World on a string: Breakthrough
fiberoptic cable 2,500X faster than fastest internet
time
RT
Published October 28,
AFP Photo / Stan Honda
Imagine
downloading your favorite flick in 31 thousandths of a second. Such insane
internet speeds are now a reality, with researchers rolling out a 255 terabits
per second fiberoptic network which could transport the entire Internet on a
single cable.
The
cable, the joint effort of Dutch and US scientists, is 2,550 times faster than
the fastest single-fiber links in commercial operation today.
In
real terms, it could transfer a 1 GB movie in 0.03 milliseconds or the entire
contents of your 1 terabit hard drive in about 31 milliseconds.
At
this speed, a single fiber optic cable could theoretically carry the all the
data on the internet at peak times.
But
how does it work?
Researchers
from Eindhoven University of Technology and the University of Central Florida
employed a well-known but still cost-prohibitive technology; multi-mode fiber.
Normal
fibre optic cables contain thousands of strands of glass or plastic fibre which
are slightly thicker than the thread of a needle. These fibers can, in essence,
only carry the light for a single laser.
The
multi-mode fiber used by the researchers in contrast, has seven distinct cores
in a hexagonal shape which are able to carry just as many distinct signals at
one time. What’s more, they are squeezed down into the size of the same kind of
fiber optic cables used to support the current transatlantic internet cables.
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In
layman’s terms, it is something akin to a one way road being stretched out into
a seven lane highway. This seven lane highway is then stretched into a
multi-tier freeway, much like the so-called LA 'Stack'. Except in this case,
it’s like a seven lane, multi-story drag race, with all the power from the
individual vehicles being directed into a single source.
Researchers
said that this new type of optical fibre is like "allowing 21 times
more bandwidth than currently available in communication networks,"
which is 4-8 Terabits per second standard.
Moreover,
the researchers have introduced "two additional orthogonal dimensions
for data transportation - as if three cars can drive on top of each other in
the same lane."
In
their test, the researchers managed to reach speeds of 5.1 terabits for each of
the seven carriers. Then, by using wavelength division multiplexing (WDM), which
allows a number of optical carrier signals onto a single optical wire, they
managed to cram 50 carriers down the seven cores, reaching the massive 255
terabit per second speed.
Measuring
less than 200 microns in diameter, the new fiber does not take noticeably more
space than conventional fibres already deployed, Dr. Chigo Okonkwo who led the
work explained.
“These
remarkable results, supported by the European Union Framework 7, MODEGAP,
definitely give the possibility to achieve petabits per second transmission,
which is the focus of the European Commission in the coming seven-year Horizon
2020 research program,”
Okonkwo said.
While
the technology for multi-mode fiber is in place, the price tag on replacing the
millions of miles of existing cables could put the upgrade off for decades.
But
with the mind-blistering implications of a world wide web operating at
thousands of times its current maximum speed, the cost of holding off on the
upgrade for too long may be incalculable.
Sinn Féin Mountmellick – Serving The Community
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