Comparing job allocation schemes where service demand is unknown

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In this paper a novel job allocation scheme in distributed systems (TAGS) is modelled using the Markovian process algebra PEPA. This scheme requires no prior knowledge of job size and has been shown to be more efficient than round robin and random allocation when the job size distribution is heavy tailed and the load is not high. In this paper the job size distribution is assumed to be of a phase-type and the queues are bounded. Numerical results are derived and compared with those derived from models employing random allocation and the shortest queue strategy. It is shown that TAGS can perform well for a range of performance metrics. Furthermore, an attempt is made to characterise those scenarios where TAGS is beneficial in terms of the coefficient of variation and load.

论文关键词:Load balancing,Scheduling,Performance modelling,Stochastic process algebra

论文评审过程:Received 1 November 2006, Revised 1 March 2007, Available online 20 July 2007.

论文官网地址:https://doi.org/10.1016/j.jcss.2007.07.009