Energy consumption has become one of the greatest challenges in the eld of High Performance Computing (HPC). Besides its impact on the environment, energy is a limiting factor for the HPC. Keeping the power consumption of a system below a threshold is one of the great problems; and power prediction can help to solve it. The power characterisation can be used to know the power behaviour of the system under study, and to be a support to reach the power prediction. Furthermore, it could be used to design power-aware application programs. In this article we propose a methodology to characterise the power consumption of shared-memory HPC systems. Our proposed methodology involves the nding of in uence factors on power consumed by the systems...
none2siPower consumption of current High Performance Computing systems has to be reduced by at least...
International audienceModern high performance computing subsystems (HPC) - including processor, netw...
The use of models to predict the power con- sumption of a system is an appealing alternative...
Energy consumption has become one of the greatest challenges in the eld of High Performance Computi...
Energy consumption has become one of the greatest challenges in the field of High Performance Comput...
Data movement is becoming a key issue in terms of performance and energy consumption in high perform...
Hardware monitoring through performance counters is available on almost all modern processors. Altho...
International audienceHardware monitoring through performance counters is available on almost all mo...
International audienceHigh‐performance computing (HPC) systems require energy during their full life...
For current High Performance Computing systems to scale towards the holy grail of ExaFLOP performanc...
International audienceHigh-performance computing (HPC) systems require energy during their full life...
Keeping energy costs in budget and operating within available capacities of power distribu-tion and ...
AbstractPower consumption has became a critical concern in modern computing systems for various reas...
After 15 years of exponential improvement in microproces-sor clock rates, the physical principles al...
none2siPower consumption of current High Performance Computing systems has to be reduced by at least...
International audienceModern high performance computing subsystems (HPC) - including processor, netw...
The use of models to predict the power con- sumption of a system is an appealing alternative...
Energy consumption has become one of the greatest challenges in the eld of High Performance Computi...
Energy consumption has become one of the greatest challenges in the field of High Performance Comput...
Data movement is becoming a key issue in terms of performance and energy consumption in high perform...
Hardware monitoring through performance counters is available on almost all modern processors. Altho...
International audienceHardware monitoring through performance counters is available on almost all mo...
International audienceHigh‐performance computing (HPC) systems require energy during their full life...
For current High Performance Computing systems to scale towards the holy grail of ExaFLOP performanc...
International audienceHigh-performance computing (HPC) systems require energy during their full life...
Keeping energy costs in budget and operating within available capacities of power distribu-tion and ...
AbstractPower consumption has became a critical concern in modern computing systems for various reas...
After 15 years of exponential improvement in microproces-sor clock rates, the physical principles al...
none2siPower consumption of current High Performance Computing systems has to be reduced by at least...
International audienceModern high performance computing subsystems (HPC) - including processor, netw...
The use of models to predict the power con- sumption of a system is an appealing alternative...