Tag Archive for Optical fiber

| June 23, 2015
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2Gbps Coming To Detroit

2Gbps Coming To DetroitNot so long ago, Comcast was leaving Detroit. Now, the embattled cable provider has announced a 2 Gbps fiber-to-the-home (FTTH) campaign in Motown. FierceTelecom reports that Comcast will bring its Gigabit Pro service to about 1.5 million homes in Michigan. The service will be offered to residential customers in Detroit, Flint, Grand Rapids, Jackson, and Lansing. Tim Collins, senior VP of Comcast’s Heartland Region, said in a release that the company’s move into Michigan is designed to address “tech-savvy residents who have a need for even faster speeds.

a need for even faster speedsSimilar to other markets, Detroit customers that live near Comcast’s fiber network will be eligible to get Gigabit Pro service. Comcast technicians will install an optical network terminal and related equipment at the customer’s home for the service. In addition to the metro-Detroit area, Comcast plans to offer the service in Benton Harbor and St. Joseph (as part of the Greater Chicago region).

Options in Detroit

Comcast has not yet disclosed what it will charge Detroiters for the Gigabit Pro offering. The author cites a DSL Reports article where Comcast was planning a $299 per month price tag for the service. That price would make it much more expensive than it competition. Google charge $70 per month for Google Fiber service or AT&T‘s (T) $120 per month charge for its gigabit services. However, it’s unclear if Comcast will adhere to that pricing when it does launch the service.

The article says today, Comcast charges $399.95 a month for its 505 Mbps tier. An Ars Technica report said Comcast’s 2 Gbps service will cost less than that. It also said that all 505 Mbps customers will be upgraded to the new Gigabit Pro service. As the MSO tries to work out pricing, it decided to delay the initial May release of the service in Detroit to a new, undetermined date.

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Let’s be honest, the real hero here is Dan Gilbert and his Rocket Fiber project. As has been the case where Google Fiber has gone in, the other players suddenly show an interest in that market. I predict a win for RocketFiber, because Mr. Gilbert’s people understand customer service and Comcast hates its customers.

 

Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

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| March 18, 2014
Comments Off on More Fiber in the D

More Fiber in the D

Mergers an d acquistionsUpdated – August 1, 2017 – Lightower Fiber Networks has agreed to be acquired by Crown Castle International Corp. for approx. $7.1 billion in cash. The deal is expected to close by the end of 2017.

Update – May 01, 2015 – Fibertech Networks was bought by Lightower Fiber Networks in a $1.9 billion all-cash deal that will create a fiber powerhouse in the eastern U.S.

More Fiber in the DRochester, New York-based Fibertech Networks plans to install more than 750 route miles of new fiber optic cable in Metro Detroit. This is the company’s 30th U.S. metro network. This will add more Detroit markets to their over 12,000 route miles of fiber-only network infrastructure. The area to be served include Trenton, Canton Township, Dearborn, Southfield, Warren, Troy, and Chesterfield Township.

Fibertech NetworksThis is a major expansion for Fibertech and an important step in our development as one of the largest and fastest-growing metro fiber providers in the eastern U.S.,” said John K. Purcell, chair and CEO of Fibertech, told  BusinessWire that the move was “an economic development initiative that we believe will help foster telecom competition, and business and employment growth.

The company’s service offering encompasses both dark fiber and optical broadband. They offer their facilities to businesses that have predominately used traditional carriers and lines in the past. The company’s services include point-to-point and multi-point Ethernet services with speeds ranging from 5 Mbps to 100 Gbps. They also offer DWDM, dedicated Internet access, and collocation.

Fibertech Networks network

Other fiber markets

In addition to Detroit, Fibertech has networks working in Pittsburgh, Pa.; Indianapolis; Akron, Cincinnati, Cleveland, Columbus, Dayton, and Toledo, Ohio. Markets on the east coast include Providence, R.I.; Hartford, Bridgeport, Stamford, Danbury, New London, and New Haven, Conn.; Springfield and Worcester, Mass. They also have fiber facilities in Syracuse, Rochester, Buffalo, Binghamton, White Plains, and Albany, N.Y.; Wilmington, Del.; Montgomery County, Md.; Trenton, Newark and Atlantic City, N.J.; and Philadelphia.

Fiber optic cableThis new network expansion is a natural 2013 extension of our market footprint given our growing presence in the Midwest and, most recently, our extension into five new markets in Ohio including Toledo,” said Mr. Purcell.

Fibertech was founded in May 2000, has built metro-area fiber networks in 29 mid-size markets in the eastern United States, and is led by Court Square Capital Partners of New York City. The company owns and operates a fiber-optic network of more than 9,500 route miles, which has more than 8,100 on-net locations with nearly 2,100 cell sites with its fiber-only network infrastructure.

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For the old-timers out there, remember Link-Michigan?

