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Erschienen in:

21.02.2020

An Energy Efficient and Adaptive Threshold VM Consolidation Framework for Cloud Environment

verfasst von: Nagma Khattar, Jaiteg Singh, Jagpreet Sidhu

Erschienen in: Wireless Personal Communications | Ausgabe 1/2020

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Abstract

Cloud-based computing, in spite of its enormous benefits has ill effects on the environment also. The release of greenhouse gases and energy consumed by cloud data centers is the most important issue that needs serious attention. Virtual machine (VM) consolidation is a prominent method for energy efficient and optimal utilization of resources. However, existing VM consolidation approaches aggressively reduce energy consumption without considering quality of service (QoS) factors. In this paper, QoS-aware VM consolidation framework is presented which reduces energy consumption and tries to minimize Service Level Agreement violations at the same time. Unlike existing solutions, the framework is generic as it works for both CPU and input/output intensive tasks. The effectiveness of proposed framework is illustrated by using real dataset of Planet lab and CloudSim platform. The proposed solution can be used in cloud data centers to enable energy efficient computing.

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Buyya, R., Toosi, A. N., & Calheiros, R. N. (2014). Interconnected cloud computing environments: Challenges, taxonomy, and survey. ACM Computing Surveys,47, 1–47.

Buyya, R. (2009). Market-oriented cloud computing: Vision, hype, and reality of delivering computing as the 5th utility. In 9th IEEE/ACM international symposium on cluster computing and the grid.

Shehabi, A., & et al. (2016) United States data center energy usage report | Energy Technologies Area.

Adams, W. (2018). Power consumption in data centers is a global problem.

Cao, Z., & Dong, S. (2012). Dynamic VM consolidation for energy-aware and SLA violation reduction in cloud computing. In Parallel and distributed computing, applications and technologies, PDCAT proceedings.

Cao, Z., & Dong, S. (2014). An energy-aware heuristic framework for virtual machine consolidation in Cloud computing. The Journal of Supercomputing,69, 429–451.CrossRef

Alboaneen, D. A., Pranggono, B., & Tianfield, H. (2014). Energy-aware virtual machine consolidation for cloud data centers. In Proceedings of IEEE/ACM 7th international conference on utility and cloud computing.

Zeng, H., Ellis, C. S., Lebeck, A. R., & Vahdat, A. (2002). ECOSystem. ACM SIGOPS Operating Systems Review,36, 123.CrossRef

Chase, J. S., Anderson, D. C., Thakar, P. N., Vahdat, A. M., & Doyle, R. P. (2001). Managing energy and server resources in hosting centers. In Proceedings of 18th ACM symposium on operating systems principles.

10.

Nathuji, R., & Schwan, K. (2007). Virtual power: Coordinated power management in virtualized enterprise systems. In Proceedings of 21st ACM SIGOPS symposium on operating systems principles.

11.

Beloglazov, A., & Buyya, R. (2010). Energy efficient resource management in virtualized cloud data centers. In 10th IEEE/ACM international conference on cluster, cloud and grid computing.

12.

Beloglazov, A., Abawajy, J., & Buyya, R. (2012). Energy-aware resource allocation heuristics for efficient management of data centers for cloud computing. Future Generation Computing Systems,28, 755–768.CrossRef

13.

Beloglazov, A., & Buyya, R. (2012). Optimal online deterministic algorithms and adaptive heuristics for energy and performance efficient dynamic consolidation of virtual machines in cloud data centers. Concurrency and Computation: Practice and Experience,24, 1397–1420.CrossRef

14.

Zhou, Z., Hu, Z. G., Song, T., & Yu, J. Y. (2015). A novel virtual machine deployment algorithm with energy efficiency in cloud computing. Journal of Central South University,22, 974–983.CrossRef

15.

Zhou, Z., Hu, Z., & Li, K. (2016). Virtual machine placement algorithm for both energy-awareness and SLA violation reduction in cloud data centers. Scientific Programming. https://doi.org/10.1155/2016/5612039.CrossRef

16.

Castro, P. H. P., Barreto, V. L., Corrêa, S. L., Granville, L. Z., & Cardoso, K. V. (2016). A joint CPU-RAM energy efficient and SLA-compliant approach for cloud data centers. Computer Networks,94, 1–13.CrossRef

17.

Zhou, Z., et al. (2018). Minimizing SLA violation and power consumption in Cloud data centers using adaptive energy-aware algorithms. Future Generation Computing Systems,86, 836–850.CrossRef

18.

Goyal, S., Bawa, S., & Singh, B. (2016). Energy optimised resource scheduling algorithm for private cloud computing. International Journal of Ad Hoc and Ubiquitous Computing,23, 115.CrossRef

19.

Kim, H. S., Shin, D. I., Yu, Y. J., Eom, H., & Yeom, H. Y. (2012). Systematic approach of using power save mode for cloud data processing services. International Journal of Ad Hoc and Ubiquitous Computing,10, 63.CrossRef

20.

Zhao, J., Tao, J., & Frlinger, K. (2014). A framework for comparative performance study on virtualised machines. International Journal of Ad Hoc and Ubiquitous Computing,17, 82–99.CrossRef

21.

Xu, H., Liu, Y., Wei, W., & Xue, Y. (2019). Migration cost and energy-aware virtual machine consolidation under cloud environments considering remaining runtime. International Journal of Parallel Programming,47, 481–501.CrossRef

22.

Ramezani, F., Lu, J., & Hussain, F. K. (2014). Task-based system load balancing in cloud computing using particle swarm optimization. International Journal of Parallel Programming,42, 739–754.CrossRef

23.

Mann, Z. A., & Szabo, M. (2017). Which is the best algorithm for virtual machine placement optimization. Concurrency and Computation: Practice and Experience,29(10), e4083.CrossRef

Titel: An Energy Efficient and Adaptive Threshold VM Consolidation Framework for Cloud Environment
verfasst von: Nagma Khattar
Jaiteg Singh
Jagpreet Sidhu
Publikationsdatum: 21.02.2020
Verlag: Springer US
Erschienen in: Wireless Personal Communications / Ausgabe 1/2020
Print ISSN: 0929-6212
Elektronische ISSN: 1572-834X
DOI: https://doi.org/10.1007/s11277-020-07204-6

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