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FIB efficiency in distributed platforms

Kogan, Kirill and Nikolenko, Sergey I. and Eugster, Patrick and Shalimov, Alexander and Rottenstreich, Ori (2016):
FIB efficiency in distributed platforms.
In: 2016 IEEE 24th International Conference on Network Protocols (ICNP), IEEE, Singapore, Singapore, DOI: 10.1109/ICNP.2016.7784452,
[Conference or Workshop Item]

Abstract

The Internet routing ecosystem is facing substantial scalability challenges due to continuous, significant growth of the state represented in the data plane. Distributed switch architectures introduce additional constraints on efficient implementations from both lookup time and memory footprint perspectives. In this work we explore efficient FIB representations in common distributed switch architectures. Our approach introduces substantial savings in memory footprint transparently for existing hardware. Our results are supported by an extensive simulation study on real IPv4 and IPv6 FIBs.

Item Type: Conference or Workshop Item
Erschienen: 2016
Creators: Kogan, Kirill and Nikolenko, Sergey I. and Eugster, Patrick and Shalimov, Alexander and Rottenstreich, Ori
Title: FIB efficiency in distributed platforms
Language: German
Abstract:

The Internet routing ecosystem is facing substantial scalability challenges due to continuous, significant growth of the state represented in the data plane. Distributed switch architectures introduce additional constraints on efficient implementations from both lookup time and memory footprint perspectives. In this work we explore efficient FIB representations in common distributed switch architectures. Our approach introduces substantial savings in memory footprint transparently for existing hardware. Our results are supported by an extensive simulation study on real IPv4 and IPv6 FIBs.

Title of Book: 2016 IEEE 24th International Conference on Network Protocols (ICNP)
Number: 24
Publisher: IEEE
Uncontrolled Keywords: IP networks;Internet;distributed processing;telecommunication network routing;FIB efficiency;FIB representations;IPv4 FIB;IPv6 FIB;Internet routing ecosystem;distributed platforms;distributed switch architectures;forwarding information bases;memory footpr
Divisions: Profile Areas > Cybersecurity (CYSEC)
Profile Areas
Event Location: Singapore, Singapore
Date Deposited: 10 Aug 2017 16:11
DOI: 10.1109/ICNP.2016.7784452
Identification Number: TUD-CS-2016-14763
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