
Power and energy efficiency are important challenges for the High Performance Computing (HPC) commun...
While parallel applications in all scientific and engineering domains have always been prone to exec...
Efficiently utilizing the resources provided on current petascale and future exascale systems will b...
In both the embedded systems and High Performance Computing domains, energy-efficiency has become on...
High Performance Computing (HPC) applications are highly complex and demand ecient execution. Energy...
Energy efficiency is an important aspect of future exascale systems, mainly due to rising energy cos...
Energy efficiency is an important aspect of future exascale systems, mainly due to rising energy cos...
To overcome the challenges of energy consumption of HPC systems, the European Union Horizon 2020 REA...
Energy consumption of HPC centers becomes a major limitation in building a new peta or exascale syst...
This paper introduces the READEX project tuning approach which exploits the dynamic application beha...
EU-prosjektet READEX (Runtime Exploitation of Application Dynamism for Energy-efficient eXascale com...
The European Horizon 2020 project READEX is developing a tool suite for dynamic energy tuning of HPC...
Power and energy efficiency are important challenges for the High Performance Computing (HPC) commun...
This paper introduces two tools for manual energy evaluation and runtime tuning developed at IT4Inno...
In High Performance Computing, being respectful of the environment is usually secondary compared to ...
Power and energy efficiency are important challenges for the High Performance Computing (HPC) commun...
While parallel applications in all scientific and engineering domains have always been prone to exec...