100 Gigabit Ethernet (100 GbE)
Advanced Serial 100Gb/s Transmission Technology for Next Generation
Optical Transport Networks
polarization mode dispersion (PMD), must be
compensated or mitigated efficiently.
Context
Modern telecommunication networks need to be built
with enormous traffic growth in mind. For example,
today some internet exchange nodes have annual
growth rates of more than 200% due to dramatic
increases in users coupled with the needs of enriched
data and broadband video services.
•
•
Spectral efficiency must increase, enabling
100Gb/s transmissions over exsiting 10/40G
DWDM systems (50/100GHz channel spacing).
Complex integrated circuits for digital signal
processing (DSP) and new very high-speed
components have to be developed using
state-of-the-art electronics and photonics.
Accommodation of the global explosion in traffic
(Figure 1) can only be assured by implementation of
the most advanced high capacity optical metro/core
transport network technologies. Soon networks based
on next generation 40/100 Gigabit Ethernet (GbE)
transport technologies will predominate. They will be
based on standards currently under preparation by
several standards organisations (e.g. IEEE, ITU-T).
Innovation
Alcatel-Lucent has developed 100 Gbe concepts,
shown prototypes and done field trials demonstrating
its expertise in addressing future requirements.
Dispersion tolerant serial Nx100Gb/s DWDM
transmission with high spectral efficiency
DAT
A
RAT
Figure 2 is a schematic of how high capacity
Nx100Gb/s optical transmission is feasible over long-
haul fiber links without dispersion compensation units
(DCU) using conventional 10Gb/s DWDM platforms
with narrow channel spacing (50GHz) corresponding
to a spectral efficiency of 2bit/s/Hz.
THE
ETHERNET
EVOLUTION
ROADMAP
100Gb/s
100GbE
40GbE
10Gb/s
1Gb/s
10GbE
1GbE
2x28Gbit/s
QPSK
Fiber (dispersion, PMD)
Nx112Gbit/s
A.O.
100MbE
100Mb/s
10Mb/s
40/100GbE will be
dominant transport
technology in next
generation optical
100G
Coherent
RX
10MbE
Switch
Tunable
filter
QPSK
metro/core networks
2x28Gbit/s
SSMF
100km
SSMF
2010 YEAR
1990
2000
Polarization Division Multiplexed
Quadrature Phase Shift Keying
Transmitter
A.O.
Figure 1: Technology roadmap of optical transport networks.
40/100GbE will be dominant technology within the next decade.
x3
SSMF
SSMF
1
WSS
Optium
3
Alcatel-Lucent’s concepts and real-time trials
demonstrate 100Gbe’s graceful introduction and
evolution to meet operators’ future needs.
Figure 2: Nx100Gb/s Coherent PDM-QPSK DWDM transmission over
1200km laboratory fibre link.
Challenges
Verizon 100G field trial with live traffic
To get from here to there, several challenges
associated with development and operation of ultra-
high speed components and systems for serial 100
Gbit/s optical transmission must be overcome:
Alcatel-Lucent, in a real-time field trial with Verizon
(Figure 3), proved a 100Gb/s channel carrying a HDTV
video signal can transmit parallel to existing live
traffic 10Gb/s DWDM channels.
•
Stronger transmission signal impairments
associated with the upgrade of data rates,
due to chromatic dispersion (CD) and
Alcatel-Lucent Innovation Days – December 2008
Download from Www.Somanuals.com. All Manuals Search And Download.
Alcatel-Lucent Innovation Days – December 2008
Download from Www.Somanuals.com. All Manuals Search And Download.
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