Energy-efficient algorithms for flow time minimization

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Energy-efficient algorithms for flow time minimization

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ACM Transactions on Algorithms (TALG) archive
Volume 3 , Issue 4 (November 2007) table of contents

Article No. 49

Year of Publication: 2007

ISSN:1549-6325

Authors

Susanne Albers	University of Freiburg, Freiburg, Germany
Hiroshi Fujiwara	Kwansei Gakuin University, Sanda, Japan

Publisher

ACM New York, NY, USA

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Downloads (6 Weeks): 8, Downloads (12 Months): 116, Citation Count: 5

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ABSTRACT

We study scheduling problems in battery-operated computing devices, aiming at schedules with low total energy consumption. While most of the previous work has focused on finding feasible schedules in deadline-based settings, in this article we are interested in schedules that guarantee good response times. More specifically, our goal is to schedule a sequence of jobs on a variable-speed processor so as to minimize the total cost consisting of the energy consumption and the total flow time of all jobs.

We first show that when the amount of work, for any job, may take an arbitrary value, then no online algorithm can achieve a constant competitive ratio. Therefore, most of the article is concerned with unit-size jobs. We devise a deterministic constant competitive online algorithm and show that the offline problem can be solved in polynomial time.

REFERENCES

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CITED BY 5

	Tak-Wah Lam , Lap-Kei Lee , Isaac K. K. To , Prudence W. H. Wong, Competitive non-migratory scheduling for flow time and energy, Proceedings of the twentieth annual symposium on Parallelism in algorithms and architectures, June 14-16, 2008, Munich, Germany
	Marek Chrobak, SIGACT news online algorithms column 13: 2007 - an offine perspective, ACM SIGACT News, v.39 n.3, September 2008
	Hongyang Sun , Yangjie Cao , Wen-Jing Hsu, Non-clairvoyant speed scaling for batched parallel jobs on multiprocessors, Proceedings of the 6th ACM conference on Computing frontiers, May 18-20, 2009, Ischia, Italy
	Ho Leung Chan , Jeff Edmonds , Kirk Pruhs, Speed scaling of processes with arbitrary speedup curves on a multiprocessor, Proceedings of the twenty-first annual symposium on Parallelism in algorithms and architectures, August 11-13, 2009, Calgary, AB, Canada
	Gero Greiner , Tim Nonner , Alexander Souza, The bell is ringing in speed-scaled multiprocessor scheduling, Proceedings of the twenty-first annual symposium on Parallelism in algorithms and architectures, August 11-13, 2009, Calgary, AB, Canada