Energy Saving from Cloud Resources for a Sustainable Green Cloud Computing Environment

Authors

  • Karuppasamy M. Kalasalingam University, Tamil Nadu, India
  • Balakannan S. P. Kalasalingam University, Tamil Nadu, India

DOI:

https://doi.org/10.13052/2245-1439.718

Keywords:

Cloud Computing, Green, Environment, Virtualization, Energy

Abstract

Cloud computing services are proliferation. The Cloud computing resources face major pitfall in energy consumes. The prime of energy consumption in cloud computing is by means of client computational devices, server computational devices, network computational devices and power required to cool the IT load. The cloud resources contribute high operational energy cost and emit more carbon emission to the environment. Therefore the cloud services providers need green cloud environment resolution to decrease the operational energy cost along with environmental impact. The most important objective of this effort is to trim down the energy from utilized and unutilized (idle) cloud resources and save the energy in cloud resources efficiently. To achieve the sustainable green cloud environment from an Energy Saving Algorithm used to choose the appropriate virtual services so that the power at the client, server, and network recourses can be reduced.

 

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Author Biographies

Karuppasamy M., Kalasalingam University, Tamil Nadu, India

Karuppasamy M. received his Bachelor degree Madurai KamarajUniversity, Madurai by 2008. He received his master of Technology in Information Technology from Kalasalingam Academy of Research and Education by 2013. He is working as a Full time Research Scholar in the department of Computer Applications, Kalasalingam Academy of Research and Education. His areas of interest are Cloud Computing. Green Computing and Cloud Networks.

Balakannan S. P., Kalasalingam University, Tamil Nadu, India

Balakannan S. P. received his Ph.D. degree from the Department ofElectronics and Information Engineering at Chonbuk National University, South Korea (2010). He has received his master degree (5 years integrated) from the Department of Computer Science and Engineering, Bharathiar University, India, in the year 2003. He has worked as a Project Assistant in Indian Institute of Technology (IIT), Kharagpur, India from 2003 to 2006. Currently, he is working as Assistant Professor in the Department ofInformation Technology, Kalasalingam Academy of Research and Education, Tamilnadu, India. His areas of interest include Wireless Network, Network Coding, Cloud & Green Computing, Cryptography, and Mobile Communication.

References

Buyya, R. (2013). Introduction to the IEEE Transactions on Cloud Computing. IEEE Transactions on Cloud Computing, 1(1), 3–21.

Lee, Y. C., and Zomaya, A. Y. (2012). Energy Efficient Utilization of Resources in Cloud Computing Systems. The Journal of Supercomputing, 60(2), 268–280. doi: 10.1007/s11227-010-0421-3

Buyya, R., Yeo, C. S., Venugopal, S., Broberg, J., and Brandic, I. (2009). Cloud Computing and Emerging IT Platforms: Vision, Hype, and Reality for Delivering Computing as the 5th Utility. Future Generation computer systems, 25(6), 599–616.

Farahnakian, F., Ashraf, A., Pahikkala, T., Liljeberg, P., Plosila, J., Porres, I., and Tenhunen, H. (2015). Using Ant Colony System to Consolidate VMs for Green Cloud Computing. IEEE Transactions on Services Computing, 8(2), 187–198.

Buyya, R., Beloglazov, A., and Abawajy, J. (2010). Energy-Efficient Management of Data Center Resources for Cloud Computing:a Vision, Architectural Elements, and Open Challenges. arXiv preprint arXiv:1006.0308. Las vegas.

Boru, D., Kliazovich, D., Granelli, F., Bouvry, P., and Zomaya, A. Y. (2015). Energy-efficient Data Replication in Cloud Computing Datacenters. Cluster computing, 18(1), 385–402.

Lee, Y. C., and Zomaya, A. Y. (2012). Energy Efficient Utilization of Resources in Cloud Computing Systems. The Journal of Supercomputing, 60(2), 268–280.

Ala’a Al-Shaikh, H. K., Sharieh, A., and Sleit, A. (2016). Resource Utilization in Cloud Computing as an Optimization Problem. Resource, 7(6).

Shaikh, F. K., Zeadally, S., and Exposito, E. (2017). Enabling Technologies for Green Internet of Things. IEEE Systems Journal, 11(2), 983–994.

The Environmental Protection Agency (EPA) estimated one kilowatt-hour produces 1.52 pounds of carbon dioxide (excluding line-losses)

Beloglazov, A., Abawajy, J., and Buyya, R. (2012). Energy-Aware Resource Allocation Heuristics for Efficient Management of Data Centers for Cloud Computing. Future generation computer systems, 28(5), 755–768.

Lee, Y. C., and Zomaya, A. Y. (2012). Energy Efficient Utilization of Resources in Cloud Computing Systems. The Journal of Supercomputing, 60(2), 268–280.

