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Optical Fiber Capacity Growth

Posted by timothy on from the pulses-of-light dept.

kastaverious writes: "I found this on Scientific American. It talks about developments in all optical switching and the growth in capacity of optical fiber. The article has some interesting graphs of bandwidth demand and the growth in bandwidth availabilty. There is also a good explanation of some of the technical issues involved in increasing switching capacity, and efforts underway to overcome these problems." The article also has lots of good SciAm-style graphics. This short article at Janes also sheds some light on the world on undersea cable laying, which also recalls the article Neal Stephenson wrote for Wired a few years ago.

5 of 54 comments (clear)

  1. one day... by LordArathres · · Score: 3

    One day we wont have internet lag.
    One day our connection will be several gigs/sec.
    One day there will be no keyboards.
    One day etc etc...
    This is all fine and good and it will be one day, however I do not think that fibre optic cabling will allow us all to do this. First of all it is VERY expensive and not easy to repair if it sits on the bottom of the ocean. I think better satellite systems and/or wireless will be the future. But currently that is what we have and we are making it work.
    It impresses me how much cable has already been laid and how much more will be. The cost and resources must be staggering. I've been on ships and just trying to imagine laying cable behind the ship for THOUSANDS of miles if well and I quote...
    "Whoa"
    I still guess it is easier than laying down fibre optic networks on land b/c of all the construction etc necessary.
    Until that day that we all have a direct fibre optic connection or satellite (not current crap satellites but good ones) connections I guess i'll be stuck with my 18 kb/sec DSL connection. I should not complain as I remember back when the 2400 baud modems came out and then the 9600 was revolutionary that we HAD to have even thinking "How can they make this better?"

    just my 1:40 am half asleep at work opinion.
    Lord Arathres

    --


    stainless steel
    1. Re:one day... by grammar+nazi · · Score: 4
      Everyone on Slashdot thinks that the cost of laying new fiber optic cable is the only cost associated with cables. Let me inform you:

      1. Copper cable is heavy. One mile of Copper cable is a few thousand pounds, compared to one mile of optic which is under one hundred pounds (depending on the type).

      2. When used in telecommunications systems, copper wire needs repeater stations every 2-3 miles. These are stations that people have to routinely check and fix when something breaks. Fiber optic in contrast, only needs 1 repeater station every 300-500 miles.

      3. I forget the actual sizes, but you can send more bandwidth on one little optic than you can send in a large diameter bundle of copper wires.

      4. Glass is cheaper than copper. Once the manufacturing technology of glass fibers catches up to that of copper wire, than the prices for optical cable will be cheaper than that of copper.

      Finally, I fail to see how copper wire is any easier or cheaper to repair than optical wire when it is on the bottom of the ocean. This is an argument for a wireless system, but I think that there would be too much latency in a wireless system.

      --

      Keeping /. free of grammatical errors for ~5 years.
  2. Articles accurate but too fluffy. Smoke & Mirrors by Devout+Capitalist · · Score: 5
    The article misses the key technologies of the future summarized as the smoke and mirrors story I came up with over at Sun Microsystems. We used this to talk about honking bandwidth, the need for big servers, and why a portable language like Java makes sense.

    DWDM is a start, but there are two major problems:

    • Smoke:Right now we can throw a lot of bandwidth across a long haul fiber, but these use expensive lasers that run only one or two protocols. There are a lot of seperate networks, HTTP/TCP/IP, SONET, some voice stacks, even Telex. Each of these networks has its own protocol stack right down to some fiber based ethernet standard or hacked up 1990's protocol. The best solution is to make a 'smoke' box that will allow splitting by frequency so that I can run a dozen frequencies as SONET, a dozen as voice, and twenty TCP/IP. The magic 'smoke' box splits the incomming fiber into several seperate fibers, each carrying a distinct set of frequencies that can leverage other equipment. By combining together different inputs, I can use a single long fiber for multiple networks. One order of magnitude.
    • Mirrors:This is the area where Lucent is making some progress. I need to do some nifty tricks with routing or my gross bandwidth buries my useful bandwidth. All the ATM switch cloth with IP cache in the world won't help if I need to cross over the optical/electrical boundry for every packet. A 'mirror' could be the simple stuff with Lucent using a physical switch to reimplement timesharing (1 cycle for SF to NY, 1 for SF to Boston, 1 for San Jose to NY, ...). The mythical mirror solution is to hit a lattice with a signal such that the reflection property reflects to a different destination. You would only need to cross the boundry for the destination part of a packet or routable stream. This 'mirror' magic would be an independent improvement from DWDM or 'smoke'. Most likely, you would use DWDM, split to fibers with smoke, route with mirrors. Another order of magnitude; maybe two.

    Finally, give up on rewiring the last mile. The DSP and other signal processing tricks will get faster and cheaper more quickly than any solution that requires rewiring. It makes financial sense to swap end point electronics rather than rip open walls. You may see many more COs making shorter runs to the houses, but either existing coax or twisted pair into the house will carry our future bandwidth. (Thanks to Brent and Richard for convincing me.)

    I miss Sun, they had more interesting problems than running a non-profit. See the non-profit at TrueGift Donations.

    Cheers!

    Charles

    --
    Profit motivates invention.
  3. "Unlimited bandwidth" - When will they learn? by Arkleseizure · · Score: 3

    They keep referring to unlimited bandwidth in this article. People seem to fail to realise that minds operate in an infinite-bandwidth environment and that any resource which can be measured in bits or bits/s can easily be consumed by a person. Even if you cover the entire globe in optics with optical switches and routers with mind-boggling information rates will that cope with every high-res videoconference call, every TV broadcast and movie on demand, every book sold, every office which ceases to exist physically and becomes virtual, etc, etc? Unlimited, my arse.

  4. Obfuscation by Cato · · Score: 4

    You are making this more confusing than it really is, by not using any technical terms that might make sense (e.g. add-drop multiplexer, optical switch). A shame, since your points are valid...

    - 'Smoke' - it's hard to work out what you are talking about here - seems like the 'smoke' box is an add-drop multiplexer for DWDM, which puts multiple frequencies (aka wavelengths) from various input fibres on a single output fibre. DWDM is inherently multi-protocol of course, as each wavelength can carry a unique protocol.

    - 'Mirrors' - this is just one of the many possible all-optical switching technologies that are under development. These include MEMS (tiny mirrors that can reflect light onto different fibres), electro-holographic Bragg gratings (completely solid state and with useful testing/monitoring features), and even a bizarre technology that involves using inkjet techniques to blow bubbles in and out of place, thereby affecting switching (from Agilent).