TY - GEN
T1 - Markov model based disk power management for data intensive workloads
AU - Garg, Rajat
AU - Son, Seung Woo
AU - Kandemir, Mahmut
AU - Raghavan, Padma
AU - Prabhakar, Ramya
PY - 2009
Y1 - 2009
N2 - In order to meet the increasing demands of present and upcoming data-intensive computer applications, there has been a major shift in the disk subsystem, which now consists of more disks with higher storage capacities and higher rotational speeds. These have made the disk subsystem a major consumer of power, making disk power management an important issue. People have considered the option of spinning down the disk during periods of idleness or serving the requests at lower rotational speeds when performance is not an issue. Accurately predicting future disk idle periods is crucial to such schemes. This paper presents a novel disk-idleness prediction mechanism based onMarkov models and explains how this mechanism can be used in conjunction with a three-speed disk. Our experimental evaluation using a diverse set of workloads indicates that (i) prediction accuracies achieved by the proposed scheme are very good (87.5% on average); (ii) it generates significant energy savings over the traditional power-saving method of spinningdown the disk when idle (35.5% on average); (iii) it performs better than a previously proposed multi-speed disk management scheme (19% on average); and (iv) the performance penalty is negligible (less than 1%on average). Overall, our implementation and experimental evaluation using both synthetic disk traces and traces extracted from real applications demonstrate the feasibility of a Markov-model-based approach to saving disk power.
AB - In order to meet the increasing demands of present and upcoming data-intensive computer applications, there has been a major shift in the disk subsystem, which now consists of more disks with higher storage capacities and higher rotational speeds. These have made the disk subsystem a major consumer of power, making disk power management an important issue. People have considered the option of spinning down the disk during periods of idleness or serving the requests at lower rotational speeds when performance is not an issue. Accurately predicting future disk idle periods is crucial to such schemes. This paper presents a novel disk-idleness prediction mechanism based onMarkov models and explains how this mechanism can be used in conjunction with a three-speed disk. Our experimental evaluation using a diverse set of workloads indicates that (i) prediction accuracies achieved by the proposed scheme are very good (87.5% on average); (ii) it generates significant energy savings over the traditional power-saving method of spinningdown the disk when idle (35.5% on average); (iii) it performs better than a previously proposed multi-speed disk management scheme (19% on average); and (iv) the performance penalty is negligible (less than 1%on average). Overall, our implementation and experimental evaluation using both synthetic disk traces and traces extracted from real applications demonstrate the feasibility of a Markov-model-based approach to saving disk power.
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U2 - 10.1109/CCGRID.2009.67
DO - 10.1109/CCGRID.2009.67
M3 - Conference contribution
AN - SCOPUS:70349751512
SN - 9780769536224
T3 - 2009 9th IEEE/ACM International Symposium on Cluster Computing and the Grid, CCGRID 2009
SP - 76
EP - 83
BT - 2009 9th IEEE/ACM International Symposium on Cluster Computing and the Grid, CCGRID 2009
T2 - 2009 9th IEEE/ACM International Symposium on Cluster Computing and the Grid, CCGRID 2009
Y2 - 18 May 2009 through 21 May 2009
ER -