Another failed broadband initiative from Lansing. Fiber networks are a key to economic development. If the State can’t do what is right for its citizens, then the private sector will.

OMG did I just turn into a republican?

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Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

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| October 24, 2013
Comments Off on Whats a Petabit Network

Whats a Petabit Network

Whats a Petabit NetworkSeems like it was a couple of months ago, we were excited about fiber optic cable that twisted light to carry data at 1.6 Tbps per strand. Now a Petabit network is the new benchmark. U.K. and Japanese researchers mashed up software-defined networking (SDN) and multicore fiber to produce the first Petabit pipe according to Kevin Fitchard at GigaOM. A Petabit is one quadrillion (1,000,000,000,000,000 or 1015) bytes binary digits or one thousand Terabits.

Petabit network uses multicore fibers

Whats a Petabit NetworkThe researchers mashed up multicore fibers and SDN to makes very high-speed networks programmable. GigaOM speculates this will allow carriers to adjust the network capacity and latency to meet the needs of traffic traveling over their networks. First, GigaOM explains that the fiber is unlike today’s single strands of glass, or cores, that carry a single beam of light down the fiber. Multicore fiber is exactly what its name implies: multiple cores each carrying a single core’s worth of capacity over the same link. Professor Dimitra Simeonidou at the University of Bristol called current single-core fiber a capacity bottleneck.

Space Division Multiplexed

The multicore group, led by NICT and NTT in Japan which built a 450 km (280 miles) section of fiber optics using 12 cores in two rings capable of transmitting 409 Tbps in either direction. That’s 818 Tbps in total. Which is within spitting distance of seemingly mythical Petabit speeds according to GigaOM. The MCF research relies on Space Division Multiplexed (SDM) provided by the multicore fibers.

ResearcherIn order to control the massive bandwidth, a team from the High Performance Networks Group at the University of Bristol created an OpenFlow software-based control element to manage those enormous capacities. The Brits implemented an interface that dynamically configures the network nodes so that it can more effectively deal with application-specific traffic requirements such as bandwidth and Quality of Transport.

According to the researchers, this was the first time SDN was used on a multicore network. The University of Bristol presser announcing the new technology says this technology will overcome critical capacity barriers, which threaten the evolution of the Internet.

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OK, so that really – really – really fast. We also know from a 2011 New Scientist article that the total capacity of one of the world’s busiest routes, between New York and Washington DC, is only a few Terabits per second. With bandwidth-hungry applications like cloud computing, social media, and video-streaming continuously growing it forces network planners at firms like AT&T (T), Verizon (VZ), and the NSA to find new ways to grow their capacity.

Data center

Comcast (CMCSA) just finished a 1 Tbps network field trial on a production network between Ashburn, VA, and Charlotte, NC. Most likely the first place Pbps networking will be used is in the mega-data centers of the likes of Google (GOOG), Facebook (FB), or Microsoft (MSFT).

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Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

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| August 1, 2013
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ALU Gets 31 Tbps

ALU Gets 31 TbpsDavid Meyer at GigaOM noted the latest tests by Alcatel-Lucent’s (ALU) venerable Bell Labs division. The lab has figured out how to increase the bandwidth of submarine cables by a factor of three. They were able to move traffic at 31 Terabits per second (Tbps).

Alcatel-Lucent logoAlcatel-Lucent says it has broken the record for the amount of data that can be pushed through submarine cables. They claim to have achieved 31 Terabits per second over a single fiber that’s 4,474 miles long. For comparison, the Register figured that the average 15 minute, low-res movie is about 100Mb in size. They calculate that the new cable could speed 40,632 flix across the Atlantic every second. That would be enough for 423 days and nights of non-stop video viewing – in just one second.

It is important to remember we’re talking about a lab test. The test took place at ALU’s Innovation City campus in Villarceaux near Paris. The GigaOm article notes that the researchers with Bell Labs squeezed almost 10 Tbps more out of the fiber than the 21.7Tbps that NEC (6701) and Verizon (VZ) managed last year. This is three times roomier than in today’s most advanced commercial undersea cables.

Transoceanic cable

transoceanic cableThe author points out that that’s just one fiber and a transoceanic cable may have eight pairs of fibers. Again, this is a lot of capacity. However, it’s also worth noting that Alcatel-Lucent’s tests required a signal amplifier every 100km along the line.

The article claims that ALU’s Bell Labs division has done this type of research since 1925 in New Jersey. This type of work is more critical to ALU than ever. In June 2013, Alcatel-Lucent announced its “Shift Plan”, which involves moving away from being a telecoms equipment generalist. They want to be a specialist in IP networking and mobile and fixed broadband access. Philippe Keryer, Alcatel-Lucent’s chief strategy, and innovation officer said in a statement:

Undersea fiber-optic transmission is integral to the digital economy, delivering vast amounts of video and data between countries, regions and continents. As our customers cope with increasing demand on their networks for data capacity and higher-speeds of transmission, our researchers are intensifying their application with tests like this to develop new technology solutions to transform global data networks.

