混合优化的多目标云负载均衡

Q2 Computer Science
Koppula Geeta, V. Kamakshi Prasad
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The developed method achieves the lowest server load in cloud environment 1 is 33.3%, 40%, 42.3%, 40.2%, 36.8%, 42.5%, 50%, 40.2%, 39.2% improved over MOA, ABC, CSO, SSO, SSA, ACSO, SMO, CMBO, BOA, DOX, and FF-PSO, respectively. Finally, the projected DCCO model has been evaluated in terms of makespan, memory usage, migration cost, response time, usage of power server load, turnaround time, throughput, and convergence.ABBREVIATION: CDC, cloud data center; CMODLB, Clustering-based Multiple Objective Dynamic Load Balancing As A Load Balancing; CSP, Cloud service providers; CSSA, Chaotic Squirrel Search Algorithm; DA, Dragonfly Algorithm; ED, Euclidean Distance; EDA-GA, Estimation Of Distribution Algorithm And GA; FF, FireFly algorithm; GA, Genetic Algorithm; HHO, Harris Hawk Optimization; IaaS, Infrastructure-as-a-Service; MGWO, Modified Mean Grey Wolf Optimization Algorithm; MMHHO, Mantaray modified multi-objective Harris Hawk optimization; MRFO, Manta Ray Forging Optimization; PaaS, Platform-as-a-Service; PM, Physical Machine; PSO, Particle Swarm Optimization; SaaS, Software-as-a-Service; SAW, Sample additive weighting; SLA-LB, Service Level Agreement-Based Load Balancing; TBTS, Threshold-Based Task Scheduling Algorithm; TS, Task SchedulingKEYWORDS: Cloud computingload balancingDCCOpower consumptionmemory utilizationmigration cost Disclosure statementNo potential conflict of interest was reported by the author(s).Additional informationNotes on contributorsKoppula GeetaKoppula Geeta, Currently working as Assistant Professor of Computer Science & Engineering at Rajiv Gandhi University of Knowledge Technologies Basar, She is having 18 years of teaching experience. 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Throughout his tenure, he has held various administrative roles within the University, including Additional Controller of Exams, Coordinator of TEQIP-II, Head of the Department of CSE, Controller of Exams, Director of Innovative Technologies, Director of Evaluation, and currently serves as the Chairperson of the Board of Studies for CSE and CSE allied branches. Additionally, he is actively involved as a member of the Board of Studies, Academic Councils, and Governing Bodies of several autonomous and non-autonomous colleges affiliated with JNTUH and other Universities. He has also served as the Visitor's (President of India) nominee for the Executive Council of MANUU, Hyderabad and as a board member of the School of Computer and Information Sciences (SCIS) at Hyderabad Central University. In recognition of his contributions, he received the Telangana Government's state teacher award for the year 2020.His research interests encompass a wide range of areas, including Quantum Computing, Machine Learning, Data Mining, Speech & Image Processing, and Theoretical Computer Science. He has successfully supervised 29 Ph.D. candidates and 3 MS degree holders, while currently guiding 8 more Ph.D. research scholars.","PeriodicalId":39673,"journal":{"name":"International Journal of Computers and Applications","volume":"96 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2023-09-28","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":"{\"title\":\"Multi-objective cloud load-balancing with hybrid optimization\",\"authors\":\"Koppula Geeta, V. 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引用次数: 1

摘要

