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Old 2017-08-03, 02:59   Link #21
Ithekro
The Comet has Come
 
 
Join Date: Feb 2008
Location: Republic of California
Age: 41
I have a single terabyte drive...it is taking a while to fill that, and only people that store lots, an lots, and lots of movies and audio files that I know are filling up multiple 4 TB external drives.
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Old 2017-10-14, 18:40   Link #22
AnimeFan188
Senior Member
 
Join Date: Jan 2008
Microwave Tech Could Produce 40 TB Hard Drives
in the Near Future:


"We’re all generating data faster than storage providers can keep up, and that problem
is only going to get worse. On Friday, Western Digital announced a potential game
changer that promises to expand the limits of traditional HDDs to up to 40TBs using a
microwave-based write head, and the company says it will be available to the public in
2019."

See:

https://gizmodo.com/microwave-tech-c...e-n-1819457001
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Old 2017-10-19, 06:18   Link #23
Dop
Mmmm....
 
 
Join Date: Sep 2006
Hard drives sure have come a long way...

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Old 2017-10-20, 11:37   Link #24
bhl88
Otaku Apprentice
 
 
Join Date: Jun 2008
Location: The Unseen Horizon
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I can finally modify my Commodore 64 with a 40 TB drive lol. Now to find a big fan to cool it off.
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Old 2017-11-12, 13:06   Link #25
AnimeFan188
Senior Member
 
Join Date: Jan 2008
Quantum Computers Mainstream in 2018 and race
ahead of Supercomputer power:


"Quantum Supremacy is when quantum computers become faster than classical
computers. Once Quantum Computers surpass classical computers they will continue to
improve at a FAR more rapid pace. Doubling the transistors on a regular chip might
achieve double the performance doubling the qubits on a quantum computer can provide
an exponential speedup depending upon the kind of problem it is trying to solve. Dwave
has shown speed ups of 10,000 time or more by doubling the qubits in their quantum
annealing systems.

This week IBM Q scientists announced that they built and measured a 50 qubit processor
prototype. IBM aims to demonstrate capabilities beyond today’s classical systems with
systems of this size."

See:

https://www.nextbigfuture.com/2017/1...ter-power.html




Is quantum computing going to leave Moore's Law in the dust?
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Old 2017-11-13, 14:14   Link #26
ChuckE
Provoker
 
 
Join Date: Nov 2012
Location: Dreamland
Everything becomes exponential nowadays
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Old 2018-04-04, 22:25   Link #27
AnimeFan188
Senior Member
 
Join Date: Jan 2008
Move Over Moore’s Law, Make Way for Huang’s Law:

"An exuberant Jensen Huang, who gave a keynote and popped up on stage during
various events at Nvidia’s 2018 GPU Technology Conference (GTC) held in San Jose,
Calif. last week, repeatedly made the point that due to extreme advances in
technology, graphics processing units (GPUs) are governed by a law of their own.

“There’s a new law going on,” he says, “a supercharged law.”

Huang, who is CEO of Nvidia, didn’t call it Huang’s Law; I’m guessing he’ll leave that
to others. After all, Gordon Moore wasn’t the one who gave Moore’s Law its now-
famous moniker. (Moore’s Law—Moore himself called it an observation—refers to the
regular doubling of the number of components per integrated circuit that drove a
dramatic reduction in the cost of computing power.)

But Huang did make sure nobody attending GTC missed the memo.

Just how fast does GPU technology advance? In his keynote address, Huang pointed
out that Nvidia’s GPUs today are 25 times faster than five years ago. If they were
advancing according to Moore’s law, he said, they only would have increased their
speed by a factor of 10."

See:

https://spectrum.ieee.org/view-from-...for-huangs-law
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Old 2018-04-05, 13:55   Link #28
blakstealth
Cinderella Gang or Die
 
 
Join Date: Jun 2011
Those are some bold words from the buttery smooth Huang.
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Old 2018-09-29, 22:08   Link #29
AnimeFan188
Senior Member
 
Join Date: Jan 2008
How Quantum Memory Could Change Computing:

"In a hot tub in 2012, physicist Seth Lloyd pitched a quantum internet application to
Google’s Sergey Brin and Larry Page. He called it Quoogle: a search engine that, using
mathematics based on the physics of subatomic particles, returns results without ever
actually knowing the query. Such an advance would require an entirely new kind of
memory, called qRAM, or quantum random access memory.

Though intrigued, Brin and Page turned the idea down, Lloyd told Gizmodo. According
to his story, they reminded him that their business model was based on knowing
everything about everyone.

But qRAM as an idea hasn’t died. Today’s computers are quite good at remembering
data represented by billions of bits, binary code digits that can equal either zero or
one. RAM, or random access memory, stores the data short-term on silicon chips,
assigning each piece of data a unique address that can be accessed randomly—in any
order—to refer to the data later. It makes computer processes much faster, allowing
your laptop or phone to quickly access the RAM for data frequently used by programs,
rather than the storage, which is much much slower. But one day in the future,
computer processors might be supplanted or augmented by quantum computer
processors, machines that would be good at searching through huge datasets,
machine learning, and artificial intelligence applications. Quantum computers are still
a nascent technology, but if they’re ever going to be able to run these potentially
lucrative algorithms, they’ll need to access RAM in a whole new way. They’ll require
qRAM.

