Optical Networking Primer

TF-PR, Paris, September 2006 1John Dyer <John.Dyer@terena.nl>

Optical NetworkingPrimer

John DyerTERENA

http://www.terena.nl

Troy – 1200 BC

Troy to Agamemnon’s palace in Mycenae, 600km

Troy – 1200 BC

le télégraphe optique

• First real purpose built optical communication device

• L'invention de : Claude Chappe -1791

National Optical Network

Performance

• 1794 - 230 km between Paris and Lille

• By 1850 network grew to 556 stations covering 5000 km

• 20 to 30 seconds per symbol per station in good weather conditions:More than 1 hour the characters on this slide

Electric Replaces Optical

• 1816 Francis Ronalds• 8 miles of Iron wires

• 1855 Giovanni Caselli • telegraph line between

Paris and Lyon

1876 - Telecommunications goes analogue

Analogue Signals

Source

Attenuation

Output

Analogue over copper

• Copper wire has narrow bandwidth• Insufficient for backbones/long haul

at high speed

Sending Digital Signals

Coaxial cable

Digital over Analogue

• 1950’s US Defence• 1958 - DARPAnet• 1962 – Bell 103 modem• 300 bits per second

(about 40 characters per second)

The move to optical transmission

• 1975 – Bell – 14 Km of waveguide in New Jersey, US

• 1977 – Bell – live telephony in Chicago• 1977 – BT, UK live telephony• 1986 – Fibre link across English channel• 1988 – TAT-8 First Transatlantic Fibre

• 280 Mbps and retired in 2002 (14 years)

Fibre Transmission

Fibre Optic Cables

Transmission

• Chromatic Dispersion• Phase Dispersion• Attenuation

Digital can be cleanly regenerated

Source

Attenuation

Output Regeneration

Building Blocks

Building an Optical Network

Electrical & Optical Devices

Classical Electrical

Switch

O-E-OSwitch

All OpticalSwitch

Electrical Domain

Optical Domain

emerging

Optical Switches - MEMs

Electromagnetic Spectrum

10−9m = nanometre

lambda

Multiple lambdas

Don’t forget – λ’s in non-visible850nm 1600nm1300nm

Single Wave Length in a single fibre pair

Wave Division Multiplexing (WDM) in a single pair

Generalised IP Network

Backbone Core Optical

User Classes

DSL GigE LAN

A Need full Internet routingB Need VPN services on/and full Internet routingC Need very fat pipes, limited multiple Virtual Organizations

Source: Cees de Laat, UvA

Number of users

Bandwidth consumed

Hybrid Networking

Getting Access to Fibres

• Buy or Lease a service• IP level or optical path

• IRU • (Indefeasible Right of Use )

• Dig it yourself

Flexibility& control complexity

GLIFGlobal Lambda Integrated Facility

GLIF Open Lightpath Exchanges

• GLIF lambdas are interconnected through established exchange points known as GOLEs.

• GOLEs are comprised of equipment capable of terminating lambdas and performing lightpath switching, allowing end-to-end connections

• Open connection policy

Established GOLEs

• CANARIE-StarLight, Chicago (CANARIE)

• CANARIE-PNWGP, Seattle (CANARIE)

• CERN, Switzerland (CERN)

• KRLight, Seoul (KISTI)

• MAN LAN, New York (Internet2, NYSERNET, Indiana Uni & IEEAF)

• NetherLight, Amsterdam (SURFnet)

• NorthernLight, Stockholm (NORDUnet)

• Pacific Northwest GigaPoP, Seattle (Consortium of research and education orgs )

• StarLight, Chicago (UIC/EVL, NWU/iCAIR & Argonne)

• T-LEX, Tokyo (WIDE)

• UKLight, London (UKERNA)

• UltraLight, Los Angeles (Caltech/NSF)

GLIF Working Groups

• TERENA provides GLIF secretariat function

• Governance & Growth• Chair: Kees Neggers (SURFnet)

• Technical Issues• Co-Chairs: Erik-Jan Bos (SURFnet) & René Hatem

(CANARIE)• Control Plane & Grid Integration Middleware

• Chair: Gigi Karmous-Edwards (MCNC)• Research & Applications

• Co-Chairs: Maxine Brown (UIC) & Larry Smarr (UCSD)

References

• The Telegraph Of Claude Chappe -An Optical Telecommunication Network For The XVIIIth Centuryhttp://services3.ieee.org/organizations/history_center/cht_papers/dilhac.pdf

• Data Communications: The First 2500 Yearshttp://spinroot.com/gerard/pdf/hamburg94b.pdf

• A Survey of MEMS-Enabled Optical Devices – (January 2006)http://www.iec.org/newsletter/jan06_2/broadband_1.html

• Wavelength switches and the automated optical network – Status & outlook (2005)http://www.telenor.com/telektronikk/volumes/pdf/2.2005/Page_081-086.pdf

• GLIF websitehttp://www.glif.is

Good luck with finding your way home

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