|
Topic Name: Big future beckons for tiny chips
Category: Nanocharacterization
Research persons: Dr Gordon Moore, Mr Otellini
Location: 500 Fifth Street, NW Washington, DC 20001, United States
Details
The next step in the silicon industry's steadfast pursuit of ever smaller and
faster chips has been unveiled.
Intel has shown off what it says are the world's first working chips which
contain transistors with features just 32 billionths of a metre wide.
Their production means the industry axiom that has underpinned all chip
development for the last 40 years, known as Moore's Law, remains intact.
Speaking to BBC News, Dr Gordon Moore said that he expected the proposition
that bears his name should continue "for at least another decade".
"Eventually, however, we're down approaching the dimensions of individual atoms
and that's clearly as far as we can go down the path of shrinking dimensions,"
he told the BBC News website.
Tiny technology
The "law", first articulated in 1965 and then revised in 1975 now states that
the number of transistors on a chip should double every 24 months.
"It has become a driving force for the industry because competitors realises
that if they didn't move at at least that rate they would fall behind
technologically," said Dr Moore, co-founder of Intel.
For the last 40 years this has primarily been achieved by reducing the size of
transistors and packing more of them onto a chip.
Transistors are the tiny electronic switches that form the basis of computer
chips. The more there are and the faster they can switch, the more calculations
chips can do.
The next generation of Intel chips, which contain transistors with features
just 45 billionths of a metre wide (nanometres) pack 410 million transistors
into an area the size of a postage stamp.
The Penryn chips, as they are known, will be available from 12 November.
Their successor, called Nehalem, will be launched in 2008 and nearly doubles the
number of transistors on the chip, or die.
"Each die on here has 731 million transistors," said Intel's CEO Paul
Otellini, as he showed off the next-generation chips at the Intel Developer
Forum in San Francisco.
Other companies also plan to release chips based on 45nm technology, including
IBM, which along with partners Toshiba, Sony and AMD plan to sell chips in 2008.
Taking charge
Working at this tiny scale is not without problems.
Critical elements of the transistors, known as gate dielectrics, do not perform
as well allowing currents passing through the transistors to leak, reducing the
effectiveness of the chip.
To overcome this, Intel and others have replaced the gate dielectrics,
previously made from silicon dioxide, with a material based on the metal
hafnium.
The exact recipe for the new material has not been revealed but its development
and integration into working components was described by Dr Moore as "the
biggest change in transistor technology" since the late 1960s.
It is a so-called
high-K material and has a greater ability to store electrical charge than
silicon dioxide.
This class of materials will also be used in the 32
nanometre devices
expected in 2009.
The first chips incorporating this technology were shown off by Mr Otellini.
The memory chips contained 1.9 billion transistors.
"What this does is start to give us the know-how, the confidence, to build
mainstream microprocessors on this technology," said Mr Otellini.
Creative solution
Using Moore's Law as its basis, silicon manufacturers have already planned
beyond these next generation technologies.
For example, devices with features 22 nanometres wide are expected to roll out
of manufacturing plants in 2011.
Eventually, however, the industry is expected to hit a physical barrier:
transistors will not be able to be shrunk any further.
At this stage, the chip industry may have to change the approach that has
underpinned the last four decades of developments altogether.
But, Dr Moore does not believe that it will spell the end.
"It always looks like there is some very difficult problem but as we get closer
the focus and the engineering that we bring to bear on it usually removes these
barriers and allow us to go by them," he told the BBC.
"There is still a lot of room for creativity - it's not the end of the road," he
said.
About Researcher:
Dr Gordon Moore
Information National Academy of Engineering
500 Fifth Street, NW Washington, DC 20001
Paul S.
Otellini
2200 Mission College Boulevard
Santa Clara, California 95052-8119
United States
Phone: 408-765-8080
Fax: 408-765-9904
Paul S. Otellini has been Chief Executive Officer of Intel Corporation since
May 18, 2005 and its President since January 2002. Mr. Otellini served as Chief
Operating Officer of Intel Corp., since January 2002. Mr. Otellini joined Intel
in 1974 and has held a number of positions, including General Manager of Intel's
Peripheral Components Operation and the Folsom Microcomputer Division and later
serving as an assistant to then-Intel President Andy Grove in 1989. In 1990, ...
Mr. Otellini became the General Manager of the Microprocessor Products Group,
leading the introduction of the IntelŪ PentiumŪ processor. He was elected a
corporate officer in 1991, a Senior Vice President in 1993 and Executive Vice
President in 1996. Mr. Otellini served from 1998 to 2002 as Executive Vice
President and General Manager of the Sales and Marketing Group and then the
Intel Architecture Group, responsible for its microprocessor and chipset
businesses and strategies. In this role, he oversaw all of Intel's business
groups related to enterprise, mobile and desktop computing. Mr. Otellini has
been a Director of Intel Corp. since May 2002 and is a Member of its Retirement
Plans Investment Policy Committee and Member of Executive Committee. He serves
as a Director of Autodesk Inc. Mr. Otellini has been a Director of Google Inc.
since April 2004. Mr. Otellini holds a MBA from the University of California at
Berkeley and a Bachelors Degree in Economics from the University of San
Francisco in 1972.
Related Online Resources:
http://www.nanooze.org/english/articles/article4_howbigisananometer.html
http://www.thefreedictionary.com/Nanometers
http://www.pcpm.ucl.ac.be/~rigna/Research/High-k/
http://www.newscientist.com/article/dn7253.html
| Related research: |
A new technique for nanolithography, A system for manipulating and precisely positioning individual nanowires on semiconductor wafers., An inexpensive solar cell that can be painted or printed on flexible plastic sheets, Determine nanotech risks, Develop lultrasmal low-cost recipe for patterning microchips, Hidden Order Found in a Quantum Spin Liquid, How to drastically change the properties of certain materials by confining their molecules in nanospaces, Microscopic "nanolamps" -- light-emitting nanofibers about the size of a virus or the tiniest of bacteria, New nanoscale experiments offer to teach blind and visually impaired students a, New Physical Phenomenon Seeing High Frequency Waves by Combining Molecular Dynamics Simulations of Shock Waves, Nozzle and Liquid Effects on the spray modes in Nanoelectrospray, Physicists have built single nanotube that makes world's smallest radio, Researchers can experiment important properties for the conversion of sunlight into electricity Using nanotechnology, Study Finds Quantum Dots Nanoparticles Can Penetrate Skin Through Minor Abrasions
|
|
