Presented in March, 2011 at the Exascale Evaluation and Research Techniques Workshop (EXERT), held at the International Conference on Architectural Support for Programming Languages and Operating Systems (ASPLOS).Studying the energy efficiency of large-scale computer systems requires models of the relationship between resource utilization and power consumption. Prior work on power modeling assumes that models built for a single node will scale to larger groups of machines. However, we find that inter-node variability in homogeneous clusters leads to substantially different single-node models. Furthermore, these models have much higher error when scaled to the cluster level than models built using multiple nodes. We report on inter-node vari...
Full-system simulation frameworks such as gem5 are used extensively to evaluate research ideas and f...
Reduction of power consumption for any computer system is now an important issue, although this shou...
If cluster C1 consists of computers with a faster mean speed than the computers in cluster C2, does ...
Abstract—Studying the energy efficiency of large-scale computer systems requires models of the relat...
The data center industry is responsible for 1.5–2% of the world energy consumption. Energy managemen...
Abstract-Models of computers' power consumption enable a variety of energy-efficiency optimizat...
This dissertation describes a utilization-based power modeling approach that makes use of the /proc ...
This dissertation describes a utilization-based power modeling approach that makes use of the /proc ...
Data centers as a cost-effective infrastructure for hosting Cloud and Grid applications incur tremen...
International audienceData centers are energy-hungry facilities. Building energy consumption predict...
Recently, energy has become an important issue in high-performance computing. For example, supercomp...
Power consumption and process variability are two important, interconnected, challenges of future ge...
Energy systems research strongly relies on large modeling frameworks. Many of them use linear optimi...
Although users of high-performance computing are most interested in raw performance, both energy and...
Future large scale high performance supercomputer systems require high energy efficiency to achieve ...
Full-system simulation frameworks such as gem5 are used extensively to evaluate research ideas and f...
Reduction of power consumption for any computer system is now an important issue, although this shou...
If cluster C1 consists of computers with a faster mean speed than the computers in cluster C2, does ...
Abstract—Studying the energy efficiency of large-scale computer systems requires models of the relat...
The data center industry is responsible for 1.5–2% of the world energy consumption. Energy managemen...
Abstract-Models of computers' power consumption enable a variety of energy-efficiency optimizat...
This dissertation describes a utilization-based power modeling approach that makes use of the /proc ...
This dissertation describes a utilization-based power modeling approach that makes use of the /proc ...
Data centers as a cost-effective infrastructure for hosting Cloud and Grid applications incur tremen...
International audienceData centers are energy-hungry facilities. Building energy consumption predict...
Recently, energy has become an important issue in high-performance computing. For example, supercomp...
Power consumption and process variability are two important, interconnected, challenges of future ge...
Energy systems research strongly relies on large modeling frameworks. Many of them use linear optimi...
Although users of high-performance computing are most interested in raw performance, both energy and...
Future large scale high performance supercomputer systems require high energy efficiency to achieve ...
Full-system simulation frameworks such as gem5 are used extensively to evaluate research ideas and f...
Reduction of power consumption for any computer system is now an important issue, although this shou...
If cluster C1 consists of computers with a faster mean speed than the computers in cluster C2, does ...