"This investment positions our manufacturing network for future growth to support our platform initiatives and will give us additional supply flexibility across a range of products," said Paul Otellini, Intel CEO. "For Intel, manufacturing is a key competitive advantage that serves as the underpinning for our business and allows us to provide customers with leading-edge products in high volume. The unmatched scope and scale of our investments in manufacturing help Intel maintain industry leadership and drive innovation."
When completed, Fab 32 will become Intel's sixth 300-mm wafer facility. The structure will be about 1 million square feet with 184,000 square feet of clean room space. The project will create up to 1000 new Intel jobs at the Arizona site over the next several years. During the construction phase, more than 3,000 skilled trades people will be hired to work on the project.
Intel currently operates four 300-mm fabs that provide the equivalent manufacturing capacity of about eight 200-mm factories. Those factories are located in Oregon, Ireland and New Mexico. The company also has an additional 300 mm fab currently under construction in Arizona (Fab 12) scheduled to begin operations later this year, and one expansion in Ireland (Fab 24-2) scheduled to begin operations in the first quarter of next year.
Manufacturing with 300-mm wafers (about 12 inches in diameter) dramatically increases the ability to produce semiconductors at a lower cost compared with more widely used 200-mm (eight-inch) wafers. The total silicon surface area of a 300-mm wafer is 225 percent, or more than twice that of a 200-mm wafer, and the number of printed die (individual computer chips) is increased to 240 percent. The bigger wafers lower the production cost per chip while diminishing overall use of resources. Three-hundred-mm wafer manufacturing will use 40 percent less energy and water per chip than a 200-mm wafer factory.
Rival processor vendor AMD has started running wafers through Fab36, the company's 300-mm wafer fab located in Dresden, Germany and is on course to have commercial production in 2006.
AMD began to process 65-nm in the middle of 2005 and will bring it into production in 2006. Wafers first ran in Fab36 in March 2005 and that first "wafer outs" will occur in the second-half of 2005.