摘要本研究在云计算平台上配置了一种基于混合多目标元启发式优化的负载均衡模型。物理机(PM)在收到处理云用户职责(“响应时间、周转时间和服务器负载”)的请求时,根据多个标准分配特定的虚拟机(VM),例如使用的内容量、迁移费用、电力使用和负载平衡设置。此外,利用最近提出的混合优化方法,选择最优虚拟机(VM)进行有效的负载均衡。基于猫和老鼠的优化器(CMBO)和标准野狗优化器(DXO)在概念上混合在一起,得到了被称为野狗定制猫老鼠优化(DCCO)的杂交方法。与MOA、ABC、CSO、SSO、SSA、ACSO、SMO、CMBO、BOA、DOX和FF-PSO相比,该方法在云环境1中的最低服务器负载分别提高了33.3%、40%、42.3%、40.2%、36.8%、42.5%、50%、40.2%、39.2%。最后,根据makespan、内存使用、迁移成本、响应时间、电源服务器负载的使用、周转时间、吞吐量和收敛性对预测的DCCO模型进行了评估。简称:CDC,云数据中心;基于聚类的多目标动态负载均衡(CMODLB)CSP,云服务提供商;混沌松鼠搜索算法;DA,蜻蜓算法;ED,欧氏距离;EDA-GA、分布估计算法与遗传算法FF, FireFly算法;遗传算法;HHO,哈里斯鹰优化;IaaS,“基础架构即服务”;修正平均灰狼优化算法;MMHHO, Mantaray改进的多目标Harris Hawk优化;Manta Ray锻造优化;PaaS平台;PM,物理机;粒子群优化;SaaS(软件即服务);SAW,样品添加剂称重;SLA-LB,基于服务水平协议的负载均衡;基于阈值的任务调度算法;关键词:云计算负载平衡dccp功耗内存利用率迁移成本披露声明作者未报告潜在的利益冲突。作者简介:目前在拉吉夫甘地知识技术大学担任计算机科学与工程助理教授,她有18年的教学经验。获南京理工大学理学士、理硕士学位。目前,她正在海德拉巴的JNTUH攻读博士学位。她的主要研究兴趣包括云计算、数据挖掘。V. Kamakshi Prasad教授,现任海德拉巴JNTUH工程科学与技术学院计算机科学与工程高级教授,拥有31年的教学和研究经验。他获得了学士学位。, M.Tech。分别获得印度理工学院、安得拉邦大学工程学院和印度理工学院马德拉斯分校的博士学位。1992年任南京理工大学副教授,2003年、2006年、2016年先后晋升为副教授、教授、高级教授。在他任职期间,他在大学担任过各种行政职务,包括额外的考试总监,TEQIP-II协调员,CSE部门负责人,考试总监,创新技术总监,评估总监,目前担任CSE和CSE联合分支机构的研究委员会主席。此外,他还积极参与研究委员会,学术委员会,以及JNTUH和其他大学附属的几所自治和非自治学院的管理机构。他还曾担任海得拉巴MANUU执行委员会的访客(印度总统)提名人,以及海得拉巴中央大学计算机与信息科学学院(SCIS)的董事会成员。为了表彰他的贡献,他获得了特伦甘纳邦政府颁发的2020年州教师奖。他的研究兴趣涵盖了广泛的领域,包括量子计算、机器学习、数据挖掘、语音和图像处理以及理论计算机科学。指导博士研究生29人,硕士研究生3人,目前指导博士研究生8人。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Multi-objective cloud load-balancing with hybrid optimization
AbstractIn this study, the cloud computing platform is equipped with a hybrid multi-objective meta-heuristic optimization-based load balancing model. Physical Machine (PM) allocates a specific virtual machine (VM) depending on multiple criteria, such as the amount of memory used, migration expenses, power usage, and the load balancing settings, upon receiving a request to handle a cloud user's duties (‘Response time, Turnaround time, and Server load’). Additionally, the optimal virtual machine (VM) is chosen for efficient load balancing by utilizing the recently proposed hybrid optimization approach. The Cat and Mouse-Based Optimizer (CMBO) and Standard Dingo Optimizer (DXO) are conceptually blended together to get the proposed hybridization method known as Dingo Customized Cat mouse Optimization (DCCO). The developed method achieves the lowest server load in cloud environment 1 is 33.3%, 40%, 42.3%, 40.2%, 36.8%, 42.5%, 50%, 40.2%, 39.2% improved over MOA, ABC, CSO, SSO, SSA, ACSO, SMO, CMBO, BOA, DOX, and FF-PSO, respectively. Finally, the projected DCCO model has been evaluated in terms of makespan, memory usage, migration cost, response time, usage of power server load, turnaround time, throughput, and convergence.ABBREVIATION: CDC, cloud data center; CMODLB, Clustering-based Multiple Objective Dynamic Load Balancing As A Load Balancing; CSP, Cloud service providers; CSSA, Chaotic Squirrel Search Algorithm; DA, Dragonfly Algorithm; ED, Euclidean Distance; EDA-GA, Estimation Of Distribution Algorithm And GA; FF, FireFly algorithm; GA, Genetic Algorithm; HHO, Harris Hawk Optimization; IaaS, Infrastructure-as-a-Service; MGWO, Modified Mean Grey Wolf Optimization Algorithm; MMHHO, Mantaray modified multi-objective Harris Hawk optimization; MRFO, Manta Ray Forging Optimization; PaaS, Platform-as-a-Service; PM, Physical Machine; PSO, Particle Swarm Optimization; SaaS, Software-as-a-Service; SAW, Sample additive weighting; SLA-LB, Service Level Agreement-Based Load Balancing; TBTS, Threshold-Based Task Scheduling Algorithm; TS, Task SchedulingKEYWORDS: Cloud computingload balancingDCCOpower consumptionmemory utilizationmigration cost Disclosure statementNo potential conflict of interest was reported by the author(s).Additional informationNotes on contributorsKoppula GeetaKoppula Geeta, Currently working as Assistant Professor of Computer Science & Engineering at Rajiv Gandhi University of Knowledge Technologies Basar, She is having 18 years of teaching experience. Received her B.Tech, M.Tech from JNTUH. Currently she is pursuing PhD in JNTUH, Hyderabad. Her main research