Alcatel-Lucent 100 GbE User manual

Brand: Alcatel-Lucent

Model: 100 GbE

Category: Networking

Type: User manual

Alcatel-Lucent 100 GbE is a high-speed networking solution designed for next-generation optical transport networks. It offers ultra-high capacity and spectral efficiency, enabling 100Gb/s transmissions over existing 10/40G DWDM systems. With advanced features like dispersion tolerance and polarization-division multiplexing, it ensures reliable data transmission even over long distances without the need for dispersion compensation units. Ideal for meeting the growing bandwidth demands of data centers, metro/core networks, and video streaming applications.

Alcatel-Lucent Innovation Days – December 2008

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.

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).

Figure 1: Technology roadmap of optical transport networks.

40/100GbE will be dominant technology within the next decade.

Alcatel-Lucent’s concepts and real-time trials

demonstrate 100Gbe’s graceful introduction and

evolution to meet operators’ future needs.

Challenges

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:

• Stronger transmission signal impairments

associated with the upgrade of data rates,

due to chromatic dispersion (CD) and

polarization mode dispersion (PMD), must be

compensated or mitigated efficiently.

• 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.

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

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.

Figure 2: Nx100Gb/s Coherent PDM-QPSK DWDM transmission over

1200km laboratory fibre link.

Verizon 100G field trial with live traffic

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.

10Mb/s

10Gb/s

1Gb/s

100Mb/s

100Gb/s

THE

ETHERNET

EVOLUTION

ROADMAP

(LAN/WAN)

100GbE

10GbE

1GbE

100MbE

10MbE

40GbE

DAT

RAT

2000

2010

1990

YEAR

40/100GbE will be

dominant transport

technology in next

generation optical

metro/core networks

A.O.

SSMF

Tunable

filter

A.O.

100km

SSMF

100G

Coherent

WSS

Optium

2x28Gbit/s

M wavelengths

QPSK

2x28Gbit/s

Nx112Gbit/s

Switch

Fiber (dispersion, PMD)

A.O.

SSMF

Tunable

filter

A.O.

100km

SSMF

100G

Coherent

WSS

Optium

2x28Gbit/s

M wavelengths

QPSK

2x28Gbit/s

Nx112Gbit/s

Switch

Fiber (dispersion, PMD)

Polarization Division Multiplexed

Quadrature Phase Shift Keying

Transmitter

100 Gigabit Ethernet (100 GbE)

Advanced Serial 100Gb/s Transmission Technology for Next Generation

Optical Transport Networks

Figure 3: Verizon 100Gb/s transmission trial over 500 km link.

In a trial in Germany (Figure 4) dense-wavelength-

division-multiplexed(DWDM) 100Gb/s channels were

sent efficiently over long-haul fiber infrastructure

exhibiting typical field transmission characteristics.

Figure 4: 8x100Gb/s NRZ-VSB DWDM transmission over 500km

installed field fiber with typical field transmission characteristics.

Scenario

A number of new broadband applications—HDTV

distribution, video downloading, data center content

delivery, etc.—are feeding continued traffic growth in

metro/core networks. Figure 5 shows actual (2008)

composition of network traffic. It illustrates that

broadband/video services (e.g. video distribution,

online video recording, YouTube, iPlayer...) already

dominate network traffic. Important future traffic

drivers will emerge from advanced applications like

telepresence and sensor networks. In other words,

we are only at the beginning of the expected

explosion in both underlying traffic and the need for

more bandwidth for sophisticated applications.

Figure 5: Actual composition of network traffic (2008)

Regardless of what the future may bring in terms of

new applications, the novel 100GbE-based transport

technology represents an important step towards

insuring the capacity and flexibility will be there to

accommodate overall traffic growth requirements.

The proof can already be seen in the pioneering

results on advanced 100Gb/s serial transmission

achieved by Bell Labs. This include records in high

capacity and spectral efficiency of Nx100Gb/s DWDM

transmission, and first real-time 100Gb/s field

transmission trials with live traffic.

BENEFIT:

Bell Lab’s expertise in 100Gb/s assures

that operators are ready for the coming explosion in

bandwidth-hungry applications and services.

Contact:

Gustav.Veith@alcatel-lucent.com

Sebastien.B[email protected]

winzer@alcatel-lucent.com

Optical Networks Domain

Alcatel-Lucent Bell Labs

Résumé:

Nous sommes à la veille d'une explosion des besoins en bande

passante, du fait de l'augmentation au niveau mondial du nombre

d'utilisateurs et du développement d'applications sophistiquées et

riches en contenus. Les systèmes 100 GbE constitueront

l'infrastructure dominante de prochaine génération qui sera

déployée pour faire face à cet accroissement. Les chercheurs

d’Alcatel-Lucent Bell Labs ont mis au point des concepts et réalisé

des essais en temps réel sur le terrain qui démontrent qu'ils

disposent de solides compétences dans le domaine de la

technologie 100 GbE. Grâce à ces compétences, ils permettent aux

opérateurs de se préparer efficacement afin de rester réactif, quelle

que soit l'évolution future du haut débit.

BB Internet/Residential Access

25%

27%

11%

2008

31%

Private Line

Voice

Video Distribution

BB Internet /SME Access

BB/Video

Live HDTV Video

Transmission over a

100Gb/s optical channel

on Verizon national video

service network

Darmstadt Ladenburg

Karlsruhe

8x107G TX

107G RX

Stuttgart

Opt.

PMDC

L = 79,7 km

L = 95.0 km

L = 75,4 km

Nx100G over 500 km DTAG field fiber link

Alcatel-Lucent Innovation Days – December 2008

Alcatel-Lucent 100 GbE User manual

Brand: Alcatel-Lucent

Model: 100 GbE

Category: Networking

Type: User manual

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Alcatel-Lucent 100 GbE User manual

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