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Requirement-aware strategies for scheduling real-time divisible loads on clusters

机译:调度集群上实时可分负载的需求感知策略

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摘要

This paper investigates the real-time scheduling problem for handling heterogeneous divisible loads on cluster systems. Divisible load applications occur in many Fields of science and engineering. Such applications can be easily parallelized in a master-worker fashion, but pose several scheduling challenges. We consider divisible loads associated with deadlines to enhance quality-of-service (QoS) and provide performance guarantees in distributed computing environments. In addition, since the divisible loads to be performed may widely vary in terms of their required hardware and software, we capture the loads' various processing requirements in our load distribution strategies, a unique feature that is applicable for running proprietary applications only on certain eligible processing nodes. Thus in our problem formulation each load can only be processed by certain processors as both the loads and processors are heterogeneous. We propose scheduling algorithms referred to as Requirements-Aware Real-Time Scheduling (RARTS) algorithms, which consist of a novel scheduling policy, referred to as Minimum Slack Capacity First (MSCF), and two multi-round load distribution strategies, referred to as All Eligible Processors (AEP) and Least Capability First (LCF). We perform rigorous performance evaluation studies to quantify the performance of our strategies on a variety of scenarios.
机译:本文研究了用于处理集群系统上异构可分负载的实时调度问题。可分负荷应用发生在科学和工程的许多领域。这样的应用程序可以很容易地以主从方式并行化,但是会带来一些调度挑战。我们考虑与截止日期相关的可分割负载,以提高服务质量(QoS)并在分布式计算环境中提供性能保证。此外,由于要执行的可分割负载在所需的硬件和软件方面可能存在很大差异,因此我们在负载分配策略中捕获了负载的各种处理要求,这一独特功能仅适用于仅在某些合格的设备上运行专有应用程序处理节点。因此,在我们的问题表述中,每个负载只能由某些处理器处理,因为负载和处理器都是异构的。我们提出了称为“需求感知实时调度(RARTS)”算法的调度算法,该算法由一种称为最小闲置容量优先(MSCF)的新颖调度策略和两种称为“最小松弛能力优先”的多轮负载分配策略组成。所有合格处理器(AEP)和最低能力优先(LCF)。我们进行严格的绩效评估研究,以量化我们在各种情况下策略的绩效。

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