Hello,

Yet more precision about the new disruptive technology of the new
Semiconductor Breakthrough..

I am a white arab, and i think i am smart since i have also
invented many scalable algorithms and algorithms..

The new disruptive technology of the new Semiconductor Breakthrough
below has disadvantages, and it is like a latency disadvantage, since
if we want for example to ensure a QoS(Quality of service) of
ensuring for example that the webpages served have to be served in
parallel so that to enhance much more the perceived throughput by each
visitor, i mean that the visitors of the webserver have not to wait a
longer time so that to receive the webpages, so parallelism with
multicores is important, so i think that we have to understand that
parallelism with multicores is also the way to go.

More precision about the new disruptive technology of the new
Semiconductor Breakthrough..

I invite you to read the following about the below news of the
Semiconductor Breakthrough, as you notice in the following news that
analysts say this Semiconductor Breakthrough will not be ready for
commercialisation for about a decade, read the following so that to
notice it:

“Commercialisation of this disruptive technology will be at least a
decade from now,” said Szeho Ng, managing director at China Renaissance
Securities (Hong Kong).

Read meore here:

https://www.scmp.com/tech/tech-war/article/3134078/us-china-tech-war-tsmc-helps-make-breakthrough-semiconductor

Semiconductor Breakthrough: Scientists Just Widened the Gap With New
Tiny Chips

"A team of researchers just made a breakthrough in semiconductor
materials, creating a chip that could push back the "end" of Moore's Law
and further widening the capability gap between China and U.S.-adjacent
efforts in the field of 1-nanometer chips, according to a recent study
published in the journal Nature.

World leaders are racing to own a piece of future semiconductor chip
technology
The breakthrough was accomplished in a joint effort, involving the
Massachusetts Institute of Technology (MIT), National Taiwan University
(NTU), and the Taiwan Semiconductor Manufacturing Co (TSMC), which is
the world's largest contract manufacturer of advanced chips. At the core
of the breakthrough is a process that employs semi-metal bismuth to
allow for the manufacture of semiconductors below the 1-nanometer (nm)
level.

Most present-day technology can already produce chips down to the 3-nm
scale, but this breakthrough could literally "break the limits of
Moore's Law," said Professor Chih-I Wu of the NTU, who is one of 23
authors in the study, in the announcement shared on NTU's website,
according to a South China Morning Post report. Moore's Law is an
engineering "rule of thumb" about the enhancement of computing power
that says the cost of computing power will fall by half every time the
number of transistors on a chip doubles (every two years)."

Read more here:

https://interestingengineering.com/semiconductor-breakthrough-widened-gap-tiny-chips

And read the following interesting news:

With the following new discovery computers and phones could run
thousands of times faster..

Prof Alan Dalton in the School of Mathematical and Physics Sciences at
the University of Sussex, said:

"We're mechanically creating kinks in a layer of graphene. It's a bit
like nano-origami.

"Using these nanomaterials will make our computer chips smaller and
faster. It is absolutely critical that this happens as computer
manufacturers are now at the limit of what they can do with traditional
semiconducting technology. Ultimately, this will make our computers and
phones thousands of times faster in the future.

"This kind of technology -- "straintronics" using nanomaterials as
opposed to electronics -- allows space for more chips inside any device.
Everything we want to do with computers -- to speed them up -- can be
done by crinkling graphene like this."

Dr Manoj Tripathi, Research Fellow in Nano-structured Materials at the
University of Sussex and lead author on the paper, said:

"Instead of having to add foreign materials into a device, we've shown
we can create structures from graphene and other 2D materials simply by
adding deliberate kinks into the structure. By making this sort of
corrugation we can create a smart electronic component, like a
transistor, or a logic gate."

The development is a greener, more sustainable technology. Because no
additional materials need to be added, and because this process works at
room temperature rather than high temperature, it uses less energy to
create.

Read more here:

https://www.sciencedaily.com/releases/2021/02/210216100141.htm

Thank you,
Amine Moulay Ramdane.