N3XT Chip Makes Normal Computer To Supercomputer as 1000 Times Faster
N3XT Chip Makes Normal Computer To Supercomputer as 1000 Times Faster
The chip, known as N3XT (nano-engineered
computer systems technology). simply put. Like a rich resource from
single layout (conventional silicon chip), the evolution of the
skyscraper layout (N3XT), which also echoes the IEEE Computer magazine
“to restart the computer science” that discourse.
Currently, the device we are using based
on standard silicon chip structure has a major problem, these silicon
chips are arranged like independent house suburbs. This means that these
chips are single-layer, between each house connected with a lineup, so
that the transmission of data.
The disadvantage of these silicon chips
that big time in the data stream and transmission distance, it would be
more energy-consuming, often occur when dealing with blockage.
But, N3XT chips: 1000 times faster
skyscrapers layout, N3XT chip is composed of carbon nanotube
transistors, tiny cylindrical carbon molecules efficiently transfer heat
and electricity. N3XT model processor and memory are divided into
different layers of skyscrapers, among all the faces from the millions
of tiny electronic lift access, through which to transfer data between
chips.
The layout of the great advantages of
skyscrapers that move data faster between the silicon chip is much
higher in a shorter distance than vertical transmission efficiency of a
large area in the lateral transfer.
Professor H. -S Philip Wong,“When it has higher speed and lower power consumption, N3XT layout will be much faster than the traditional layout of 1,000 times.“
N3XT Another advantage of better than
silicon chips is it’s not stacked manufacture, on the contrary, this is
the N3XT chip. Because during manufacture silicon chips will heat to
about 1,000 degrees Celsius, causing damage to the underlying chip.
And N3XT chip temperature at the time of manufacture to be much lower,
so can be easily stacked layers. It sounds a disruptive technology, it
is interesting that the chip architecture approach may bring a true
revolution in the macro, as did more than a century ago.
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