Feasibility Study on Distributed Simulations of BGP
Authors: 
David Coudert, 
Luc Hogie, Aurelien Lancin, Dimitri Papadimitriou, Stephane Perennes, Issam TahiriAuthors Info & Claims
Pages 96 - 98
Abstract
The Autonomous System (AS) topology of the Internet (up to 61k ASs) is growing at a rate of about 10% per year. The Border Gateway Protocol (BGP) starts to show its limits in terms of the number of routing table entries it can dynamically process and control. Due to the increasing routing information processing and storage, the same trend is observed for routing model simulators such as DRMSim specialized in large-scale simulations of routing models. Therefore, DRMSim needs enhancements to support the current size of the Internet topology and its evolution (up to 100k ASs). To this end, this paper proposes a feasibility study of the extension of DRMSim so as to support the Distributed Parallel Discrete Event paradigm. We first detail the possible distribution models and their associated communication overhead. Then, we analyze this overhead by executing BGP on a partitioned topology according to different scenarios. Finally, we conclude on the feasibility of such a simulator by computing the expected additional time required by a distributed simulation of BGP compared to its sequential simulation.
References
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T. Bu, and T. Don, On distinguishing between Internet power law topology generators, Proc. 21st Annual IEEE International Conference on Computer Communications (INFOCOM), vol.2, 2002.
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DRMSim simulator. http://drmsim.gforge.inria.fr/.
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N. Nisse, K. Suchan, and I. Rapaport, Distributed computing of efficient routing schemes in generalized chordal graphs. Theoretical Computer Science, to appear.
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The Network Simulator - ns-2. http://www.isi.edu/nsnam/ns/. B.J. Premore and T.G. Griffin, An Experimental Analysis of BGP Convergence Time, Proc. 9th IEEE International Conference on Network Protocol (ICNP'01), pp.53-61, Riverside (CA), USA, Nov. 2001.
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- Feasibility Study on Distributed Simulations of BGP
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Published In
July 2012
250 pages
ISBN:9780769547145
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IEEE Computer Society
United States
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Published: 15 July 2012
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