Sequential grid computing: Models and computational experiments

Authors

Sam Ransbotham
Ishwar Murthy
Sabyasachi Mitra
Sridhar Narasimhan

Document Type

Working Paper

Abstract

Through recent technical advances, multiple resources can be connected to provide a computing grid for processing computationally intensive applications. In this paper, we build on an approach termed sequential grid computing that takes advantage of idle processing power, by routing jobs that require lengthy processing through a sequence of processors. We present two models that solve the static and dynamic versions of the sequential grid scheduling problem for a single job. In both static and dynamic versions, the model maximizes a reward function tied to the probability of completion within service level agreement parameters. In the dynamic version, the static model is modified to accommodate real-time deviations from the plan. We then extend the static model to accommodate multiple jobs. Extensive computational experiments highlight situations where (a) the models provide improvements over scheduling the job on a single processor, and b) the factors that affect the quality of solutions obtained

Publication Date

1-4-2009

Publisher

Indian Institute of Management Bangalore

Pagination

35p.

Recommended Citation

Ransbotham, Sam; Murthy, Ishwar; Mitra, Sabyasachi; and Narasimhan, Sridhar, "Sequential grid computing: Models and computational experiments" (2009). Working Papers. 292.
https://research.iimb.ac.in/work_papers/292

Relation

IIMB Working Paper-292