Analysis and Demonstration of Network Utilization Improvement Through Format-Agnostic Multi-Channel Wavelength Converters

Kiyo Ishii; Takashi Inoue; Inwoong Kim; Xi Wang; Hung Nguyen Tan; Qiong Zhang; Tadashi Ikeuchi; Shu Namiki

doi:10.1364/JOCN.10.00A165

Journal of Optical Communications and Networking
Vol. 10,
Issue 2,
pp. A165-A174
(2018)
•https://doi.org/10.1364/JOCN.10.00A165

Analysis and Demonstration of Network Utilization Improvement Through Format-Agnostic Multi-Channel Wavelength Converters

Kiyo Ishii, Takashi Inoue, Inwoong Kim, Xi Wang, Hung Nguyen Tan, Qiong Zhang, Tadashi Ikeuchi, and Shu Namiki

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Kiyo Ishii, Takashi Inoue, Inwoong Kim, Xi Wang, Hung Nguyen Tan, Qiong Zhang, Tadashi Ikeuchi, and Shu Namiki, "Analysis and Demonstration of Network Utilization Improvement Through Format-Agnostic Multi-Channel Wavelength Converters," J. Opt. Commun. Netw. 10, A165-A174 (2018)

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About this Article
History
- Original Manuscript: July 3, 2017
- Revised Manuscript: October 25, 2017
- Manuscript Accepted: November 7, 2017
- Published: January 18, 2018
Virtual Issues
Journal of Optical Communications and Networking OFC 2017 (2018)

Abstract

The effectiveness of using all-optical wavelength converters (AO-WCs) to improve optical network utilization is evaluated by performing both network simulations and experiments. The employed AO-WCs enable format-agnostic and multi-channel operations, in which the wavelengths of multiple input channels are simultaneously shifted by the same amount. Such unique features are not available in conventional optical–electrical–optical-conversion-based wavelength converters (OEO-WCs). Network simulations show that the wavelength conversion can double the network utilization (the carried traffic), while the number of required wavelength converters can be significantly reduced by 60% by employing AO-WCs instead of OEO-WCs. In addition, simulation results confirm the importance of AO-WC cascadability for achieving low blocking probabilities. Our simulation analysis also identifies an optimum AO-WC specification value, the maximum wavelength shift, for maximizing sharing of the installed AO-WCs. In the experiment, the performance of a prototyped AO-WC is evaluated under a realistic network setup employing a wavelength-selective-switch-based optical node installing the AO-WC and fiber transmission lines. Wavelength division multiplexing signals of different modulation formats, including dual-polarization quadrature phase shift keying (DP-QPSK), dual-polarization 16 quadrature amplitude modulation (DP-16QAM), and on−off keying (OOK), spanning over a 1000 GHz bandwidth are successfully shifted simultaneously by 1400 GHz or 200 GHz without significant signal quality degradation, confirming the guard-band-less, multi-channel, and modulation-format/line-rate-agnostic capabilities of the AO-WC.

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	Scenario 1: 200 GHz Shift	Scenario 2: 1400 GHz Shift
Drop	$λ_{3}$ , $λ_{4}$ , $λ_{7}$ , $λ_{8}$ , $λ_{13}$	$λ_{4}$ , $λ_{8}$ , $λ_{12}$ , $λ_{14}$ , $λ_{15}$ , $λ_{16}$ , $λ_{17}$ , $λ_{20}$ , $λ_{23}$ , $λ_{25}$
Pass-through	$λ_{5}$ , $λ_{9}$	$λ_{3}$ , $λ_{5}$ , $λ_{7}$ , $λ_{9}$ , $λ_{13}$ , $λ_{18}$ , $λ_{21}$
Add	$λ_{1}$ , $λ_{2}$ , $λ_{6}$ , $λ_{10}$	$λ_{1}$ , $λ_{2}$ , $λ_{6}$ , $λ_{10}$
Conversion	$[λ_{1}, λ_{2}, λ_{6}, λ_{10}]$ to $[λ_{3}, λ_{4}, λ_{8}, λ_{12}]$	$[λ_{1}, λ_{2}, λ_{6}, λ_{10}]$ to $[λ_{15}, λ_{16}, λ_{20}, λ_{24}]$

	Scenario 1: 200 GHz Shift	Scenario 2: 1400 GHz Shift
Drop	$λ_{3}$ , $λ_{4}$ , $λ_{7}$ , $λ_{8}$ , $λ_{13}$	$λ_{4}$ , $λ_{8}$ , $λ_{12}$ , $λ_{14}$ , $λ_{15}$ , $λ_{16}$ , $λ_{17}$ , $λ_{20}$ , $λ_{23}$ , $λ_{25}$
Pass-through	$λ_{5}$ , $λ_{9}$	$λ_{3}$ , $λ_{5}$ , $λ_{7}$ , $λ_{9}$ , $λ_{13}$ , $λ_{18}$ , $λ_{21}$
Add	$λ_{1}$ , $λ_{2}$ , $λ_{6}$ , $λ_{10}$	$λ_{1}$ , $λ_{2}$ , $λ_{6}$ , $λ_{10}$
Conversion	$[λ_{1}, λ_{2}, λ_{6}, λ_{10}]$ to $[λ_{3}, λ_{4}, λ_{8}, λ_{12}]$	$[λ_{1}, λ_{2}, λ_{6}, λ_{10}]$ to $[λ_{15}, λ_{16}, λ_{20}, λ_{24}]$

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Journal of Optical Communications and Networking