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Computing Minimal Update Sequences for Graceful Router-Wide Reconfigurations

Clad, Francois and Vissicchio, Stefano and Mérindol, Pascal and Francois, Pierre and Pansiot, Jean-Jacques (2015) Computing Minimal Update Sequences for Graceful Router-Wide Reconfigurations. [Journal Articles]

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Manageability and high availability are critical properties for IP networks. Unfortunately, with link-state routing protocols commonly used in such networks, topological changes lead to transient forwarding loops inducing service disruption. This reduces the frequency at which operators can adapt their network. Prior works proved that it is possible to avoid disruptions due to the planned reconfiguration of a link by progressively changing its weight, leading to a solution that does not require changing protocol specification. In this paper, we study the more general problem of gracefully modifying the logical state of multiple interfaces of a router, while minimizing the number of weight updates. Compared to single-link modifications, the router update problem is $k$-dimensional for a router having $k$ neighbors. We also show that multidimensional updates may trigger new kinds of disruptions that make the problem more challenging than the single-link case. We then present and evaluate efficient algorithms that compute minimal sequences of weights enabling disruption-free router reconfigurations. Based on analysis of real IP network topologies, we show that both the size of such sequences and the computing time taken by our algorithms are limited.

Item Type: Journal Articles
Uncontrolled Keywords: IP networks, network theory (graphs), routing protocols.
Depositing User: Rebeca De Miguel
Date Deposited: 14 Oct 2014 12:14
Last Modified: 06 Apr 2018 15:34

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