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MRPack: Multi-Algorithm Execution Using Compute-Intensive Approach in MapReduce

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  • Muhammad Idris
  • Shujaat Hussain
  • Muhammad Hameed Siddiqi
  • Waseem Hassan
  • Hafiz Syed Muhammad Bilal
  • Sungyoung Lee

Abstract

Large quantities of data have been generated from multiple sources at exponential rates in the last few years. These data are generated at high velocity as real time and streaming data in variety of formats. These characteristics give rise to challenges in its modeling, computation, and processing. Hadoop MapReduce (MR) is a well known data-intensive distributed processing framework using the distributed file system (DFS) for Big Data. Current implementations of MR only support execution of a single algorithm in the entire Hadoop cluster. In this paper, we propose MapReducePack (MRPack), a variation of MR that supports execution of a set of related algorithms in a single MR job. We exploit the computational capability of a cluster by increasing the compute-intensiveness of MapReduce while maintaining its data-intensive approach. It uses the available computing resources by dynamically managing the task assignment and intermediate data. Intermediate data from multiple algorithms are managed using multi-key and skew mitigation strategies. The performance study of the proposed system shows that it is time, I/O, and memory efficient compared to the default MapReduce. The proposed approach reduces the execution time by 200% with an approximate 50% decrease in I/O cost. Complexity and qualitative results analysis shows significant performance improvement.

Suggested Citation

  • Muhammad Idris & Shujaat Hussain & Muhammad Hameed Siddiqi & Waseem Hassan & Hafiz Syed Muhammad Bilal & Sungyoung Lee, 2015. "MRPack: Multi-Algorithm Execution Using Compute-Intensive Approach in MapReduce," PLOS ONE, Public Library of Science, vol. 10(8), pages 1-18, August.
  • Handle: RePEc:plo:pone00:0136259
    DOI: 10.1371/journal.pone.0136259
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    Cited by:

    1. Hangfei Huang & Keping Li & Paul Schonfeld, 2018. "Real-time energy-saving metro train rescheduling with primary delay identification," PLOS ONE, Public Library of Science, vol. 13(2), pages 1-22, February.

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