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Topic: RE: virus: Nanotech is here (Read 806 times) |
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Blunderov
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RE: virus: Nanotech is here
« on: 2004-03-25 14:51:38 » |
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http://www.extremetech.com/article2/0,1558,533496,00.asp
CPU Breakthrough: Chips Enter the Nano-Age
By Loyd Case
Today, we're seeing microprocessors from Intel and AMD using 0.13 micron
process technology in high volume manufacturing. That's 130 nanometers.
But just how big (or rather, how small) is 130 nanometers? According to
Sunlin Chou, Intel's Senior Vice President for technology and
manufacturing, the size of a typical virus is 100 nanometers. So today's
manufacturing technology creates circuit traces approaching the size of
the smallest living organism.
The next generation of process technology is 0.09 micron, or 90
nanometers. Sunlin Chou offered a heuristic of 100 nanometers as the
breakpoint for defining nanotechnology. Anything smaller than 100
nanometers can be thought of as nanoscale. That's all well and good, but
what does it actually mean? During the last day of IDF, Intel Fellow
Mark Bohr offered some insight into the challenges and benefits of
moving to smaller process technologies.
Intel's current 0.13 micron manufacturing process is split between using
200mm wafers and 300mm wafers. The company's upcoming 90nm process will
use 300mm wafers exclusively. Transistor gate lengths at 0.13 micron are
less than 70nm, while the new process technology will have gate lengths
of less than 50nm.
Some additional key features of the 90nm process include:
Strained silicon technology. Invidual layers of silicon atoms are
deposited further apart. As subsequent layers are deposited, the atoms
still tend to want to line up with the spread out atoms beneath. Thus,
the crystal array is "strained" relative to previous generations. When
the silicon lattice is spread apart, faster electron flows results. This
can result in chips up to 35% faster due to electron flows as much as
70% faster (source: IBM).
Seven copper layers. This is one more metal layer than the current 0.13
micron CPUs, but will improve logic circuit density.
New, low-capacitance dielectric. The new, carbon-doped oxide will reduce
capacitance by as much as 18%. This reduces current leakage and hence,
chip power needs. (The gate oxide for 90nm is only 1.2 nm thick --
roughly 5 atoms.)
Taken together, the result will be more dense, faster semiconductors
that require lower voltages. The lower voltage will help keep the
thermal power envelope to a manageable level, even at high clock rates.
Bohr estimates that any large CPU built on Intel's 90nm process
shouldn't have a thermal envelope higher than today's 0.13 micron CPUs.
What's interesting is that as the process technologies scale down, the
transistor gate lengths actually decrease at an accelerated rate, which
can also help performance gains.
Intel has been busy building test chips using the new process. Usually,
the first type of chip to be built with a new logic process is an SRAM
chip -- simple to lay out and its regularity helps to easily spot chip
lithography issues. One example of this is a 52 megabit SRAM chip, which
has 330 million transistors on a 100 square millimeter die. Although
yields weren't discussed, Bohr mentioned that Intel had successfully
manufactured perfect chips, with all 52 Mbits operational. Since SRAM is
built in the same way as logic circuits, then it's a good bet that 90nm
will work with CPUs. Additionally, today's CPUs often have substantial
L2 cache sizes, and high density SRAM is useful here.
Most of the development work for 90nm is being performed at Intel's
Hillsborough, Oregon facility. In separate briefings, Intel has stressed
that 90nm is on track for deployment next year. The first processor to
be built using the new process will be Prescott, an updated design of
the Pentium 4 microarchitecture.
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Walter Watts
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Re: virus: Nanotech is here
« Reply #1 on: 2004-03-25 18:21:01 » |
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I noticed at the book store yesterday, the current price of an Athlon 64 bit 3.4 GHz
CPU was just $400. 64 BIT!! Jeeeezzzzzzuuusss.
A 32 bit 3.4 GHz CPU is only $200
Walter
<They're gonna have to write a new Moore's Law>
Blunderov wrote:
> http://www.extremetech.com/article2/0,1558,533496,00.asp
>
> CPU Breakthrough: Chips Enter the Nano-Age
>
--
Walter Watts
Tulsa Network Solutions, Inc.
"Pursue the small utopias... nature, music, friendship, love"
--Kupferberg--
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Walter Watts
Tulsa Network Solutions, Inc.
No one gets to see the Wizard! Not nobody! Not no how!
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rhinoceros
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My point is ...
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RE: virus: Nanotech is here
« Reply #2 on: 2004-03-25 20:07:00 » |
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[Blunderov]
http://www.extremetech.com/article2/0,1558,533496,00.asp
CPU Breakthrough: Chips Enter the Nano-Age
By Loyd Case
Today, we're seeing microprocessors from Intel and AMD using 0.13 micron process technology in high volume manufacturing. That's 130 nanometers. But just how big (or rather, how small) is 130 nanometers? According to Sunlin Chou, Intel's Senior Vice President for technology and manufacturing, the size of a typical virus is 100 nanometers. So today's manufacturing technology creates circuit traces approaching the size of the smallest living organism.
<snip>
[rhinoceros]
More than one year has passed since, and Intel has already rolled out a 0.09 micron Prescott CPU running at the same speed as existing ones. The reaction of the computer enthusiasts was not very warm -- overclockers were disapponted -- but it is still a first. It takes some work to realize the potential of a new toy like this one.
http://www.extremetech.com/article2/0,1558,1554111,00.asp
[Walter]
I noticed at the book store yesterday, the current price of an Athlon 64 bit 3.4 GHz CPU was just $400. 64 BIT!! Jeeeezzzzzzuuusss.
A 32 bit 3.4 GHz CPU is only $200
Walter
<They're gonna have to write a new Moore's Law>
[rhinoceros]
Some tech sites bitch that Moore's law has been overdue to deliver in the last 18 months. Others bitch that the increase in the number of transistors has diminishing impact on the final user and that smarter technologies such as hyperthreading will be more important.
Well, there used to be an argument that Moore's law is a self-fulfilling prophecy. That the hi-tech coporations could do better but there was a tacit conspiracy to hold back innovation and to market it according to Moore's law. If this was ever true, today it isn't. They will have to get their asses to invent photon transistors if that is what it takes or else... bye-bye mr. Moore.
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Blunderov
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RE: virus: Nanotech is here
« Reply #3 on: 2004-03-26 01:12:42 » |
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Walter Watts
Sent: 26 March 2004 01:21 AM
I noticed at the book store yesterday, the current price of an Athlon 64
bit 3.4 GHz
CPU was just $400. 64 BIT!! Jeeeezzzzzzuuusss.
A 32 bit 3.4 GHz CPU is only $200
Walter
<They're gonna have to write a new Moore's Law>
[Blunderov] Not that I know much about these matters myself, but in
chess programming circles they are apparently unexcited about the 64 bit
chip; opinion seems to be that the 64 bit architecture is more useful
for server applications than productive of actual computing power for
the end user.
Best Regards
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