This paper presented a hierarchical power management architecture which aims to facilitate power-awareness in an Energy-Managed Computer (EMC) system with multiple components. The proposed architecture divides PM function into two layers: system-level and component-level. The system-level hierarchical PM was formulated as a concurrent service request flow regulation and application scheduling problem. Experimental results showed that a 25% reduction in the total system energy can be achieved compared to the optimal component-level DPM policy
Description
Hierarchical power management with application to scheduling
%0 Conference Paper
%1 rong05hierarchical
%A Rong, Peng
%A Pedram, Massoud
%B ISLPED '05: Proceedings of the 2005 international symposium on Low power electronics and design
%C New York, NY, USA
%D 2005
%I ACM
%K Management Power cross-layer hierarchical
%P 269--274
%R http://doi.acm.org/10.1145/1077603.1077667
%T Hierarchical power management with application to scheduling
%U http://portal.acm.org/citation.cfm?id=1077667&dl=GUIDE&coll=GUIDE&CFID=62256660&CFTOKEN=30798963
%X This paper presented a hierarchical power management architecture which aims to facilitate power-awareness in an Energy-Managed Computer (EMC) system with multiple components. The proposed architecture divides PM function into two layers: system-level and component-level. The system-level hierarchical PM was formulated as a concurrent service request flow regulation and application scheduling problem. Experimental results showed that a 25% reduction in the total system energy can be achieved compared to the optimal component-level DPM policy
%@ 1-59593-137-6
@inproceedings{rong05hierarchical,
abstract = {This paper presented a hierarchical power management architecture which aims to facilitate power-awareness in an Energy-Managed Computer (EMC) system with multiple components. The proposed architecture divides PM function into two layers: system-level and component-level. The system-level hierarchical PM was formulated as a concurrent service request flow regulation and application scheduling problem. Experimental results showed that a 25% reduction in the total system energy can be achieved compared to the optimal component-level DPM policy},
added-at = {2009-11-18T17:10:15.000+0100},
address = {New York, NY, USA},
author = {Rong, Peng and Pedram, Massoud},
biburl = {https://www.bibsonomy.org/bibtex/2e256c1ab8f2a90f0c28773b91345b436/derkling},
booktitle = {ISLPED '05: Proceedings of the 2005 international symposium on Low power electronics and design},
description = {Hierarchical power management with application to scheduling},
doi = {http://doi.acm.org/10.1145/1077603.1077667},
interhash = {89d15d4e38a14514bb1a8895b2755efb},
intrahash = {e256c1ab8f2a90f0c28773b91345b436},
isbn = {1-59593-137-6},
keywords = {Management Power cross-layer hierarchical},
location = {San Diego, CA, USA},
pages = {269--274},
publisher = {ACM},
timestamp = {2009-11-18T17:10:15.000+0100},
title = {Hierarchical power management with application to scheduling},
url = {http://portal.acm.org/citation.cfm?id=1077667&dl=GUIDE&coll=GUIDE&CFID=62256660&CFTOKEN=30798963},
year = 2005
}