Wavelength division multiplexing (WDM)Mr. Meyer explains the test used Bell Labs’s technique for squeezing 200Gbps through a single data channel. It used 155 lasers, each one carrying 200Gbps at a different frequency. This represents an enhancement to the wavelength division multiplexing (WDM) techniques that run at up to 100Gbps in today’s commercially deployed cable.

Normally such signals suffer from distortions and noise, which limit performance. But GigaOM understands that Alcatel-Lucent was able to resolve this by using an enhanced version of WDM. The enhanced WDM works by splitting light up into different wavelengths so that it can carry more data.

Long-haul high-speed networking

Increasing bandwidthThe pace of development in the long-haul high-speed networking field is impressive. It’s easy to see just how far we’ve come. GigaOM provided a quick look at some of the other recent developments in long-haul high-speed networking.

  • May 2011 a team of German, UK, and Swiss scientists successfully used Orthogonal Frequency-Division Multiplexing (OFDM) to send data at a rate of 26Tbps over a 50km long single-mode fiber optic cable.
  • January 2012 a Japanese team working out of NEC successfully transmitted 4Tbps over a single “ultra-long haul” (10,000km) fiber optic cable without repeaters by making use of WDM just like Alcatel-Lucent.
  • May 2013 a more exotic approach with the UK test of hollow fiber optic cable that delivered speeds of 73.7 Tbps.

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Remember that the NSA has a submarine, the USS Jimmy Carter designed to tap undersea telecom cables on the bottom of the sea. This new speed record could be used to spy on more people.

 The Undersea Cables that Connect the World

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Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

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| July 18, 2013
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Twisted Light Speeds Up Internet

Twisted Light Speeds Up InternetAll the data the reaches every Internet-connected home, business, and mobile device get there via thousands of miles of laser-filled glass, copper, or plastic wires. Firms large and small are constantly developing new ways to pack as much data as possible into these cables (rb- I’ve covered many of these developments here, here, and here). Here is a new theory that uses twisted light.

Multi Mode FiberSigne Brewster at GigaOM wrote about a major leap in how much data Comcast (CMCSA)AT&T (T), and Verizon (VZ) can send down the Internet tubes. Researchers at Boston University and the University of Southern California were able to send 1.6 terabits per second of data (rb- equal to transmitting eight Blu-Ray DVDs every second) 1 kilometer in the lab. They have developed data beams that travel in a spiral instead of a straight line without getting jumbled together.

Orbital angular momentum beams

They keep the beams in order by generating optical vortices (a.k.a orbital angular momentum, or OAM beams) with what ScienceNews called a spatial light modulator. Most researchers thought that OAM beams were unstable in fiber. That was until Siddharth Ramachandran, an electrical engineer, and leader of the Boston University team designed an optical fiber that can propagate the twisted light. The BU team created an OAM fiber with four modes (varying index of refraction an optical fiber typically has two modes) and showed that for each mode, they could send data through a one-kilometer fiber in different colors, resulting in a transmission capacity of 1.6 terabits per second.

spatial light modulator.The DARPA-funded search for ways to squeeze ever more information into the fiber-optic cables that carry it could not come at a better time as mobile devices fuels rapidly growing demands on the Internet. BU’s Ramachandran told Futurity.org, “Our discovery …  has profound implications for a variety of scientific and technological fields that have exploited the unique properties of OAM-carrying light, including the use of such beams for enhancing data capacity in fibers.”  The result is more data in the same length of cable. Science (subscription required) published the new research in its June 28 edition.

10 beams of twisted light in custom fiber

The spiral beams can be combined with existing bandwidth boosting techniques, such as sending many beams through a cable at once according to the author. The spiral beams are sent along different paths and made to be different colors, which differentiates them and lowers the computing necessary to process them once they reach their destination.

Mad scientistThe researchers say they can send up to 10 concurrent beams through their custom fiber. They hope to squeeze more data into each of those beams using methods already exploited by the telecom industry. “We showed a new degree of freedom in which we could transmit information,” says Professor Ramachandran.

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As this technology sits now, it has limited use. The 1.1 Km distance will limit it to the data center, once Cisco (CSCO), Intel (INTC), and HP (HPQ) figure out how to deal with the data.

orbital angular momentumThen there is the issue of re-wiring the backbone with new cables to accept the OAM beams, at&t alone has 77,000 route miles (PDF) of fiber optic cable in the U.S. The BU professor told GigaOM that the team manufactured its fiber at a commercial facility using standard methods, so if it were mass-produced, the fiber should not cost much more than those now in use.

The current speed record, set in 2011, is 100 Tbps, 1.6 Tbps seems kind of wimpy in comparison. which is faster than this cable.

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Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

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