Modeling the Fault Tolerance Consequences of Deduplication

Modern storage systems are employing data deduplication with increasing frequency. Often the storage systems on which these techniques are deployed contain important data, and utilize fault-tolerant hardware and software to improve the reliability of the system and reduce data loss. We suggest that...

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Hauptverfasser:	Rozier, E. W. D., Sanders, W. H., Pin Zhou, Mandagere, N., Uttamchandani, S. M., Yakushev, M. L.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Analytical models Data models deduplication Fault tolerance Fault tolerant systems Hardware reliability storage systems Target tracking UDE
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creator	Rozier, E. W. D. Sanders, W. H. Pin Zhou Mandagere, N. Uttamchandani, S. M. Yakushev, M. L.
description	Modern storage systems are employing data deduplication with increasing frequency. Often the storage systems on which these techniques are deployed contain important data, and utilize fault-tolerant hardware and software to improve the reliability of the system and reduce data loss. We suggest that data deduplication introduces inter-file relationships that may have a negative impact on the fault tolerance of such systems by creating dependencies that can increase the severity of data loss events. We present a framework composed of data analysis methods and a model of data deduplication that is useful in studying the reliability impact of data deduplication. The framework is useful for determining a deduplication strategy that is estimated to satisfy a set of reliability constraints supplied by a user.
doi_str_mv	10.1109/SRDS.2011.18
format	Conference Proceeding
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Analytical models Data models deduplication Fault tolerance Fault tolerant systems Hardware reliability storage systems Target tracking UDE
title	Modeling the Fault Tolerance Consequences of Deduplication
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