State-control-limit-based rejuvenation modelling and optimisation of the virtualised cloud server

Q2 Engineering

International Journal of Reliability and Safety Pub Date : 2018-11-12 DOI:10.1504/IJRS.2018.10017234

Weichao Dang, J. Zeng

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引用次数: 0

Abstract

Software rejuvenation modelling and optimisation of the virtualised cloud server has been studied. A software rejuvenation policy on the virtual machines and the virtual machine monitor has been proposed in order to ensure high availability of the virtualised cloud server. The multi-component system, composed of the virtual machines and the virtual machine monitor, which are structurally dependent, has been reduced to the multiple two-component systems. The state-control-limit-based rejuvenation policy has been proposed and the joint probability density of the degraded state of the two-component VM-VMM has been derived. Furthermore, the solution to the joint probability density has been proposed. Finally, the stationary unavailability of the virtualised cloud server has been modelled. Numerical experiments have verified the correctness of the probability density function and the feasibility of the rejuvenation policy. The state-control-limit-based rejuvenation policy leads to lower unavailability of the virtualised cloud server in comparison with the lifetime-based rejuvenation policy.

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基于状态控制限制的虚拟云服务器恢复建模和优化

对虚拟化云服务器的软件再生建模和优化进行了研究。为了保证虚拟化云服务器的高可用性，提出了一种针对虚拟机和虚拟机监视器的软件复兴策略。由虚拟机和虚拟机监视器组成的多组件系统在结构上相互依赖，将其简化为多个双组件系统。提出了基于状态控制-限制的复壮策略，并推导了双组分VM-VMM退化状态的联合概率密度。此外，还提出了联合概率密度的求解方法。最后，对虚拟云服务器的静态不可用性进行了建模。数值实验验证了概率密度函数的正确性和复壮策略的可行性。与基于生命周期的恢复策略相比，基于状态控制限制的恢复策略可以降低虚拟化云服务器的不可用性。

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

International Journal of Reliability and Safety Engineering-Safety, Risk, Reliability and Quality

CiteScore

1.00

自引率

0.00%

发文量