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Paper detail

Data Replication for Reducing Computing Time in Distributed Systems with Stragglers

In distributed computing systems with stragglers, various forms of redundancy can improve the average delay performance. We study the optimal replication of data in systems where the job execution time is a stochastically decreasing and convex random variable. We show that in such systems, the optimum assignment policy is the balanced replication of disjoint batches of data. Furthermore, for Exponential and Shifted-Exponential service times, we derive the optimum redundancy levels for minimizing both expected value and the variance of the job completion time. Our analysis shows that, the optimum redundancy level may not be the same for the two metrics, thus there is a trade-off between reducing the expected value of the completion time and reducing its variance.

preprint2019arXivOpen access
Amir Behrouzi-FarEmina Soljanin
math.ITInformation TheoryDistributed, Parallel, and Cluster Computing
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Amir Behrouzi-FarEmina Soljanin

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