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Computational and Applied Mathematics Journal

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DCCN: A Non-Recursively Built Data Center Architecture for Enterprise Energy Tracking Analytic Cloud Portal, (EEATCP)

Computational and Applied Mathematics Journal
Vol.1 , No. 3, Publication Date: Apr. 28, 2015, Page: 107-121

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Authors

[1]	K. C. Okafor, Dept. of Electrical Electronic Engineering, Federal University of Technology, Owerri, Nigeria.
[2]	G. N. Ezeh, Dept. of Electrical Electronic Engineering, Federal University of Technology, Owerri, Nigeria.
[3]	I. E. Achumba, Dept. of Electrical Electronic Engineering, Federal University of Technology, Owerri, Nigeria.
[4]	O. U. Oparaku, Dept. of Electronic Engineering, University of Nigeria, Nsukka, Nigeria.
[5]	U. Diala, Postgraduate Research Student, Dept. of Automatic Control and Systems Engineering, University of Sheffield, UK.

Abstract

Smart Green Energy Management System (SGEMS) proposed in a previous paper introduced Integrated Service Open Flow Load Balancer (ISOLB) in its two-tier design to achieve scalability, fault tolerance, and high network capacity for remote users that will access the Enterprise Energy Analytic Tracking Cloud Portal (EEATCP). Exponential growth and high bandwidth requirements are perceived as users make use of the portal. Hence, this paper presents an improved non-recursively defined network structure for EEATCP datacenter and showed its efficacy for DCCN based on experimental results. Using Riverbed modeller version 17.5, the obtained results were compared with those from DCell and BCube which are the most related DCN architectures. Also, Open Flow security comparison was presented for the proposed DCCN showing improved performance at large.

Keywords

SGEMS, Open Flow Load Balancer, Scalability, Portal, Energy Management, Demand Side Management, Cloud Data Center

Reference

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