AMD Details Groundbreaking Research in New Transistor and Memory Cell Structures.Business Editors/High-Tech Writers IEDM IEDM International Electron Devices Meeting IEDM Institute Économique de Montréal 2002 SUNNYVALE, Calif.--(BUSINESS WIRE)--Dec. 9, 2002 -Breakthroughs presented at IEDM 2002 could serve as the foundation for future, higher-value customer solutions- Demonstrating its leadership in semiconductor research and development (R&D), AMD (Advanced Micro Devices, Inc., Sunnyvale, CA, www.amd.com) A major manufacturer of semiconductor devices including x86-compatible CPUs, embedded processors, flash memories, programmable logic devices and networking chips. will present several new technical achievements critical to the creation of next-generation transistors and memory cells at this year's International Electron Devices Meeting The International Electron Devices Meeting is an annual conference held alternatively in San Francisco, California and Washington D.C. Established in 1954, IEDM is the world's main forum on advancement in semiconductor and electronic devices. (IEDM) held in San Francisco San Francisco (săn frănsĭs`kō), city (1990 pop. 723,959), coextensive with San Francisco co., W Calif., on the tip of a peninsula between the Pacific Ocean and San Francisco Bay, which are connected by the strait known as the Golden , December 8-11. Aspects of the research may be used in products as early as 2005. "AMD labs are already well into development of next generation transistor and memory technologies that, once perfected, will power our customers' products to unprecedented levels of performance, connectivity and ease-of-use," said Craig Sander, vice president of process technology development at AMD. Next-Generation Transistors At IEDM, AMD will present three technical papers outlining recent achievements in their ongoing research on future transistor structures. The primary working parts of a microchip, transistors are basically a microscopic switch that uses a "gate" to turn the flow of electrical current on and off. AMD will provide details on research conducted with University of California, Berkeley The University of California, Berkeley is a public research university located in Berkeley, California, United States. Commonly referred to as UC Berkeley, Berkeley and Cal on a new transistor device type that could replace today's planar A technique developed by Fairchild Instruments that creates transistor sublayers by forcing chemicals under pressure into exposed areas. Planar superseded the mesa process and was a major step toward creating the chip. transistors as the industry standard for high-performance logic chips. Known in the microchip industry as a Fin Field Effect Transistor See FET. (electronics) field effect transistor - (FET) A transistor with a region of donor material with two terminals called the "source" and the "drain", and an adjoining region of acceptor material between, called the "gate". (FinFET), this new structure uses a single vertical silicon "fin" to create two gates instead of one. This effectively doubles the electrical current that can be sent through the transistor and improves the transistor's switching characteristics. This efficient and practical design enables enhanced performance and ever-shrinking geometries, while retaining a high degree of manufacturability using existing methods. AMD, in September, was the first company to demonstrate a functioning FinFET with a gate length of 10nm, or 10 billionths of a meter, less than 1/5th the size of the most advanced transistor in production today. "We expect our transistor performance goals will require gates below 15nm by the end of the decade, presenting some exciting opportunities for R&D," said Sander. "Multi-gate transistor structures such as our version of FinFET hold the key to achieving next generation performance, while continuing to use many of our existing manufacturing methods." AMD will also present two papers on the company's success in building transistors with gates made from metal, rather than polysilicon as is the standard today. This research is aimed at maximizing transistor performance for the company's fabrication fabrication (fab´rikā´sh  n),n the construction or making of a restoration. processes in the 2005 timeframe and beyond. This nickel-based gate technology holds promise for dramatically increasing transistor performance by improving electrical current flow through the transistor. When properly implemented, metal gates eliminate today's practice of placing impurities in the channel under the transistor's gate to achieve optimum switching characteristics. The removal of these impurities results in better electrical current flow, which in turn increases the transistor's performance capabilities. Further, these nickel-based gates are expected to provide a lower cost manufacturing option when compared to other metal gate technologies being investigated in the industry. Future Flash Memory AMD, in conjunction with Stanford University Stanford University, at Stanford, Calif.; coeducational; chartered 1885, opened 1891 as Leland Stanford Junior Univ. (still the legal name). The original campus was designed by Frederick Law Olmsted. David Starr Jordan was its first president. , will also present a paper demonstrating a new Flash memory cell structure that could be instrumental in scaling Flash memory beyond the 65nm generation. The new structure uses minute "nanowires" of polysilicon measuring as small as 5nm wide to store an electrical charge. At these small dimensions the memory cells demonstrate true quantum mechanical behavior, providing erase speeds several orders of magnitude faster than conventional Flash memory cells, while exhibiting excellent data retention. This technology could enable larger amounts of memory to be incorporated into a single Flash memory chip, while at the same time dramatically increasing speed and reducing the power needed to read and write to the cell. At IEDM AMD will present these and other achievements at IEDM 2002, which takes place at the San Francisco Hilton Hotel and Towers December 8-11, 2002. Dates, times and locations are subject to change. For final schedule and additional information, see the IEDM website at http://www.his.com/~iedm/index.html. About AMD AMD is a global supplier of integrated circuits Integrated circuits Miniature electronic circuits produced within and upon a single semiconductor crystal, usually silicon. Integrated circuits range in complexity from simple logic circuits and amplifiers, about 1/20 in. (1. for the personal and networked computer and communications markets with manufacturing facilities in the United States United States, officially United States of America, republic (2005 est. pop. 295,734,000), 3,539,227 sq mi (9,166,598 sq km), North America. The United States is the world's third largest country in population and the fourth largest country in area. , Europe, Japan, and Asia. AMD, a Fortune 500 and Standard & Poor's 500 company, produces microprocessors, Flash memory devices, and support circuitry for communications and networking applications. Founded in 1969 and based in Sunnyvale, California Sunnyvale ([sʌniveil]) is a city in Santa Clara County, California, United States. It is one of the major cities that make up the Silicon Valley. As of the 2000 census, the city population was 131,760. , AMD had revenues of $3.9 billion in 2001. (NYSE NYSE See: New York Stock Exchange :AMD). AMD on the Web For more AMD news and product information, please visit our virtual pressroom at www.amd.com/news/virtualpress/index.html. Additional press releases are available at www.amd.com/news/news.html. AMD, the AMD Arrow logo and combinations thereof are trademarks of Advanced Micro Devices, Inc. Other product names used in this publication are for identification purposes only and may be trademarks of their respective companies. Note to Editors: In the Internet/email address noted in this news release, there is a "tilde A symbol used in Windows, starting with Windows 95, that maintains a short version of a long file or directory name for compatibility with Windows 3.1 and DOS. For example, the short version of a file named "Letter to Joe" would be LETTER~1. Then "Letter to Pat" becomes LETTER~2. ", between http://www.his.com/ and iedm/index.html. This symbol may not appear properly in some systems. |
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