基于网格熟人的分布式元调度多智能体模型

V. Kamla, J. E. N. Mboula, Jeremie Serge Wouansi Towo, C. T. Djamégni
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引用次数: 0

摘要

计算机网格是包含异构、自治和地理分布节点的系统。这些资源的管理是元调度器的工作,它将工作分配给作为网格一部分的节点,例如集群,而集群又有自己的本地调度器。本文提出了一种新的多智能体分布式元调度模型。我们的模型一方面受益于熟人网络任务分配模式的灵活性,降低了决策沟通的复杂性;另一方面受益于双拍卖销售,使客户和资源提供者之间相互满意。多属性效用理论(MAUT)用于两者的更现实的收益。经过仿真,通过比较性能分析,我们表明我们的模型在客户和供应商满意度方面比目前六种最先进的元调度算法有更好的贡献。必须提到容错等其他定性资产。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Grid's Acquaintance-Based Multiagent Model of Distributed Meta-Scheduling
Computer grids are systems containing heterogeneous, autonomous and geographically distributed nodes. The management of these resources is the works of the meta-scheduler, who allocates work the nodes that are part of a grid, such as clusters, which in turn, have their own local schedulers. In this work we propose a new multi-agent distributed meta-scheduling model. Our model takes, on one hand, benefit from the flexibility of task allocation mode of acquaintances network to reduce the complexity of communication in decision-making, and secondly of the double auction sales to bring a mutual satisfaction between customers and resource providers. The Multi-Attribute Utility Theory (MAUT) is used for a more realistic gain of both. After simulation, through comparative performance analyzes, we show that our model has better contribution in terms of customer and supplier satisfaction than six current state-of-art meta-scheduling algorithms. Other qualitative assets as fault tolerance have to be mentioned.
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