Uncertainty Aware T2SS Based Dyna-Q-Learning Framework for Task Scheduling in Grid Computing

IF 1.2 Q4 COMPUTER SCIENCE, INFORMATION SYSTEMS Cybernetics and Information Technologies Pub Date : 2022-09-01 DOI:10.2478/cait-2022-0027
K. Bhargavi, S. Shiva
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引用次数: 2

Abstract

Abstract Task scheduling is an important activity in parallel and distributed computing environment like grid because the performance depends on it. Task scheduling gets affected by behavioral and primary uncertainties. Behavioral uncertainty arises due to variability in the workload characteristics, size of data and dynamic partitioning of applications. Primary uncertainty arises due to variability in data handling capabilities, processor context switching and interplay between the computation intensive applications. In this paper behavioral uncertainty and primary uncertainty with respect to tasks and resources parameters are managed using Type-2-Soft-Set (T2SS) theory. Dyna-Q-Learning task scheduling technique is designed over the uncertainty free tasks and resource parameters. The results obtained are further validated through simulation using GridSim simulator. The performance is good based on metrics such as learning rate, accuracy, execution time and resource utilization rate.
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网格计算中基于不确定性感知T2SS的任务调度动态q学习框架
摘要任务调度是网格等并行分布式计算环境中的一项重要活动,其性能取决于它。行为不确定性是由于工作负载特性、数据大小和应用程序动态分区的可变性而产生的。主要的不确定性是由于数据处理能力的可变性、处理器上下文切换以及计算密集型应用程序之间的相互作用而产生的。在本文中,使用类型2软集(T2SS)理论来管理与任务和资源参数有关的行为不确定性和初级不确定性。Dyna-Q-Learning任务调度技术是在没有不确定性的任务和资源参数的情况下设计的。通过使用GridSim模拟器进行仿真,进一步验证了所获得的结果。基于学习率、准确性、执行时间和资源利用率等指标,性能良好。
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来源期刊
Cybernetics and Information Technologies
Cybernetics and Information Technologies COMPUTER SCIENCE, INFORMATION SYSTEMS-
CiteScore
3.20
自引率
25.00%
发文量
35
审稿时长
12 weeks
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