In this work, we design techniques to use energy instrumentation to study the health and workloads of a computing system. Analysis of energy consumption with the goal of understanding the computing system in an uncontrolled environment is an open research area. The main challenge is to infer the system state only from discrete time-series energy data. We have analyzed power-consumption data on computing systems. Our focus is on how to distinguish various events and how to reveal the health of the system. In addition to studying the data collected in a laboratory environment, we have analyzed 3-years of continuous energy measurements of a large enterprise computing environment. We can infer system health, failures, activities, and trends ...
International audienceWhile distributed computing infrastructures can provide infrastructure-level t...
Recognition of the importance of power in the field of High Performance Computing, whether it be as ...
Devices, like Smartphones, tablets, notebooks, desktop computers, smart televisions are all connecte...
The ever-increasing ecological footprint of Information Technology (IT) sector coupled with adverse ...
Context: In the present world, there is an increase in the usage of com- munication services. The gr...
High-performance computing platforms have become critical in meeting the demands of modern computing...
International audienceEnergy efficient policies are being applied to network protocols, devices and ...
This chapter provides an introduction to quantifying the energy consumed by software. It is written ...
International audienceLarge-scale distributed systems (e.g., datacenters, HPC systems, clouds, large...
Recognition of the importance of power in the field of High Performance Computing, whether it be as ...
International audienceLarge-scale distributed systems (e.g., datacenters, HPC systems, clouds, large...
Energy efficiency is a major criterion for computing in general and High Performance Computing in pa...
Society's increasing dependence on information technology has resulted in the deployment of vast com...
International audienceWhile distributed computing infrastructures can provide infrastructure-level t...
Recognition of the importance of power in the field of High Performance Computing, whether it be as ...
Devices, like Smartphones, tablets, notebooks, desktop computers, smart televisions are all connecte...
The ever-increasing ecological footprint of Information Technology (IT) sector coupled with adverse ...
Context: In the present world, there is an increase in the usage of com- munication services. The gr...
High-performance computing platforms have become critical in meeting the demands of modern computing...
International audienceEnergy efficient policies are being applied to network protocols, devices and ...
This chapter provides an introduction to quantifying the energy consumed by software. It is written ...
International audienceLarge-scale distributed systems (e.g., datacenters, HPC systems, clouds, large...
Recognition of the importance of power in the field of High Performance Computing, whether it be as ...
International audienceLarge-scale distributed systems (e.g., datacenters, HPC systems, clouds, large...
Energy efficiency is a major criterion for computing in general and High Performance Computing in pa...
Society's increasing dependence on information technology has resulted in the deployment of vast com...
International audienceWhile distributed computing infrastructures can provide infrastructure-level t...
Recognition of the importance of power in the field of High Performance Computing, whether it be as ...
Devices, like Smartphones, tablets, notebooks, desktop computers, smart televisions are all connecte...