Saravana Balaji B.

Work place: Sri Ramakrishna Engineering College, Coimbatore, Tamil Nadu, India

E-mail: saravanabalaji.b@gmail.com

Website:

Research Interests: Computer systems and computational processes, Autonomic Computing, Information Systems, Computing Platform, Information Retrieval

Biography

Saravana Balaji Balasubramanian, completed his B.E Computer Science and Engineering from Madurai Kamaraj University, India by 2004 and M.E Computer Science and Engineering from Anna University, Chennai,India by 2006. He is currently working as Assistant Professor (Sr.G), Department of Computer Science and Engineering (PG), Sri Ramakrishna Engineering College, Coimbatore, India and pursuing his doctoral degree research under Anna University, Chennai, India. His area of research includes Cloud Computing, Semantic Web and Information Systems.

Author Articles
Energy-Efficient PSO and Latency Based Group Discovery Algorithm in Cloud Scheduling

By Nandhini A. Saravana Balaji B.

DOI: https://doi.org/10.5815/ijitcs.2014.10.07, Pub. Date: 8 Sep. 2014

Cloud computing is a large model change of computing system. It provides high scalability and flexibility among an assortment of on-demand services. To imporve the performance of the multi-cloud environment in distributed application might require less energy efficiency and minimal inter-node latency correspondingly. The major problem is that the energy efficiency of the cloud computing data center is less if the number of server is low, else it increases. To overcome the energy efficiency and network latency problem a novel energy-efficient particle swarm optimization representation for multi-job scheduling and Latency representation for the grouping of nodes with respect to network latency is proposed. The scheduling procedure is through on the basis of network latency and energy efficiency. Scheduling schema is the main part of Cloud Scheduler component, which helps the scheduler in scheduling decision on the base of dissimilar criterion. It also works well with incomplete latency information and performs intelligent grouping on the basis of both network latency and energy efficiency. Design a realistic particle swarm optimization algorithm for the cloud servers and construct an overall energy competence based on the purpose of the servers and calculation of fitness value for each cloud servers. Also, in order to speed up the convergent speed and improve the probing aptitude of our algorithm, a local search operative is introduced. Finally, the experiment demonstrates that the proposed algorithm is effectual and well-organized.

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