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We swipe, we tap, we scroll and click, but rarely do we pause to think about what goes on in the maze of electronics beneath our fingertips.But next time you are marveling at the computer hardware in your hands spare a thought for the tiny transistors in our computer chips. Without them all our modern gizmos wouldn't work.
"I think transistors really are the unsung heroes of the information age," says Kaizad Mistry, vice president at the world's leading chip maker, Intel. "These tiny little switches, these are the things that our computers, our servers, our smartphones and laptops.
Since Intel introduced the first commercial microprocessor in 1971, all chip manufacturers have been striving to increase processor speeds by cramming more and more transistors. The tiny switches that control electrical signals onto surfaces no bigger than the size of a fingernail.
Intel's landmark 4004 chip contained 2,300 transistors, each measuring a few micrometers (a millionth of a meter) across. Today, the most advanced silicon chips contain billions of nano-sized switches controlling the flow of electrical currents.
"The amount of data produced and consumed every day is reaching unthinkable levels, and it increases every day. But that data has to be stored somewhere, and processed by something, So basically, we either keep getting smaller so that we can store and process more information in the same small size for about the same power cost or we will have to start rationing data usage per person because the computing power needed will eventually use more energy than the planet can support," professor Peter J. Bentley added.
In a bid to keep pace with Moore's Law Intel founder Gordon E. Moore's assertion that the number of transistors on a chip should double roughly every two years. Intel have developed new "3-D" or "Tri-Gate" transistors, each one measuring 22 namometers across.
"For the last 40-50 years, the transistors we've made have conducted electricity along a planar surface of a silicon wafer. A 3-D transistor is a new concept, a new architecture for making tiny transistors. It's just a fundamentally better switch," Mistry says. "What we've done is create these pillars or fins on the surface of the wafer and now the current can flow on all three sides of that fin so in any given footprint you can have more of a current conduction." Intel's Ivy Bridge chip contains an astonishing 1.4 billion transistors that switch on and off more than 100 billion times a second and run 4,000 times faster and use 5,000 times less energy than the 4004 microchip.
"The Tri-Gate transistors are a very nice redesign of the traditional planar transistor that sits inside the chips," says Bentley. "One of the key problems with keeping up with (Moore's Law) is heat dissipation. Traditional chips are getting way too hot. The Tri-Gate transistor will almost certainly help in that respect as it can operate at lower voltages." Smaller 14 nanometer transistors are currently being developed, with Intel planning a release date in 2014. But it won't be long before computer chip manufacturers will be having to think even smaller.
"We have just about hit the limits now," Bentley says. "Already we are so small that quantum tunneling -- where electrons magically zip through solid objects because of quantum effects -- can cause real problems in chip design. Go smaller and quantum effects will stop the transistors working at all."
"In practice, there are bound to be many practical limitations, so we've got to spend the next few decades perfecting this radical new technology before we'll really know how far we can push it."
cnn.com
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