Vinodh Venkatesan scite author profile

Vinodh Venkatesan

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5Publications

118Citation Statements Received

46Citation Statements Given

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Affiliations

IBM Research - Zurich, IBM (United States)

Publications

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The Discrete-Time Poisson Channel at Low Input Powers

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et al. 2011

IEEE Trans. Inform. Theory

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The asymptotic capacity at low input powers of an averagepower limited or an average-and peak-power limited discretetime Poisson channel is considered. For a Poisson channel whose dark current is zero or decays to zero linearly with its average input power E, capacity scales like E log 1 E for small E. For a Poisson channel whose dark current is a nonzero constant, capacity scales, to within a constant, like E log log 1 E for small E.

A General Reliability Model for Data Storage Systems

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2012

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Effect of Replica Placement on the Reliability of Large-Scale Data Storage Systems

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et al. 2010

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Abstract-Replication is a widely used method to protect largescale data storage systems from data loss when storage nodes fail. It is well known that the placement of replicas of the different data blocks across the nodes affects the time to rebuild. Several systems described in the literature are designed based on the premise that minimizing the rebuild times maximizes the system reliability. Our results however indicate that the reliability is essentially unaffected by the replica placement scheme. We show that, for a replication factor of two, all possible placement schemes have mean times to data loss (MTTDLs) within a factor of two for practical values of the failure rate, storage capacity, and rebuild bandwidth of a storage node. The theoretical results are confirmed by means of event-driven simulation. For higher replication factors, an analytical derivation of MTTDL becomes intractable for a general placement scheme. We therefore use one of the alternate measures of reliability that have been proposed in the literature, namely, the probability of data loss during rebuild in the critical mode of the system. Whereas for a replication factor of two this measure can be directly translated into MTTDL, it is only speculative of the MTTDL behavior for higher replication factors. This measure of reliability is shown to lie within a factor of two for all possible placement schemes and any replication factor. We also show that for any replication factor, the clustered placement scheme has the lowest probability of data loss during rebuild in critical mode among all possible placement schemes, whereas the declustered placement scheme has the highest probability. Simulation results reveal however that these properties do not hold for the corresponding MTTDLs for a replication factor greater than two. This indicates that some alternate measures of reliability may not be appropriate for comparing the MTTDL of different placement schemes.

Effect of Latent Errors on the Reliability of Data Storage Systems

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2013

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Reliability of Clustered vs. Declustered Replica Placement in Data Storage Systems

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et al. 2011

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Abstract-The placement of replicas across storage nodes in a replication-based storage system is known to affect rebuild times and therefore system reliability. Earlier work has shown that, for a replication factor of two, the reliability is essentially unaffected by the replica placement scheme because all placement schemes have mean times to data loss (MTTDLs) within a factor of two for practical values of the failure rate, storage capacity, and rebuild bandwidth of a storage node. However, for higher replication factors, simulation results reveal that this no longer holds. Moreover, an analytical derivation of MTTDL becomes intractable for general placement schemes. In this paper, we develop a theoretical model that is applicable for any replication factor and provides a good approximation of the MTTDL for small failure rates. This model characterizes the system behavior by using an analytically tractable measure of reliability: the probability of the shortest path to data loss following the first node failure. It is shown that, for highly reliable systems, this measure approximates well the probability of all paths to data loss after the first node failure and prior to the completion of rebuild, and leads to a rough estimation of the MTTDL. The results obtained are of theoretical and practical importance and are confirmed by means of simulations. As our results show, the declustered placement scheme, contrary to intuition, offers a reliability for replication factors greater than two that does not decrease as the number of nodes in the system increases.

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