Minimizing stall time in single and parallel disk systems

Albers, Susanne ; Garg, Naveen ; Leonardi, Stefano (2000) Minimizing stall time in single and parallel disk systems Journal of the ACM, 47 (6). pp. 969-986. ISSN 1535-9921

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Official URL: http://jacm.acm.org/archive.cfm?id=355541

Related URL: http://dx.doi.org/10.1145/355541.355542

Abstract

We study integrated prefetching and caching problems following the work of Cao et al. [1995] and Kimbrel and Karlin [1996]. Cao et al. and Kimbrel and Karlin gave approximation algorithms for minimizing the total elapsed time in single and parallel disk settings. The total elapsed time is the sum of the processor stall times and the length of the request sequence to be served. We show that an optimum prefetching/caching schedule for a single disk problem can be computed in polynomial time, thereby settling an open question by Kimbrel and Karlin. For the parallel disk problem, we give an approximation algorithm for minimizing stall time. The solution uses a few extra memory blocks in cache. Stall time is an important and harder to approximate measure for this problem. All of our algorithms are based on a new approach which involves formulating the prefetching/caching problems as linear programs.

Item Type:Article
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ID Code:101267
Deposited On:31 Jan 2018 09:10
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