This article is from the source 'bbc' and was first published or seen on . It last changed over 40 days ago and won't be checked again for changes.
You can find the current article at its original source at http://www.bbc.co.uk/go/rss/int/news/-/news/technology-13283882
The article has changed 8 times. There is an RSS feed of changes available.
Version 4 | Version 5 |
---|---|
Intel unveils 22nm 3D Ivy Bridge processor | Intel unveils 22nm 3D Ivy Bridge processor |
(about 2 hours later) | |
Intel has unveiled its next generation of microprocessor technology, code named Ivy Bridge. | Intel has unveiled its next generation of microprocessor technology, code named Ivy Bridge. |
The upcoming chips will be the first to use a 22 nanometre manufacturing process, which packs transistors more densely than the current 32nm system. | The upcoming chips will be the first to use a 22 nanometre manufacturing process, which packs transistors more densely than the current 32nm system. |
Intel said it would also be using new Tri-Gate "3D" transistors, which are less power hungry. | Intel said it would also be using new Tri-Gate "3D" transistors, which are less power hungry. |
Rival chip manufacturers including AMD and IBM are understood to be planning similar designs. | Rival chip manufacturers including AMD and IBM are understood to be planning similar designs. |
Tri-Gate | Tri-Gate |
The announcement marks a significant step forward in the commercial processor industry, which is constantly striving to build more transistors onto silicon chips. | The announcement marks a significant step forward in the commercial processor industry, which is constantly striving to build more transistors onto silicon chips. |
One of the main measures of its progress is the length of the transistor "gate", measured in nanometres (1nm = 1 billionth of a meter). | One of the main measures of its progress is the length of the transistor "gate", measured in nanometres (1nm = 1 billionth of a meter). |
A human hair is around 60,000 nm wide. Current best microchip technology features a 32nm gate. | A human hair is around 60,000 nm wide. Current best microchip technology features a 32nm gate. |
It has been known for a long time that 22nm technology would form the next stage in the evolution of microprocessors. | It has been known for a long time that 22nm technology would form the next stage in the evolution of microprocessors. |
However, the exact nature of Intel's offering has been a closely guarded secret, until now. | However, the exact nature of Intel's offering has been a closely guarded secret, until now. |
The company expects to begin commercial production later this year. | The company expects to begin commercial production later this year. |
Kaizad Mistry, Intel's 22nm program manager, said that the arrival of Tri-Gate transistors would make a big difference to consumer products. | Kaizad Mistry, Intel's 22nm program manager, said that the arrival of Tri-Gate transistors would make a big difference to consumer products. |
"What it enables in the market is improved power efficiency - so better performance for the same battery life or longer battery life for the same performance," said Mr Mistry. | "What it enables in the market is improved power efficiency - so better performance for the same battery life or longer battery life for the same performance," said Mr Mistry. |
In microprocessor design, a conducting channel passes through a switching gate which opens or closes - changing the output from 0 to 1. | In microprocessor design, a conducting channel passes through a switching gate which opens or closes - changing the output from 0 to 1. |
Until now, those channels have been "planar" or flat on the silicon wafer. | Until now, those channels have been "planar" or flat on the silicon wafer. |
Intel's Tri-Gate system replaces the channels with 3D "fins". Mr Mistry explained that the extra surface area made them more conductive, and able to work better on lower power. | Intel's Tri-Gate system replaces the channels with 3D "fins". Mr Mistry explained that the extra surface area made them more conductive, and able to work better on lower power. |
Semiconductor industry analyst Dan Hutcheson from VLSI research told BBC News that the new process would secure Intel's market dominance. | Semiconductor industry analyst Dan Hutcheson from VLSI research told BBC News that the new process would secure Intel's market dominance. |
"It leaves them in a very powerful position," he said. | "It leaves them in a very powerful position," he said. |
Mr Hutcheson added that the innovation in 3D architecture would not only benefit Intel's desktop processors, but the chips it manufactures for mobile devices. | Mr Hutcheson added that the innovation in 3D architecture would not only benefit Intel's desktop processors, but the chips it manufactures for mobile devices. |
"This is going to make their Atom line a lot more competitive with ARM." | "This is going to make their Atom line a lot more competitive with ARM." |
UK-based ARM Holdings is the leading designer of low-powered mobile processors. | UK-based ARM Holdings is the leading designer of low-powered mobile processors. |
Moore's law | Moore's law |
The Ivy Bridge design allows approximately twice as many transistors to be crammed into the same space as on 32nm chips. | The Ivy Bridge design allows approximately twice as many transistors to be crammed into the same space as on 32nm chips. |
That improvement is consistent with Moore's Law - the observation made by Intel co-founder Gordon Moore that chip density would double every two years. | That improvement is consistent with Moore's Law - the observation made by Intel co-founder Gordon Moore that chip density would double every two years. |
However, Intel, like other chip manufacturers, is getting closer and closer to certain physical limits which may prevent that from continuing. | However, Intel, like other chip manufacturers, is getting closer and closer to certain physical limits which may prevent that from continuing. |
The next chip manufacturing process will be 14nm, followed by 11nm. | The next chip manufacturing process will be 14nm, followed by 11nm. |
Atoms are typically around 0.5nm wide. | Atoms are typically around 0.5nm wide. |
Kaizad Mistry believes that the current rate of growth will continue for some time. | Kaizad Mistry believes that the current rate of growth will continue for some time. |
"Gordon Moore himself said that no exponential is forever, but he would like us to delay that for as long as possible," said Mr Mistry. | "Gordon Moore himself said that no exponential is forever, but he would like us to delay that for as long as possible," said Mr Mistry. |
"I have been in this industry since the mid-80s. At that time people were talking about the sub-micron barrier. There is always talk of a barrier." | "I have been in this industry since the mid-80s. At that time people were talking about the sub-micron barrier. There is always talk of a barrier." |
Mr Mistry said that new innovations would keep processor design moving forward. | Mr Mistry said that new innovations would keep processor design moving forward. |
Rival systems | Rival systems |
Intel currently accounts for around 80% of global microprocessor sales, according to market analysts IDC. | Intel currently accounts for around 80% of global microprocessor sales, according to market analysts IDC. |
Its nearest rival, Advanced Micro Devices (AMD) has a 19% share. | Its nearest rival, Advanced Micro Devices (AMD) has a 19% share. |
AMD was the first to produce a prototype 22nm chip in 2008. | AMD was the first to produce a prototype 22nm chip in 2008. |
It is widely expected to pursue a similar fin-based system to Intel, known as FinFET. | It is widely expected to pursue a similar fin-based system to Intel, known as FinFET. |
However, the company has yet to announce its plans for a commercial product. | However, the company has yet to announce its plans for a commercial product. |
AMD spun off its chip fabrication arm in 2009, creating GlobalFoundries. | |
Mr Hutcheson said that the separation of design and manufacture had damaged AMD's ability to innovate. | Mr Hutcheson said that the separation of design and manufacture had damaged AMD's ability to innovate. |
"There is a huge competitor advantage to having your own fab [fabrication facility] and being able to tune the process. | "There is a huge competitor advantage to having your own fab [fabrication facility] and being able to tune the process. |
"This is Intel pulling away," he said. | "This is Intel pulling away," he said. |