Conference Proceedings
Stochastic analysis of power-aware scheduling
A Wierman, LLH Andrew, A Tang
46th Annual Allerton Conference on Communication Control and Computing | IEEE | Published : 2008
Abstract
Energy consumption in a computer system can be reduced by dynamic speed scaling, which adapts the processing speed to the current load. This paper studies the optimal way to adjust speed to balance mean response time and mean energy consumption, when jobs arrive as a Poisson process and processor sharing scheduling is used. Both bounds and for the optimal speeds are provided. Interestingly, a simple scheme that halts when the system is idle and uses a static rate while the system is busy provides nearly the same performance as the optimal dynamic speed scaling. However, dynamic speed scaling which allocates a higher speed when more jobs are present significantly improves robustness to bursty..
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Awarded by NSF
Awarded by Direct For Computer & Info Scie & Enginr; Office of Advanced Cyberinfrastructure (OAC)
Awarded by Division of Computing and Communication Foundations; Direct For Computer & Info Scie & Enginr
Funding Acknowledgements
This work was supported by grants from NSF CCF 0830511 and CNS 0435520, Microsoft Research and the Lee Center for Advanced Networking.