MetaNet: Automated Dynamic Selection of Scheduling Policies in Cloud Environments

Q1 Computer Science IEEE Cloud Computing Pub Date : 2022-05-21 DOI:10.1109/CLOUD55607.2022.00056

Shreshth Tuli, G. Casale, N. Jennings

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Abstract

Task scheduling is a well-studied problem in the context of optimizing the Quality of Service (QoS) of cloud computing environments. In order to sustain the rapid growth of computational demands, one of the most important QoS metrics for cloud schedulers is the execution cost. In this regard, several data-driven deep neural networks (DNNs) based schedulers have been proposed in recent years to allow scalable and efficient resource management in dynamic workload settings. However, optimal scheduling frequently relies on sophisticated DNNs with high computational needs implying higher execution costs. Further, even in non-stationary environments, sophisticated schedulers might not always be required and we could briefly rely on low-cost schedulers in the interest of cost-efficiency. Therefore, this work aims to solve the non-trivial meta problem of online dynamic selection of a scheduling policy using a surrogate model called MetaNet. Unlike traditional solutions with a fixed scheduling policy, MetaNet on-the-fly chooses a scheduler from a large set of DNN based methods to optimize task scheduling and execution costs in tandem. Compared to state-of-the-art DNN schedulers, this allows for improvement in execution costs, energy consumption, response time and service level agreement violations by up to 11, 43, 8 and 13 percent, respectively.

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MetaNet:云环境下调度策略的自动动态选择

任务调度是云计算环境下优化服务质量(QoS)的一个研究热点问题。为了维持快速增长的计算需求，云调度器最重要的QoS指标之一是执行成本。在这方面，近年来提出了几种基于数据驱动的深度神经网络(dnn)调度器，以允许在动态工作负载设置中进行可扩展和有效的资源管理。然而，最优调度往往依赖于复杂的深度神经网络，具有高计算需求，这意味着更高的执行成本。此外，即使在非固定环境中，也可能并不总是需要复杂的调度器，我们可以简单地依靠低成本的调度器来提高成本效率。因此，这项工作旨在解决在线动态选择调度策略的重要元问题，使用称为MetaNet的代理模型。与具有固定调度策略的传统解决方案不同，MetaNet实时从大量基于深度神经网络的方法中选择调度程序，以同步优化任务调度和执行成本。与最先进的DNN调度器相比，这允许在执行成本、能耗、响应时间和服务级别协议违反方面分别提高11%、43%、8%和13%。

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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来源期刊

IEEE Cloud Computing Computer Science-Computer Networks and Communications

CiteScore

11.20

自引率

0.00%

发文量

期刊介绍： Cessation. IEEE Cloud Computing is committed to the timely publication of peer-reviewed articles that provide innovative research ideas, applications results, and case studies in all areas of cloud computing. Topics relating to novel theory, algorithms, performance analyses and applications of techniques are covered. More specifically: Cloud software, Cloud security, Trade-offs between privacy and utility of cloud, Cloud in the business environment, Cloud economics, Cloud governance, Migrating to the cloud, Cloud standards, Development tools, Backup and recovery, Interoperability, Applications management, Data analytics, Communications protocols, Mobile cloud, Private clouds, Liability issues for data loss on clouds, Data integration, Big data, Cloud education, Cloud skill sets, Cloud energy consumption, The architecture of cloud computing, Applications in commerce, education, and industry, Infrastructure as a Service (IaaS), Platform as a Service (PaaS), Software as a Service (SaaS), Business Process as a Service (BPaaS)