[M]uuhh
26-10-2007, 15:06
Well, 45nm will soon be in your shopping basket with the news that Intel has started production on the 45nm Penryn at a new $3Billion (£1.5b) manufacturing plant in Chandler, Arizona.
The new chip is designed for Desktop, Server and Laptop/notebooks, and will start shipping next month.
AMD, not too long ago, released 65nm chips so this means they're going to have a tough row to hoe," said Dean Freeman, an analyst at Gartner Inc. "Intel will have a faster processor and the potential for higher performance, so AMD will have to find ways to compete against that."
Intel is looking to make a significant shift from the 65nm to 45nm processors, about a year after it launched a pilot effort in Oregon to produce the new chips.
The opening of the new Arizona facility, called Fab 32, is expected to boost production of 45nm wafers from 5,000 a month in the pilot program to 25,000 to 30,000 wafers a month, according to Freeman.
The 45nm manufacturing process is generally seen as the next big step in the semiconductor industry because it goes a long way toward addressing power leakage problems that plague larger technologies.
A microprocessor built with 45nm process technology is smaller than its 65nm predecessor. Parts of the chip, like wires and transistors, get smaller, as well allowing it to work more efficiently because of the increased density. They're also cheaper to produce because manufacturers can pack more chips onto a silicon wafer.
"The march downward in nanometer manufacturing is great news," said Charles King, an analyst at Pund-IT Inc. in Hayward, Calif. "The new processors that will be produced [in the new facility] leverage the company's Hafnium-based high-K materials, which are designed to significantly reduce energy leakage. It's not a be-all, end-all solution for some of the processor industry's most fundamental challenges, but it should help in the creation of dependable next-generation processors and systems.
"This will help drive the trend toward more powerful desktop and mobile computing solutions," he added.
Freeman noted that IT managers should expect to see 45nm technology in PCs in six months to a year, though some early adopters may already be using it in server farms.
"For the IT manager, he can expect that data retrieval will be quicker, processing instruction sets will be faster and more information will transfer faster," he added. "And the chip will run as cool as a 65nm so you get more performance using less power."
One nanometer is equal to one-billionth of a meter.Looking forward to seeing some benchmarks against the new AMD cores.
The new chip is designed for Desktop, Server and Laptop/notebooks, and will start shipping next month.
AMD, not too long ago, released 65nm chips so this means they're going to have a tough row to hoe," said Dean Freeman, an analyst at Gartner Inc. "Intel will have a faster processor and the potential for higher performance, so AMD will have to find ways to compete against that."
Intel is looking to make a significant shift from the 65nm to 45nm processors, about a year after it launched a pilot effort in Oregon to produce the new chips.
The opening of the new Arizona facility, called Fab 32, is expected to boost production of 45nm wafers from 5,000 a month in the pilot program to 25,000 to 30,000 wafers a month, according to Freeman.
The 45nm manufacturing process is generally seen as the next big step in the semiconductor industry because it goes a long way toward addressing power leakage problems that plague larger technologies.
A microprocessor built with 45nm process technology is smaller than its 65nm predecessor. Parts of the chip, like wires and transistors, get smaller, as well allowing it to work more efficiently because of the increased density. They're also cheaper to produce because manufacturers can pack more chips onto a silicon wafer.
"The march downward in nanometer manufacturing is great news," said Charles King, an analyst at Pund-IT Inc. in Hayward, Calif. "The new processors that will be produced [in the new facility] leverage the company's Hafnium-based high-K materials, which are designed to significantly reduce energy leakage. It's not a be-all, end-all solution for some of the processor industry's most fundamental challenges, but it should help in the creation of dependable next-generation processors and systems.
"This will help drive the trend toward more powerful desktop and mobile computing solutions," he added.
Freeman noted that IT managers should expect to see 45nm technology in PCs in six months to a year, though some early adopters may already be using it in server farms.
"For the IT manager, he can expect that data retrieval will be quicker, processing instruction sets will be faster and more information will transfer faster," he added. "And the chip will run as cool as a 65nm so you get more performance using less power."
One nanometer is equal to one-billionth of a meter.Looking forward to seeing some benchmarks against the new AMD cores.