Power use in data centers and high‐performance computing (HPC) facilities has grown in tandem with increases in the size and number of these facilities. Substantial innovation is needed to enable meaningful reduction in energy footprints in leadership‐class HPC systems. In this paper, we focus on characterizing and investigating application‐level power usage. We demonstrate potential methods for predicting power usage based on a priori and in situ characteristics. Finally, we highlight a potential use case of this method through a simulated power‐aware scheduler using historical jobs from a real scientific HPC system
High performance computing (HPC) systems are an important enabling tool for modern scientific discov...
The use of information technologies such as high performance computing (HPC) represents a basic tool...
Optimization of energy consumption and HPC resource utilization are high-priority issues for any sup...
Keeping energy costs in budget and operating within available capacities of power distribu-tion and ...
Power consumption is a critical aspect for next generation High Performance Computing systems: Super...
none2siPower consumption of current High Performance Computing systems has to be reduced by at least...
International audienceHigh-performance computing (HPC) systems require energy during their full life...
Energy efficiency of large-scale data centers is becoming a major concern not only for reasons of en...
Energy consumption has become one of the greatest challenges in the eld of High Performance Computi...
Power consumption is a major obstacle for High Performance Computing (HPC) systems in their quest to...
Abstract Energy consumption has become one of the greatest chal-lenges in the field of High Performa...
As the field of supercomputing continues its relentless push towards greater speeds and higher level...
Power consumption is a major obstacle for High Performance Computing (HPC) systems in their quest to...
For current High Performance Computing systems to scale towards the holy grail of ExaFLOP performanc...
For current High Performance Computing systems to scale towards the holy grail of ExaFLOP performan...
High performance computing (HPC) systems are an important enabling tool for modern scientific discov...
The use of information technologies such as high performance computing (HPC) represents a basic tool...
Optimization of energy consumption and HPC resource utilization are high-priority issues for any sup...
Keeping energy costs in budget and operating within available capacities of power distribu-tion and ...
Power consumption is a critical aspect for next generation High Performance Computing systems: Super...
none2siPower consumption of current High Performance Computing systems has to be reduced by at least...
International audienceHigh-performance computing (HPC) systems require energy during their full life...
Energy efficiency of large-scale data centers is becoming a major concern not only for reasons of en...
Energy consumption has become one of the greatest challenges in the eld of High Performance Computi...
Power consumption is a major obstacle for High Performance Computing (HPC) systems in their quest to...
Abstract Energy consumption has become one of the greatest chal-lenges in the field of High Performa...
As the field of supercomputing continues its relentless push towards greater speeds and higher level...
Power consumption is a major obstacle for High Performance Computing (HPC) systems in their quest to...
For current High Performance Computing systems to scale towards the holy grail of ExaFLOP performanc...
For current High Performance Computing systems to scale towards the holy grail of ExaFLOP performan...
High performance computing (HPC) systems are an important enabling tool for modern scientific discov...
The use of information technologies such as high performance computing (HPC) represents a basic tool...
Optimization of energy consumption and HPC resource utilization are high-priority issues for any sup...