An Energy-Aware Agent-Based Resource Allocation Using Targeted Load Balancer for Improving Quality of Service in Cloud Environment

IF 1.1 4区计算机科学 Q3 COMPUTER SCIENCE, CYBERNETICS

Cybernetics and Systems Pub Date : 2023-01-20 DOI:10.1080/01969722.2023.2166247

Umamageswaran Jambulingam, K. Balasubadra

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引用次数: 0

Abstract

Abstract In order to manage the load on dispersed data centers and cut down on energy established on time usage, agent-based resource allocation is given attention. Using a targeted load balancer (TLB), we suggest an energy-aware agent-based resource allocation in this research to enhance quality of service in a cloud setting. This agent is first set up to keep track of the resource load resulting from the request that has been assigned a job. Cloud watch also keeps an eye on energy levels to determine the typical payload size of resource execution. The TLB establishes new instance state to assign the resource based on the payload weight. To shorten the execution time, the dynamic hyper switching model develops a balancing mechanism. The suggested system achieves high performance in resource management by creating load balancer that is efficiently targeted to cut down on computation time and cost depending on energy levels. In comparison to existing techniques, the suggested parallelized homogeneous job in the cloud environment produces greater performance up to 95.5% while maintaining the time execution utilizing switching state of execution. This maintains the reduced CPU consumption, which dependent on the lowering of temporal complexity.

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一种基于能量感知代理的资源分配，使用目标负载均衡器提高云环境中的服务质量

摘要为了管理分散数据中心的负载，减少基于时间的能源消耗，基于agent的资源分配受到关注。在本研究中，我们建议使用目标负载平衡器(TLB)进行基于能量感知代理的资源分配，以提高云环境中的服务质量。首先设置此代理来跟踪分配作业的请求所产生的资源负载。Cloud watch还关注能量水平，以确定资源执行的典型有效负载大小。TLB根据负载权重建立新的实例状态来分配资源。为了缩短执行时间，动态超交换模型开发了一种平衡机制。建议的系统通过创建负载平衡器来实现高性能的资源管理，该负载平衡器有效地减少了计算时间和成本，这取决于能量水平。与现有技术相比，建议在云环境中并行化同构作业产生更高的性能，最高可达95.5%，同时利用切换执行状态保持时间执行。这样可以降低CPU消耗，这取决于时间复杂度的降低。

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

Cybernetics and Systems 工程技术-计算机：控制论

CiteScore

4.30

自引率

5.90%

发文量

审稿时长

>12 weeks

期刊介绍： Cybernetics and Systems aims to share the latest developments in cybernetics and systems to a global audience of academics working or interested in these areas. We bring together scientists from diverse disciplines and update them in important cybernetic and systems methods, while drawing attention to novel useful applications of these methods to problems from all areas of research, in the humanities, in the sciences and the technical disciplines. Showing a direct or likely benefit of the result(s) of the paper to humankind is welcome but not a prerequisite. We welcome original research that: -Improves methods of cybernetics, systems theory and systems research- Improves methods in complexity research- Shows novel useful applications of cybernetics and/or systems methods to problems in one or more areas in the humanities- Shows novel useful applications of cybernetics and/or systems methods to problems in one or more scientific disciplines- Shows novel useful applications of cybernetics and/or systems methods to technical problems- Shows novel applications in the arts