A Two Stage Task Scheduler for Effective Load Optimization in Cloud – FoG Architectures

Day 1 Tue, September 21, 2021 Pub Date : 2021-11-09 DOI:10.36548/jei.2021.3.006

J. Manoharan

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Abstract

In recent times, computing technologies have moved over to a new dimension with the advent of cloud platforms which provide seamless rendering of required services to consumers either in static or dynamic state. In addition, the nature of data being handled in today’s scenario has also become sophisticated as mostly real time data acquisition systems equipped with High-Definition capture (HD) have become common. Lately, cloud systems have also become prone to computing overheads owing to huge volume of data being imparted on them especially in real time applications. To assist and simplify the computational complexity of cloud systems, FoG platforms are being integrated into cloud interfaces to streamline and provide computing at the edge nodes rather at the cloud core processors, thus accounting for reduction of load overhead on cloud core processors. This research paper proposes a Two Stage Load Optimizer (TSLO) implemented as a double stage optimizer with one being deployed at FoG level and the other at the Cloud level. The computational complexity analysis is extensively done and compared with existing benchmark methods and superior performance of the suggested method is observed and reported.

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一种用于云雾架构中有效负载优化的两阶段任务调度程序

最近，随着云平台的出现，计算技术已经进入了一个新的维度，云平台可以在静态或动态状态下为消费者提供所需服务的无缝呈现。此外，随着配备高清捕获(HD)的大多数实时数据采集系统变得普遍，在当今场景中处理的数据的性质也变得复杂。最近，云系统也变得容易产生计算开销，因为大量数据被传递给它们，尤其是在实时应用程序中。为了帮助和简化云系统的计算复杂性，FoG平台正被集成到云接口中，以简化并在边缘节点而不是云核心处理器上提供计算，从而减少云核心处理器的负载开销。本文提出了一种两阶段负载优化器(TSLO)，实现为双阶段优化器，其中一个部署在FoG级别，另一个部署在云级别。广泛地进行了计算复杂度分析，并与现有的基准方法进行了比较，观察和报道了所提出方法的优越性能。

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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Day 1 Tue, September 21, 2021

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