Work place: Department of Computer Science, Chuka University, Chuka Kenya
E-mail: dgmwathi@chuka.ac.ke
Website:
Research Interests: Computer systems and computational processes, Systems Architecture, Distributed Computing, Data Structures and Algorithms
Biography
Gitonga D. Mwathi holds a Ph.D in Computer Science from University of Nairobi, Master’s Degree in IT (Systems Security) from Strathmore University and a Bachelor’s degree in Computer Science and Engineering from Maseno University.He is currently a Lecturer at Chuka University with a teaching experience of twelve years at University level. His major research interests are in Computer Networks, Distributed Systems and Systems Security.
By Joseph Kithinji Makau S. Mutua Gitonga D. Mwathi
DOI: https://doi.org/10.5815/ijitcs.2021.05.05, Pub. Date: 8 Oct. 2021
Consolidation of storage into IP SANs (Internet protocol storage area network) has led to a combination of multiple workloads of varying demands and importance. To ensure that users get their Service level objective (SLO) a technique for isolating workloads is required. Solutions that exist include cache partitioning and throttling of workloads. However, all these techniques require workloads to be classified in order to be isolated. Previous works on performance isolation overlooked the classification process as a source of overhead in implementing performance isolation. However, it’s known that linear search based classifiers search linearly for rules that match packets in order to classify flows which results in delays among other problems especially when rules are many. This paper looks at the various limitation of list based classifiers. In addition, the paper proposes a technique that includes rule sorting, rule partitioning and building a tree rule firewall to reduce the cost of matching packets to rules during classification. Experiments were used to evaluate the proposed solution against the existing solutions and proved that the linear search based classification process could result in performance degradation if not optimized. The results of the experiments showed that the proposed solution when implemented would considerably reduce the time required for matching packets to their classes during classification as evident in the throughput and latency experienced.
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