Dynamic and adaptive load balancing in transaction oriented grid service

2016 2nd International Conference on Green High Performance Computing (ICGHPC) Pub Date : 2016-02-01 DOI:10.1109/ICGHPC.2016.7508067

D. P. Mahato, A. Maurya, A. Tripathi, Ravi Shankar Singh

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引用次数: 12

Abstract

Dynamic and decentralized load balancing in transaction oriented grid service is a challenge due to its heterogeneous, real-time, autonomous and adaptive nature. The execution of these services increases the loads on the processing nodes or the required resources at the time of task recovery from failures. The task recovery may be of two types: local level and replicated level. In both the cases, the job queues at global nodes and local nodes are crowded with incoming new and older failed tasks. This paper presents a sender-initiated dynamic and adaptive load balancing approach (SI-DALB) based model using hypercube topology. The proposed model is based on Coloured Petri Nets (CPNs) and uses decentralized approach to balance and manage the load distributions among resources. Experimental results are validated and compared with the model consisting NoLB (No load balancing) approach. The experimental results show that the proposed algorithm is better and effective in distributing and balancing the loads of transaction oriented grid service.

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面向事务网格服务的动态自适应负载平衡

由于面向事务的网格服务具有异构性、实时性、自治性和自适应性等特点，动态和分散的负载平衡是一个挑战。这些服务的执行增加了处理节点的负载，或者在任务从故障中恢复时所需的资源。任务恢复有两种类型:本地级和复制级。在这两种情况下，全局节点和本地节点上的作业队列都挤满了传入的新任务和旧的失败任务。提出了一种基于超立方体拓扑结构的动态自适应负载均衡模型。该模型基于彩色Petri网(cpn)，并使用分散的方法来平衡和管理资源之间的负载分布。对实验结果进行了验证，并与NoLB (No load balancing)方法组成的模型进行了比较。实验结果表明，该算法能够较好地实现面向事务的网格服务负载的分配和均衡。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2016 2nd International Conference on Green High Performance Computing (ICGHPC)

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