Ultrafast optical packet switching over arbitrary physical toplogies using the Manhattan Street Network

O. Komolafe; D. Harle; D. Cotter

doi:10.1109/ICC.2001.936988

Ultrafast optical packet switching over arbitrary physical toplogies using the Manhattan Street Network

O. Komolafe, D. Harle, D. Cotter

Electronic And Electrical Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution book

Abstract

Optical packet switching over arbitrary physical topologies generally requires complex routing schemes coupled with contention resolving buffering. However, the relatively immature nature of optical logic devices and the limitations associated with optical buffering provide significant incentive to reduce the routing complexity and avoid optical domain contentions. This paper examines how the Manhattan Street Network (MSN) may be used to facilitate optical packet switching over arbitrary physical topologies. Several pertinent novel costs are introduced. Simulated annealing is used to deploy the MSN (near) optimally as a virtual topology in the physical topologies. Favourable and encouraging results are obtained, indicating that deploying the MSN is an attractive means to switch packets optically over arbitrary topologies.

Original language	English
Title of host publication	ICC 2001. IEEE International Conference on Communications.
Place of Publication	Piscataway, N.J.
Publisher	IEEE
ISBN (Print)	0780370971
DOIs	https://doi.org/10.1109/ICC.2001.936988
Publication status	Published - 7 Aug 2002

Keywords

optical packet switching
optical buffering
network topology

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10.1109/ICC.2001.936988

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title = "Ultrafast optical packet switching over arbitrary physical toplogies using the Manhattan Street Network",

abstract = "Optical packet switching over arbitrary physical topologies generally requires complex routing schemes coupled with contention resolving buffering. However, the relatively immature nature of optical logic devices and the limitations associated with optical buffering provide significant incentive to reduce the routing complexity and avoid optical domain contentions. This paper examines how the Manhattan Street Network (MSN) may be used to facilitate optical packet switching over arbitrary physical topologies. Several pertinent novel costs are introduced. Simulated annealing is used to deploy the MSN (near) optimally as a virtual topology in the physical topologies. Favourable and encouraging results are obtained, indicating that deploying the MSN is an attractive means to switch packets optically over arbitrary topologies.",

keywords = "optical packet switching, optical buffering, network topology",

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AU - Harle, D.

AU - Cotter, D.

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N2 - Optical packet switching over arbitrary physical topologies generally requires complex routing schemes coupled with contention resolving buffering. However, the relatively immature nature of optical logic devices and the limitations associated with optical buffering provide significant incentive to reduce the routing complexity and avoid optical domain contentions. This paper examines how the Manhattan Street Network (MSN) may be used to facilitate optical packet switching over arbitrary physical topologies. Several pertinent novel costs are introduced. Simulated annealing is used to deploy the MSN (near) optimally as a virtual topology in the physical topologies. Favourable and encouraging results are obtained, indicating that deploying the MSN is an attractive means to switch packets optically over arbitrary topologies.

AB - Optical packet switching over arbitrary physical topologies generally requires complex routing schemes coupled with contention resolving buffering. However, the relatively immature nature of optical logic devices and the limitations associated with optical buffering provide significant incentive to reduce the routing complexity and avoid optical domain contentions. This paper examines how the Manhattan Street Network (MSN) may be used to facilitate optical packet switching over arbitrary physical topologies. Several pertinent novel costs are introduced. Simulated annealing is used to deploy the MSN (near) optimally as a virtual topology in the physical topologies. Favourable and encouraging results are obtained, indicating that deploying the MSN is an attractive means to switch packets optically over arbitrary topologies.

KW - optical packet switching

KW - optical buffering

KW - network topology

U2 - 10.1109/ICC.2001.936988

DO - 10.1109/ICC.2001.936988

M3 - Conference contribution book

SN - 0780370971

BT - ICC 2001. IEEE International Conference on Communications.

PB - IEEE

CY - Piscataway, N.J.

ER -

Ultrafast optical packet switching over arbitrary physical toplogies using the Manhattan Street Network

Abstract

Keywords

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