Paper Info
Title
SESAMES: A Smart-Grid Based Framework for Consuming Less and Better in Extreme-Scale Infrastructures.
Abstract
As they will gather hundreds of million cores, future exascale supercomputers will consume enormous amounts of energy. Besides being very important, their power consumption will be dynamic and irregular. Thus, in order to consume energy efficiently, powering such systems will require a permanent negotiation between the energy supplier and one of its major customers represented by exascale platforms. In this paper, we present SESAMES, a smart and energy-aware service-oriented architecture manager that proposes energy-efficient services for exascale applications and provides an optimized reservation scheduling. The paper focuses on the new features of this framework which are the design of a smart grid and a multi-criteria green job scheduler. Simulation results show that with the proposed multi-criteria job scheduler, we are able to save up to 2.32 % in terms of energy consumption, 24.22 % in terms of financial cost and reduce up to 7.12 % the emissions of CO2.
Year
DOI
Venue
2013
10.1109/GreenCom-iThings-CPSCom.2013.52
GreenCom/iThings/CPScom
Keywords
Field
DocType
multi-criteria green job scheduler,power consumption,energy supplier,extreme-scale infrastructures,energy-aware service-oriented architecture manager,exascale application,energy consumption,smart grid,exascale platform,proposed multi-criteria job scheduler,future exascale supercomputers
Reservation,Architecture,Smart grid,Scheduling (computing),Computer science,Job scheduler,Green job,Energy consumption,Negotiation,Distributed computing,Embedded system
Conference
Citations 
PageRank 
References 
1
0.39
11
Authors
3
Name
Order
Citations
PageRank
Mohammed el Mehdi Diouri1595.08
Olivier Glück2728.06
Laurent Lefèvre339550.87