A CRITICAL-PATH AND TOP-LEVEL ATTRIBUTES BASED TASK SCHEDULING ALGORITHM FOR DAG (CPTL)

Nidhi Rajak, Anurag Dixit Ranjit Rajak
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引用次数: 1

Abstract

Parallel computing is an important area of research. It is used from scientific to commercial applications. Task scheduling is one of the important research areas of parallel computing. The major objective of any task scheduling algorithm is to minimize the execution time i.e. to reduce the scheduling length. Here, an application program is represented by a directed acyclic graph (DAG). In this paper, we have proposed an efficient CPTL scheduling algorithm which is based on two well-known attributes: Critical Path (CP), and Top-level (T-level). This algorithm is calculated the difference between CP and t-level, which is called CPT attribute. This attribute used as a priority of the tasks, and allocated these tasks on multiprocessor system. The proposed algorithm outperforms over the existing heuristic algorithms such as HLEFT, MCP, ETF, and DLS. CPTL algorithm gives minimum scheduling length. The comparison has been done based on following metrics: scheduling length, speedup, efficiency, load balancing, and normalized scheduling length.
基于关键路径和顶层属性的dag (cptl)任务调度算法
并行计算是一个重要的研究领域。它从科学应用到商业应用。任务调度是并行计算的重要研究领域之一。任何任务调度算法的主要目标都是最小化执行时间,即减少调度长度。在这里,应用程序用有向无环图(DAG)表示。本文提出了一种基于关键路径(Critical Path, CP)和顶层(Top-level, T-level)属性的高效CPTL调度算法。该算法计算CP与t-level之间的差值,称为CPT属性。此属性用作任务的优先级,并在多处理器系统上分配这些任务。该算法优于现有的启发式算法,如HLEFT、MCP、ETF和DLS。CPTL算法给出最小调度长度。比较基于以下指标:调度长度、加速、效率、负载平衡和规范化调度长度。
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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