STATISTICAL INTERPRETATIONS OF THE TURNAROUND TIME VALUES FOR A SCALABLE 3-TIER GRID-BASED COMPUTING ARCHITECTURE
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Date
2013
Authors
AZEEZ, Nureni
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GESJ: Computer Science and Telecommunications
Abstract
The concept of scalability for the survival and full-scale implementation as well as
efficient utilisation of any distributed system, particularly grid computing, cannot be
over-emphasised. It is through this security concept that inter-domain and intra-domain
resource sharing, distribution and aggregation can be adequately ensured and
guaranteed. This paper is an extension of a paper titled “Towards achieving scalability
and interoperability in a triple-domain grid-based environment (3DGBE)” presented at
the Information Security for South Africa (ISSA), conference, 2012. The objective of this
paper is to provide a comprehensive statistical analysis of the values obtained for the
turnaround times for the three domains observed against the number of grid nodes
when scalability was being evaluated using ANOVA. Further results obtained also give
a summary of the statistical analysis of the values obtained with respects to the three
domains vis-à-vis the mean ( , standard deviation and the variance using ANOVA. The
essence of the statistical interpretation of these values is to affirm and confirm the
significance difference in the mean of group of the three domains considered with
respect to variation in the number of grid nodes as well as the number of service
requesters as presented.
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Citation
5. N.A. Azeez; A.P. Abidoye; A.O. Adesina; K.K. Agbele; I.M. Venter; and A.S. Oyewole (2013) “Statistical interpretations of the turnaround time values for a scalable 3-tier grid-based computing architecture” GESJ: Computer Science and Telecommunications. (39) No.3, ISSN 1512-1232, pp 67-75. Publisher: Georgian Technical University and St. Andrew the First Called Georgian University of The Patriarchy of Georgia . Impact Factor: 0.8125