International Journal of Modern Education and Computer Science (IJMECS)
IJMECS Vol. 10, No. 2, 8 Feb. 2018
Cover page and Table of Contents: PDF (size: 797KB)
An Effective Technique to Decline Energy Expenditure in Cloud Platforms
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Author(s)
Index Terms
Task Scheduling, Energy, Cost, ACO, Cloud Simulator
Abstract
The cloud computing is the rapidly growing technology in the IT world. A vital aim of the cloud is to provide the services or resources where they are needed. From the user’s prospective convenient computing resources are limitless thatswhy the client does not worry that how many numbers of servers positioned at one site so it is the liability of the cloud service holder to have large number of resources. In cloud data-centers, huge bulk of power exhausted by different computing devices.Energy conservancy is a major concern in the cloud computing systems. From the last several years, the different number of techniques was implemented to minimize that problem but the expected results are not achieved. Now, in the proposed research work, a technique called Enhanced - ACO that is developed to achieve better offloading decisions among virtual machines when the reliability and proper utilization of resources will also be considered and will use ACO algorithm to balance load and energy consumption in cloud environment. The proposed technique also minimizes energy consumption and cost of computing resources that are used by different processes for execution in cloud. The earliest finish time and fault tolerance is evaluated to achieve the objectives of proposed work. The experimental outcomes show the better achievement of prospective model with comparison of existing one. Meanwhile, energy-awake scheduling approach with Ant colony optimization method is an assuring method to accomplish that objective.
Cite This Paper
Anureet A. Kaur, Bikrampal B. Kaur, " An Effective Technique to Decline Energy Expenditure in Cloud Platforms", International Journal of Modern Education and Computer Science(IJMECS), Vol.10, No.2, pp. 54-62, 2018. DOI:10.5815/ijmecs.2018.02.07
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