Crosstalk-preventing scheduling in single- and two-stage AWG-Based cell switches

Andrea Bianco; David Hay; Fabio Neri

doi:10.1109/TNET.2010.2054105

Crosstalk-preventing scheduling in single- and two-stage AWG-Based cell switches

Andrea Bianco, David Hay, Fabio Neri

Research output: Contribution to journal › Article › peer-review

Abstract

Array waveguide grating (AWG)-based optical switching fabrics are receiving increasing attention due to their simplicity and good performance. However, AWGs are affected by coherent crosstalk that can significantly impair system operation when the same wavelength is used simultaneously on several input ports. To permit large port counts in a N × N AWG, a possible solution is to schedule data transmissions across the AWG preventing switch configurations that generate large crosstalk. We study the properties and the existence conditions of switch configurations able to control coherent crosstalk. The presented results show that, by running a properly constrained scheduling algorithm to avoid or minimize crosstalk, it is possible to operate an AWG-based switch with large port counts without significant performance degradation.

Original language	English
Article number	5546932
Pages (from-to)	142-155
Number of pages	14
Journal	IEEE/ACM Transactions on Networking
Volume	19
Issue number	1
DOIs	https://doi.org/10.1109/TNET.2010.2054105
State	Published - Feb 2011
Externally published	Yes

Keywords

Arrayed waveguide grating (AWG)
coherent crosstalk
input-queued switches
optical switchings
scheduling algorithms

All Science Journal Classification (ASJC) codes

Software
Computer Science Applications
Computer Networks and Communications
Electrical and Electronic Engineering

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10.1109/TNET.2010.2054105

Cite this

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title = "Crosstalk-preventing scheduling in single- and two-stage AWG-Based cell switches",

abstract = "Array waveguide grating (AWG)-based optical switching fabrics are receiving increasing attention due to their simplicity and good performance. However, AWGs are affected by coherent crosstalk that can significantly impair system operation when the same wavelength is used simultaneously on several input ports. To permit large port counts in a N × N AWG, a possible solution is to schedule data transmissions across the AWG preventing switch configurations that generate large crosstalk. We study the properties and the existence conditions of switch configurations able to control coherent crosstalk. The presented results show that, by running a properly constrained scheduling algorithm to avoid or minimize crosstalk, it is possible to operate an AWG-based switch with large port counts without significant performance degradation.",

keywords = "Arrayed waveguide grating (AWG), coherent crosstalk, input-queued switches, optical switchings, scheduling algorithms",

author = "Andrea Bianco and David Hay and Fabio Neri",

note = "Funding Information: Manuscript received September 15, 2009; revised March 31, 2010 and June 12, 2010; accepted June 12, 2010; approved by IEEE/ACM TRANSACTIONS ON NETWORKING Editor T. Bonald. Date of publication August 12, 2010; date of current version February 18, 2011. This work was supported by the BONE-project (“Building the Future Optical Network in Europe”), a Network of Excellence funded by the European Commission through the 7th ICT-Framework Programme. The work of D. Hay was supported by CIAN NSF ERC under Grant EEC-0812072.",

year = "2011",

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doi = "10.1109/TNET.2010.2054105",

language = "الإنجليزيّة",

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AU - Hay, David

AU - Neri, Fabio

N1 - Funding Information: Manuscript received September 15, 2009; revised March 31, 2010 and June 12, 2010; accepted June 12, 2010; approved by IEEE/ACM TRANSACTIONS ON NETWORKING Editor T. Bonald. Date of publication August 12, 2010; date of current version February 18, 2011. This work was supported by the BONE-project (“Building the Future Optical Network in Europe”), a Network of Excellence funded by the European Commission through the 7th ICT-Framework Programme. The work of D. Hay was supported by CIAN NSF ERC under Grant EEC-0812072.

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N2 - Array waveguide grating (AWG)-based optical switching fabrics are receiving increasing attention due to their simplicity and good performance. However, AWGs are affected by coherent crosstalk that can significantly impair system operation when the same wavelength is used simultaneously on several input ports. To permit large port counts in a N × N AWG, a possible solution is to schedule data transmissions across the AWG preventing switch configurations that generate large crosstalk. We study the properties and the existence conditions of switch configurations able to control coherent crosstalk. The presented results show that, by running a properly constrained scheduling algorithm to avoid or minimize crosstalk, it is possible to operate an AWG-based switch with large port counts without significant performance degradation.

AB - Array waveguide grating (AWG)-based optical switching fabrics are receiving increasing attention due to their simplicity and good performance. However, AWGs are affected by coherent crosstalk that can significantly impair system operation when the same wavelength is used simultaneously on several input ports. To permit large port counts in a N × N AWG, a possible solution is to schedule data transmissions across the AWG preventing switch configurations that generate large crosstalk. We study the properties and the existence conditions of switch configurations able to control coherent crosstalk. The presented results show that, by running a properly constrained scheduling algorithm to avoid or minimize crosstalk, it is possible to operate an AWG-based switch with large port counts without significant performance degradation.

KW - Arrayed waveguide grating (AWG)

KW - coherent crosstalk

KW - input-queued switches

KW - optical switchings

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JO - IEEE/ACM Transactions on Networking

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Crosstalk-preventing scheduling in single- and two-stage AWG-Based cell switches

Abstract

Keywords

All Science Journal Classification (ASJC) codes

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