Network convergence in SDN versus OSPF networks

Network availability and reliability remain of primary concern, especially that network failures and changes cannot be completely eliminated, but their consequences can be mitigated and controlled. Accordingly, fast network convergence becomes a significant requirement to control and limit the negat...

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Bibliographic Details
Published in2018 Fifth International Conference on Software Defined Systems (SDS) pp. 130 - 137
Main Authors Abdallah, Sarah, Kayssi, Ayman, Elhajj, Imad H., Chehab, Ali
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.04.2018
Subjects
Convergence
Delays
Distributed Routing
Network Convergence
Network topology
Routing
Software Defined Networks (SDN)
Switches
Topology
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Summary:Network availability and reliability remain of primary concern, especially that network failures and changes cannot be completely eliminated, but their consequences can be mitigated and controlled. Accordingly, fast network convergence becomes a significant requirement to control and limit the negative effects of network failures or changes. Network convergence has been studied for different distributed routing protocols; but with the emergence of centralized routing in SDN, better convergence characteristics are expected. In this paper, we model convergence delays for centralized (SDN) and distributed routing (OSPF), and compare their theoretical behavior to the experimental one. Analytical results show that SDN and OSPF outperform each other under different network conditions, depending on network size, link delays, and fault location. Experimental results verify the theoretical expectations, and provide more insights into convergence delays. Even with minor discrepancies due to controller and switch modeling, the theoretical study and the empirical results give comparable outcomes.
DOI:10.1109/SDS.2018.8370434