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eSplash: Efficient Speculation in Large Scale Heterogeneous Computing Systems
35th IEEE International Performance Computing and Communications Conference (IPCCC 2016) (2016)
  • Jiayin Wang
  • Teng Wang
  • ZHENGYU YANG, Northeastern University
  • Ningfang Mi
  • Bo Sheng
Abstract
In this paper, we aim to develop an efficient speculation framework for a heterogeneous cluster. Speculation is a common mechanism that identifies ‘slow’ node in a cluster and starts redundant tasks on other nodes to guarantee the reliability. We consider MapReduce/Hadoop as a representative computing platform, and our general goal is to accurately and quickly identify the straggler nodes during the job execution. On the one hand, our approach significantly reduces unnecessary speculative executions that occupy system resources, but do not get finished. On the other hand, when a node is prone to failure, our solution is able to detect it at an early stage and effectively launch a speculative task to avoid the delay in the job execution. We implement our solution in Hadoop platform and evaluate it with extensive experiments. The results show that our solution is efficient and effective when handling the speculative execution. The job execution time in our system is superior to that in the current Hadoop distribution.
Disciplines
Publication Date
2016
Citation Information
Jiayin Wang, Teng Wang, ZHENGYU YANG, Ningfang Mi, et al.. "eSplash: Efficient Speculation in Large Scale Heterogeneous Computing Systems" 35th IEEE International Performance Computing and Communications Conference (IPCCC 2016) (2016)
Available at: http://works.bepress.com/zhengyuyang/6/