Boru, D., Kliazovich, D., Granelli, F., Bouvry, P., and Zomaya, A. Y. (2015). Energy-Efficient Data Replication in Cloud Computing Datacenters. Cluster computing, 18(1), 385–402. doi:10.1007/s10586-014-0404-x

Hsu, C. H., Slagter, K. D., Chen, S. C., and Chung, Y. C. (2014). Optimizing Energy Consumption with Task Consolidation in Clouds. Information Sciences, 258, 452–462.

Cao, Z., Lin, J., Wan, C., Song, Y., Zhang, Y., and Wang, X. (2017). Optimal Cloud Computing Resource Allocation for Demand Side Management in Smart Grid. IEEE Transactions on Smart Grid, 8(4), 1943–1955.

Mastroianni, C., Meo, M., and Papuzzo, G. (2013). Probabilistic Consolidation of Virtual Machines in Self-Organizing Cloud Data Centers. IEEE Transactions on Cloud Computing, 1(2), 215–228.

Kaur, T., and Chana, I. (2016). Energy Aware Scheduling of Deadline-Constrained Tasks in Cloud Computing. Cluster Computing, 19(2),679–698. doi: 10.1007/s10586-016-0566-9

Hameed, A., Khoshkbarforoushha, A., Ranjan, R., Jayaraman, P. P., Kolodziej, J., Balaji, P., and Khan, S. U. (2016). A Survey and Taxonomy On Energy Efficient Resource Allocation Techniques for Cloud Computing Systems. Computing, 98(7), 751–774. doi: 10.1007/s00607-014-0407-8

Josphin, J., Suprakash, S., and Balakannan, S. P. (2015). An Optimal Virtual Machine Assignment Using Firefly Algorithm For Achieving Energy Efficiency In Data Center. International Journal of Applied Engineering Research, 10(5) 0973–4562.

Bianzino, A. P., Chaudet, C., Rossi, D., and Rougier, J. L. (2012).A Survey of Green Networking Research. IEEE Communications Surveys and Tutorials, 14(1), 3–20.

Fiandrino, C., Kliazovich, D., Bouvry, P., and Zomaya, A. (2015). Performance and Energy Efficiency Metrics for Communication Systems of Cloud Computing Data Centers. IEEE Transactions on Cloud Computing.

Sofia, A. S., and Kumar, P. G. (2015). Implementation of Energy Efficient Green Computing in Cloud Computing. International Journal of Enterprise Network Management, 6(3), 222–237.

Gu, C., Huang, H., and Jia, X. (2014). Power Metering for Virtual Machine in Cloud Computing-Challenges and Opportunities. IEEE Access, 2, 1106–1116.

Liu, X. F., Zhan, Z. H., Deng, J. D., Li, Y., Gu, T., and Zhang, J. (2018). An Energy Efficient Ant Colony System for Virtual Machine Placement in Cloud Computing. IEEE Transactions on EvolutionaryComputation. 22(1).

Karuppasamy, M., Suprakash, S., Balakannan, S. P., and Krishnankoil, S. (2013). Energy Efficient Cloud Networks Towards A Sustainable Green Environment. environment, 7, 8. 2320–8791

Wang, W., Liang, B., and Li, B. (2015). Multi-Resource Fair Allocation in Heterogeneous Cloud Computing Systems. IEEE Transactions on Parallel and Distributed Systems, 26(10), 2822–2835.

Shameer, A. P., Haseeb, V. V., and Mini Mol, V. K. (2015). Green Approach for Reducing Energy Consumption-A Case Study Report. International Journal, 5(1).

Quang-Hung, N., Thoai, N., and Son, N. T. (2013). Epobf: Energy Efficient Allocation of Virtual Machines in High Performance Computing Cloud. arXiv preprint arXiv:1310.7801. Journal of Science and Technology, 51 (4B),173–182.

Kessaci, Y., Melab, N., and Talbi, E. G. (2012). An Energy-Aware Multi-Start Local Search Heuristic for Scheduling VMs on the OpenNebula Cloud Distribution. In High Performance Computing and Simulation (HPCS), 2012 International Conference on 112–118.

Kaur, T., and Chana, I. (2016). Energy Aware Scheduling of Deadline-Constrained Tasks in Cloud Computing. Cluster Computing, 19(2),679–698. doi: 10.1007/s10586 016 0566 9

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Published

2018-01-05

How to Cite

1.
M. K, S. P. B. Energy Saving from Cloud Resources for a Sustainable Green Cloud Computing Environment. JCSANDM [Internet]. 2018 Jan. 5 [cited 2024 Apr. 24];7(1-2):95-108. Available from: https://journals.riverpublishers.com/index.php/JCSANDM/article/view/5281

Issue

2018: Vol 7 Iss 1-2

Section

Articles