There is much talk of how many fibers can fit in a duct, can be brought into a colo space, etc... I haven't seen much mention of how much space the termination in the colo would take, such as splice trays, bulkheads, etc... Someone earlier mentioned being able to have millions of fibers coming through a vault, which is true assuming they are just passing through the vault. When you need to break into one of those 864-fiber cables, the room for splice cases suddenly becomes a problem. The other thing I find interesting about this entire thread is the assumption by most that a government entity would do a good job as a layer-1 or -2 provider and would be more efficient than a private company. Governments, including municipalities, are notorious for corruption, fraud, waste - you name it. Even when government bids out projects to the private sector these problems are seen. On Tue, Jan 29, 2013 at 10:36 PM, George Herbert <george.herbert@gmail.com>wrote:
On Tue, Jan 29, 2013 at 8:10 PM, Leo Bicknell <bicknell@ufp.org> wrote:
In a message written on Tue, Jan 29, 2013 at 07:46:06PM -0800, Owen DeLong wrote:
Case 2, you move the CO Full problem from the CO to the adjacent cable vaults. Even with fiber, a 10,000 strand bundle is not small.
It's also a lot more expensive to pull in 10,000 strands from a few blocks away than it is to drop a router in the building with the MMR and aggregate those cross-connects into a much smaller number of fibers leaving the MMR building. [snip] But what happens when you fill the cable vaults?
It's really not an issue. 10,000 fibers will fit in a space not much larger than my arm.
I have on my desk a 10+ year old cable sample of a Corning 864 strand cable (36 ribbons of 24 fibers a ribbon). It is barely larger around than my thumb. Each one terminated into an almost-full rack of SC patch panels.
A web page on the cable:
http://catalog.corning.com/CableSystems/en-US/catalog/ProductDetails.aspx?cid=&pid=105782&vid=106018
My company at the time build a duct bank by building 6x4" conduit, installing 3x1.25" innerduct in each conduct, and pulling one of those cables in each innerduct. That's a potential capacity of 15,525 fibers in a duct bank perhaps 14" wide by 8" tall.
A "vault" as used for traditional telco or electrical (one big enough for a man to go down in) could hold millions of these fibers. They were never used, because they were way too big. There's also plenty of experience in this area, telcos have been putting much larger copper cables into CO's for a long time.
Were there demand, they could easily put more ribbons in a single armored sheeth. The actual stack of fibers is about 1/2" wide and 3/8" thick for the 864 strands. You could extrapolate a single 10,000 strand cable that would be smaller than the power cables going to a typical commercial transformer.
The cost of fiber is terminating it. Running 864 strands from one end of a colo to another inside, compared with running it a block down the street isn't significantly different; modulo any construction costs. Obviously if it costs $1M to dig up the street that's bad, but for instance if there is already an empty duct down the street and it's just pulling cable, the delta is darn near zero.
That's why I think rather than having the muni run colo (which may fill), they should just allow providers to drop in their own fiber cables, and run a fiber patch only room. There could then be hundreds of private colo providers in a 1km radius of the fiber MMR, generating lots of competition for the space/power side of the equation. If one fills up, someone will build another, and it need not be on the same square of land....
It's more than just terminating it; the bulk fiber is not free. And it's not the customer end where you see congestion; unless you (expensively) splice out in the field at intermediate aggregation points, for a say 10,000 customer "wire center" you have 10,000 x the individual cable cross section area at the convergence point. Which you have to provision end-to-end unbroken as splicing is likely to screw with your overall cost model in an atrocious way. Unlike all the other media.
Yes, you can buy some fiber that aggregates smaller bundles, but they don't split nicely 100 ways in a manner you can realistically fan out from one master bundle at the head end (unless there's a fiber type out there I am not aware of, I don't do this part of the stuff all the time).
It's a pain in the ass to provision in a way that you can centralize a L1 dark fiber service, because of splices. If you're providing L2 then you don't splice, you just run to a pole or ground or vault box and terminate there, and have a few 10G or 40G or 100G uplink fibers from there to your interchange point "wire center". If you're providing L1 then that's an amazingly complex fiber pull / conduit / delivered fiber quality / space management problem at the wire center.
-- -george william herbert george.herbert@gmail.com