Current, leading-edge high performance computing (HPC) systems are often heterogeneous, comprised of combinations of multiple compute units and accelerators, including (but not limited to) CPUs, GPUs and FPGAs. HPC is a significant contributor to energy usage. However, the energy-to-solution varies between these architectures. In terms of minimising energy consumption, this choice of possible architectures presents various challenges to HPC managers and users
Power and energy efficiency are important challenges for the High Performance Computing (HPC) commun...
Nowadays, reducing energy consumption and improving the energy efficiency of computing systems becom...
International audienceHigh-performance computing (HPC) systems require energy during their full life...
This paper examines energy management in a heterogeneous processor consisting of an integrated CPU-G...
To sustain performance while facing always tighter power and energy envelopes, High Performance Comp...
Modern HPC systems are becoming increasingly heterogeneous, affecting all components of HPC systems,...
International audienceNowadays, high-performance computing (HPC) infrastructure can consume several ...
The paper presents state of the art of energy-aware high-performance computing (HPC), in particular ...
peer reviewedNowadays, power consumption in computer systems is an active and important subject of d...
The integration of the latest breakthroughs in computational modeling and high performance computing...
ICT adoption rate boomed during the last decades as well as the power consumption footprint that gen...
Abstract — Along with the increased awareness of energy and cost related to it, power management bec...
Abstract—Homogeneous multi-cores, while ubiquitous to-day, cannot provide the desired performance an...
The goal of reaching exascale computing is made especially challenging by the highly heterogeneous n...
High performance computing (HPC) most generally refers to the practice of aggregating computing powe...
Power and energy efficiency are important challenges for the High Performance Computing (HPC) commun...
Nowadays, reducing energy consumption and improving the energy efficiency of computing systems becom...
International audienceHigh-performance computing (HPC) systems require energy during their full life...
This paper examines energy management in a heterogeneous processor consisting of an integrated CPU-G...
To sustain performance while facing always tighter power and energy envelopes, High Performance Comp...
Modern HPC systems are becoming increasingly heterogeneous, affecting all components of HPC systems,...
International audienceNowadays, high-performance computing (HPC) infrastructure can consume several ...
The paper presents state of the art of energy-aware high-performance computing (HPC), in particular ...
peer reviewedNowadays, power consumption in computer systems is an active and important subject of d...
The integration of the latest breakthroughs in computational modeling and high performance computing...
ICT adoption rate boomed during the last decades as well as the power consumption footprint that gen...
Abstract — Along with the increased awareness of energy and cost related to it, power management bec...
Abstract—Homogeneous multi-cores, while ubiquitous to-day, cannot provide the desired performance an...
The goal of reaching exascale computing is made especially challenging by the highly heterogeneous n...
High performance computing (HPC) most generally refers to the practice of aggregating computing powe...
Power and energy efficiency are important challenges for the High Performance Computing (HPC) commun...
Nowadays, reducing energy consumption and improving the energy efficiency of computing systems becom...
International audienceHigh-performance computing (HPC) systems require energy during their full life...