“[QRAM] would be an amazing application, and make the kind of quantum devices
that Google and IBM make today instantaneously useful,” Lloyd told Gizmodo."

See:

https://gizmodo.com/how-quantum-memo...ing-1829150822
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Old 2018-12-01, 20:23   Link #30
AnimeFan188
Senior Member
 
Join Date: Jan 2008
New Metal-Air Transistor Replaces Semiconductors:

"It is widely predicted that the doubling of silicon transistors per unit area every two
years will come to an end around 2025 as the technology reaches its physical limits. But
researchers at RMIT University in Melbourne, Australia, believe a metal-based field
emission air channel transistor (ACT) they have developed could maintain transistor
doubling for another two decades.

The ACT device eliminates the need for semiconductors. Instead, it uses two in-plane
symmetric metal electrodes (source and drain) separated by an air gap of less than 35
nanometers, and a bottom metal gate to tune the field emission. The nanoscale air gap
is less than the mean-free path of electrons in air, hence electrons can travel through air
under room temperature without scattering."

See:

https://spectrum.ieee.org/nanoclast/...semiconductors
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Old 2018-12-29, 06:14   Link #31
AnimeFan188
Senior Member
 
Join Date: Jan 2008
How Chip Makers Are Circumventing Moore's Law to Build
Super-Fast CPUs of Tomorrow:


"But AMD achieved its biggest speed gains recently with its ridiculous-sounding
Threadripper CPUs. These are CPUs with a core count that starts as low as 8 and goes all
the way up to 32. A core is kind of like the engine of the CPU. In modern computing,
multiple cores can function in parallel, allowing certain processes that take advantage of
multiple cores to go even faster. Having 32 cores can take something like the rendering
of a 3D file in Blender from 10 minutes down to only a minute and a half, as seen in this
benchmark run by PCWorld."


"Infinity Fabric is a new system bus architecture based on the open source Hyper
Transport. A system bus does what you think it would—bus data from one point to
another. Infinity Fabric’s neat accomplishment is that it busses that data around really
fast and allows processors built with it to overcome one of the primary hurdles of
chiplet CPU design: latency.

Chiplet design isn’t new, but it’s often been difficult to accomplish because it’s hard to
make a whole bunch of transistor on separate die talk to each other as quickly as they
can on a single piece of silicon. But with AMD’s Threadrippers, you have a number of
its typical Ryzen CPUs laid out on the Infinity Fabric and communicating nearly as
quickly as if they were on a single die.

It works really well, and the results are a super-fast processor that is so cheap to
make that AMD can sell it for a fraction of the price of something comparable from
Intel—which continues to use monolithic design in its high-core-count CPUs. In a way,
Infinity Fabric is a way to cheat Moore’s Law because it’s not a single fast CPU—it’s a
whole bunch attached via the Infinity Fabric. So it’s not AMD overcoming the
limitations of Moore’s Law, but circumventing it."

See:

https://gizmodo.com/how-chip-makers-...d-s-1831268322
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Old 2018-12-29, 22:05   Link #32
blakstealth
Cinderella Gang or Die
 
 
Join Date: Jun 2011
I'm using a Ryzen 7 1700 for my pc right now. I love love how you can find Ryzen CPUs of all kinds (even threadripper) for so cheap nowadays. They have so much value. I did pay a lot more for mine, but I bought it a few months after it launched.
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Old 2019-01-05, 20:28   Link #33
AnimeFan188
Senior Member
 
Join Date: Jan 2008
Lasers vs. Microwaves: The Billion-Dollar Bet on the
Future of Magnetic Storage:


"For most of the past 50 years, the areal density of hard disks—a measure of how
many bits of data that engineers can squeeze into a given area—increased by an
average of nearly 40 percent each year. Lately, though, that rate has slowed to around
10 percent. Everyone who works on magnetic storage is well aware of this problem,
but only in the past year or so have executives from Seagate Technology and Western
Digital, the leading manufacturers of hard drives, very publicly split on how to solve it.
In back-to-back announcements in October 2017, Western Digital pledged to begin
shipping drives based on what is known as microwave-assisted magnetic recording
(MAMR) in 2019, and Seagate said it would have drives that incorporate heat-assisted
magnetic recording (HAMR) on the market by 2020.

If one company’s solution proves superior, it will reshape a US $24 billion industry and
set the course for a decade of advances in magnetic storage. Companies that wish to
store huge amounts of data do have other options, but hard drives are still the go-to
choice for enterprise storage needs that fall somewhere between faster, more
expensive solid-state drives built on flash memory, and slower, cheaper magnetic
tape."

See:

https://spectrum.ieee.org/computing/...gnetic-storage
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