I started my short blog series last week on the world-wide undersea fiber optic cable systems with a history of undersea cable systems and a high-level overview of the components of a cable system. Now that you understand how the cable systems came about and what parts are involved, this week I'll go over how cable systems are deployed and repaired and finish with some facts on the world's current undersea cable systems.
Laying a new cable system can often be a multi-year effort. From business opportunity recognition, to requirements definition, to landing zones, to contract, to cable construction, to implementation, to testing.....you get the idea. It can take a while.
A few companies specialize in undersea cable deployments. Alcatel-Lucent is one. Alcatel-Lucent provides a wide array of hardware, software, facilities, and services to carriers. Alcatel even maintains its own fleet of ships to maintain cable systems for customers. Surprising to think that a telecom company like Alcatel has a fleet of ships. Sort of like eBay owning Skype......errr......never mind.....
Anyways, companies such as Alcatel can be contracted with to deploy new undersea cable systems. Once the fiber is ready, Alcatel uses its ships to deploy the cable in essentially 6 steps:
You now have an undersea fiber optic cable deployed. Alcatel has a very nice flash demo which shows this process.
Unfortunately, events often occur that cut undersea fiber optic cables. This can lead to massive outages, particularly in countries with limited and/or restricted Internet access. Carriers have gotten much better in the past few years dealing with undersea cable faults. Service restoration prioritization - for example, private MPLS services over general Internet - is done automatically now by optical mesh clouds based on standards such as GMPLS. Verizon often touts its optical mesh technology for undersea cable systems.
However, when a cable cut occurs, it has to be fixed. Fixing a cable cut is done with the same ships that laid the cable in the first place.
">
Today's undersea optical cable systems are a vast array of fibers, branches, meshes, and landing points. Alcatel provides some nice maps of the cable systems they have worked on.
There is no one map I know of that shows every cable system. THERE ARE JUST TOO MANY OF THEM! Verizon has a simple, interractive map of the systems they use. This is also a good map of the current major intercontinental (always wanted to use that word in a sentence!) cable systems.
The best list of all international undersea cable systems shows - by my best count - 288 individual cable systems. And remember, each system may have multiple cables. And each cable has multiple fibers in it. And each fiber, with Dense Wave Division Multiplexing (DWDM), can transfer many point-to-point connections on different lambdas. This takes the capacity of a single undersea fiber system into the Terabits.
The longest undersea cable system in the world - SEA-ME-WE-3 or South-East Asia - Middle East - Western Europe 3 - can transfer over 960 Gbps, close to 1 Tbps. SEA-ME-WE-3 has 39 landing points from Korea to Germany spanning 24,000 miles.
Optical Branching Units allow SEA-ME-ME-3 to drop off connections into countries along its route; such as India, Pakistan, Turkey, and Greece. SEA-ME-WE-3 has been so successful, SEA-ME-WE-4 has been built.
All of these amazing cable systems are truly a marvel of science and innovation. The ability to do a ping from North Carolina to India in under a quarter of a second:
US-DUR-CR01-B1DCA04>ping Bangalore-rtr Type escape sequence to abort. Sending 5, 100-byte ICMP Echos to 10.111.1.1, timeout is 2 seconds: !!!!! Success rate is 100 percent (5/5), round-trip min/avg/max = 224/224/224 ms
is just incredible.
More >From the Field blog entries:
The Incredible International Submarine Cable Systems
Tons of Great Content from Webtorials
Our New Data Center is A-L-I-V-E !!!!
Phase Two of our New Data Center Project has Begun
Cisco Advanced Services Education and the Awesome Technical Knowledge Library
My Interview with Cisco about the CCDE
Go to Cisco Subnet for more Cisco news, blogs, discussion forums, security alerts, book giveaways, and more.
Michael Morris is a communications engineering manager at a $3-billion high-tech company. His background is in enterprise WANs working with telcos and developing large-scale routing designs. He has worked on networks at government and corporate organizations, including networks at two Fortune 10 companies. In his current role, he leads a team of 10 engineers responsible for large-scale IT networking projects and architectural standards for data networks, storage area networks, IP telephony, contact centers, and security. Michael is CCIE #11733 and recently became one of the first three Cisco Certified Design Experts (CCDE) ever (#20080002). He has 11 years experience in networking and communications, including four years as a paratrooper in the U.S. Army. He has a bachelor's degree in MIS from the University at Buffalo and is working on his MBA from NC State University. In 2008, he was awarded the Network Professional Association (NPA) Professional Excellence and Innovation Award for his work on network architecture, templates and enterprise MPLS design.
The Leader in Network Knowledge
Fascinating post like the
Fascinating post like the last time around. Will tweet about it. :)
Cable Maps
Michael - if you are interested in submarine cable maps try http://www.telegeography.com/products/map_cable (and no I don’t work for them! honest).
What these maps don’t show is the vast numbers of coaxial or telegraph cables that outnumber the in service fibre optic cables. Put them all together and you really see the spaghetti legacy of the international communications industry.
submarine cable maps
you may be interested in the annually published map on submarine cable systems by Telegeography
http://www.telegeography.com/maps/index.php
See the following short
See the following short presentation about submarine cables. Funny/interesting comment at 12.00 :)
http://nanog.org/meetings/nanog42/presentations/NANOG-42-Submarine-Cable.wmv
Awesome post!
I'm completely fascinated with submarine cables. Awesome posts!
Undersea cable from Australia to Guam blog
Here is a good blog documenting the currently ongoing construction of an undersea fiber optic cable between Australia and Guam...
http://pipeinternational.com/
Post new comment