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ReSQoV: A Scalable Resource Allocation Model for QoS-Satisfied Cloud Services

Author

Listed:
  • Hassan Mahmood Khan

    (Faculty of Computing and Informatics, Multimedia University, Cyberjaya 63100, Malaysia)

  • Fang-Fang Chua

    (Faculty of Computing and Informatics, Multimedia University, Cyberjaya 63100, Malaysia)

  • Timothy Tzen Vun Yap

    (Faculty of Computing and Informatics, Multimedia University, Cyberjaya 63100, Malaysia)

Abstract

Dynamic resource provisioning is made more accessible with cloud computing. Monitoring a running service is critical, and modifications are performed when specific criteria are exceeded. It is a standard practice to add or delete resources in such situations. We investigate the method to ensure the Quality of Service (QoS), estimate the required resources, and modify allotted resources depending on workload, serialization, and parallelism due to resources. This article focuses on cloud QoS violation remediation using resource planning and scaling. A Resource Quantified Scaling for QoS Violation (ReSQoV) model is proposed based on the Universal Scalability Law (USL), which provides cloud service capacity for specific workloads and generates a capacity model. ReSQoV considers the system overheads while allocating resources to maintain the agreed QoS. As the QoS violation detection decision is Probably Violation and Definitely Violation, the remedial action is triggered, and required resources are added to the virtual machine as vertical scaling. The scenarios emulate QoS parameters and their respective resource utilization for ReSQoV compared to policy-based resource allocation. The results show that after USLbased Quantified resource allocation, QoS is regained, and validation of the ReSQoV is performed through the statistical test ANOVA that shows the significant difference before and after implementation.

Suggested Citation

  • Hassan Mahmood Khan & Fang-Fang Chua & Timothy Tzen Vun Yap, 2022. "ReSQoV: A Scalable Resource Allocation Model for QoS-Satisfied Cloud Services," Future Internet, MDPI, vol. 14(5), pages 1-20, April.
  • Handle: RePEc:gam:jftint:v:14:y:2022:i:5:p:131-:d:802922
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    Cited by:

    1. Osama Abied & Othman Ibrahim & Siti Nuur-Ila Mat Kamal & Ibrahim M. Alfadli & Weam M. Binjumah & Norafida Ithnin & Maged Nasser, 2022. "Probing Determinants Affecting Intention to Adopt Cloud Technology in E-Government Systems," Sustainability, MDPI, vol. 14(23), pages 1-29, November.

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