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Thursday, May 5, 2011

Intel Launches 3D Chip

Intel has introduced a 3-D transistor design called Tri-Gate, first disclosed by the chip giant in 2002, into high-volume manufacturing at the 22-nanometre (nm) node in a chip codenamed Ivy Bridge. Intel said it has been working on the technology since 2002. However, the products will not appear in new computers, tablets and mobile phones until towards the end of this year. The three-dimensional Tri-Gate transistors represent a fundamental departure from the two-dimensional planar transistor structure that has powered not only all computers, mobile phones and consumer electronics to-date, but also the electronic controls within cars, spacecraft, household appliances, medical devices and virtually thousands of other everyday devices for decades.

"Intel's scientists and engineers have once again reinvented the transistor, this time utilising the third dimension," said Paul Otellini, president and CEO, Intel. "Amazing, world-shaping devices will be created from this capability as we advance Moore's Law into new realms."

Intel's 3-D Tri-Gate transistors enable chips to operate at lower voltage with lower leakage, providing a combination of improved performance and energy efficiency compared to previous transistors. The capabilities give chip designers the flexibility to choose transistors targeted for low power or high performance, depending on the application.

The 22nm 3-D Tri-Gate transistors provide up to 37 per cent performance increase at low voltage versus Intel's 32nm planar transistors. This gain means that they are ideal for use in small handheld devices, which operate using less energy to 'switch' back and forth. Alternatively, the new transistors consume less than half the power when at the same performance as 2-D planar transistors on 32nm chips.

"The performance gains and power savings of Intel's unique 3-D Tri-Gate transistors are like nothing we've seen before," said Mark Bohr, Intel Senior Fellow. "This milestone is going further than simply keeping up with Moore's Law. The low-voltage and low-power benefits far exceed what we typically see from one process generation to the next. It will give product designers the flexibility to make current devices smarter and wholly new ones possible. We believe this breakthrough will extend Intel's lead even further over the rest of the semiconductor industry."

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