International Journal of Electronics and Telecommunications (May 2018)

A Novel Software-Defined Networking Controller: the Distributed Active Information Model (DAIM)

  • Pupatwibul Pakawat,
  • Banjar Ameen,
  • Hossain Md. Imam,
  • Robin Braun,
  • Bruce Moulton

DOI
https://doi.org/10.24425/119372
Journal volume & issue
Vol. vol. 64, no. No 2

Abstract

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This paper presents a new OpenFlow controller: the Distributed Active Information Model (DAIM). The DAIM controller was developed to explore the viability of a logically distributed control plane. It is implemented in a distributed way throughout a software-defined network, at the level of the switches. The method enables local process flows, by way of local packet switching, to be controlled by the distributed DAIM controller (as opposed to a centralised OpenFlow controller). The DAIM ecosystem is discussed with some sample code, together with flowcharts of the implemented algorithms. We present implementation details, a testing methodology, and an experimental evaluation. A performance analysis was conducted using the Cbench open benchmarking tool. Comparisons were drawn with respect to throughput and latency. It is concluded that the DAIM controller can handle a high throughput, while keeping the latency relatively low. We believe the results to date are potentially very interesting, especially in light of the fact that a key feature of the DAIM controller is that it is designed to enable the future development of autonomous local flow process and management strategies.

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