interests includes Cloud computing, Data mining.V. Kamakshi PrasadProfessor V. Kamakshi Prasad currently serving as a Senior Professor of Computer Science & Engineering at JNTUH College of Engineering Science & Technology in Hyderabad, has 31 years of teaching and research experience. He obtained his B.Tech., M.Tech., and Ph.D. degrees from KLCE, Andhra University College of Engineering, and IIT Madras, respectively. He joined JNTU as an Assistant Professor in 1992 and was subsequently promoted to the positions of Associate Professor, Professor, and Senior Professor in 2003, 2006, and 2016, respectively. Throughout his tenure, he has held various administrative roles within the University, including Additional Controller of Exams, Coordinator of TEQIP-II, Head of the Department of CSE, Controller of Exams, Director of Innovative Technologies, Director of Evaluation, and currently serves as the Chairperson of the Board of Studies for CSE and CSE allied branches. Additionally, he is actively involved as a member of the Board of Studies, Academic Councils, and Governing Bodies of several autonomous and non-autonomous colleges affiliated with JNTUH and other Universities. He has also served as the Visitor's (President of India) nominee for the Executive Council of MANUU, Hyderabad and as a board member of the School of Computer and Information Sciences (SCIS) at Hyderabad Central University. In recognition of his contributions, he received the Telangana Government's state teacher award for the year 2020.His research interests encompass a wide range of areas, including Quantum Computing, Machine Learning, Data Mining, Speech & Image Processing, and Theoretical Computer Science. He has successfully supervised 29 Ph.D. candidates and 3 MS degree holders, while currently guiding 8 more Ph.D. research scholars.
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来源期刊
International Journal of Computers and Applications
International Journal of Computers and Applications Computer Science-Computer Graphics and Computer-Aided Design
CiteScore
4.70
自引率
0.00%
发文量
20
期刊介绍: The International Journal of Computers and Applications (IJCA) is a unique platform for publishing novel ideas, research outcomes and fundamental advances in all aspects of Computer Science, Computer Engineering, and Computer Applications. This is a peer-reviewed international journal with a vision to provide the academic and industrial community a platform for presenting original research ideas and applications. IJCA welcomes four special types of papers in addition to the regular research papers within its scope: (a) Papers for which all results could be easily reproducible. For such papers, the authors will be asked to upload "instructions for reproduction'''', possibly with the source codes or stable URLs (from where the codes could be downloaded). (b) Papers with negative results. For such papers, the experimental setting and negative results must be presented in detail. Also, why the negative results are important for the research community must be explained clearly. The rationale behind this kind of paper is that this would help researchers choose the correct approaches to solve problems and avoid the (already worked out) failed approaches. (c) Detailed report, case study and literature review articles about innovative software / hardware, new technology, high impact computer applications and future development with sufficient background and subject coverage. (d) Special issue papers focussing on a particular theme with significant importance or papers selected from a relevant conference with sufficient improvement and new material to differentiate from the papers published in a conference proceedings.
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