As Silicon Peaks, SRC Launches Research Center to Produce Future Semiconductor Materials in Aggressive University Collaboration; Center Aims for New Circuits Ahead of ITRS Timeline.SAN FRANCISCO -- Over $7M to Fund Alternative Approaches to Improve CMOS (Complementary Metal Oxide Semiconductor) Pronounced "c-moss." The most widely used integrated circuit design. It is found in almost every electronic product from handheld devices to mainframes. Speed and Power in California, Massachusetts, Minnesota Universities Semiconductor Research Corporation (SRC (SouRCe) Contrast with DST, which is an abbreviation of "destination." ), the world's leading university-research consortium for semiconductors and related technologies, today announced the launch of the Non-Classical CMOS Research Center. With more than $7 million of funding spread across three years, five universities will collaborate as one research center to develop and exploit a new class of semiconductor materials, stretching silicon to its ultimate performance as CMOS. These materials, called III-V compound semiconductors because their chemical elements are referenced in the third and fifth columns of the universal chemistry periodical tables, will serve as alternatives to current technologies and will extend silicon's known capabilities as the preferred semiconductor. Today's bulk silicon CMOS is known as the classical material, whereas the Non-Classical CMOS Research Center will facilitate the introduction of III-V compounds for sustaining CMOS viability in future end-use applications. "While all good things must come to an end, we plan for the Non-Classical CMOS Research Center to ensure that Moore's Law "The number of transistors and resistors on a chip doubles every 18 months." By Intel co-founder Gordon Moore regarding the pace of semiconductor technology. He made this famous comment in 1965 when there were approximately 60 devices on a chip. will be alive and well for several more generations," said Dr. Jim Hutchby, director of Device Sciences for the Global Research Collaboration (GRC GRC Greece (ISO Country code) GRC Glenn Research Center (NASA) GRC Governance, Risk and Compliance GRC Gendarmerie Royale du Canada (RCMP - Canada) GRC John H. ), a unit of the SRC that is responsible for narrowing the options for carrying CMOS to its ultimate limit. "And when the day comes that Moore's Law for classical silicon CMOS is no longer a viable solution, we'll have developed a new set of materials and devices for improvements to speed and power of the historically successful CMOS technology." Results from the research are projected to enhance speed for CMOS gates and lower power dissipation in circuits. Significant impact on chip manufacturing is expected as early as 2012-2014. In comparison, the International Technology Roadmap for Semiconductors The International Technology Roadmap for Semiconductors is a set of documents produced by a group of semiconductor industry experts. These experts are representative of the sponsoring organisations which include the Semiconductor Industry Associations of the US, Europe, Japan, (ITRS ITRS International Technology Roadmap for Semiconductors ITRS International Terrestrial Reference System ITRS International Transaction Reporting System (EU) ITRS International Technical Rescue Symposium ) calls for alternative materials to be available to address semiconductor production at the 22-nm level around 2016-2019. The Non-Classical CMOS Research Center will be led by UC-Santa Barbara and comprised of a collective research team from Stanford, UC-San Diego, University of Massachusetts-Amherst and the University of Minnesota (body, education) University of Minnesota - The home of Gopher. http://umn.edu/. Address: Minneapolis, Minnesota, USA. . Funds ranging up to a total of $7 million will be provided through SRC, on behalf of its member companies, and from matches by the universities during an initial three-year program. Two more years of additional funding will be possible as options to bring the total award to five years. "We expect that a new class of compound semiconductors can provide better peak velocities and lower voltages and allow the industry to supplement silicon's critical paths for speed and power," said Professor Mark Rodwell, UC-Santa Barbara, and the Center's director. "This new research effort proposes to benefit a long line of applications and users." Benefits of the research will serve chipmakers and end-users for communications, computing, gaming, automotive and consumer electronics, and a wide range of other applications that are dependent on silicon's performance. As a reflection of the potential for technology and footprint improvements provided by introduction of new compound semiconductors, satellite dishes have gained notable advancements in a short period of time. Indium gallium arsenide Indium gallium arsenide (InGaAs) is a semiconductor composed of indium, gallium and arsenic. It is used in high-power and high-frequency electronics because of its superior electron velocity with respect to the more common semiconductors silicon and gallium arsenide. was added to the preamps on satellite dishes, providing shrinkage of the dish size from five feet to 1.5 feet in diameter in less than 10 years, while doubling the quality of the dish reception. "This is a perfect time to be in leading-edge research and a pivotal time to help find the means for scaling Moore's Law into future generations," said Rodwell. "Researchers can wait a long time for an opportunity to participate in such a substantial impact on the industry and, ultimately, humankind." Today's announcement is the result of rigorous competition over many months under the SRC-GRC's Device Sciences Digital CMOS Thrust. After a thorough evaluation of white papers and proposals by technical expert teams, the five universities led by UC-Santa Barbara were selected for funding. SRC facilitates semiconductor research among its community of 23 companies and partners and 100 universities worldwide. About SRC As the pioneer of collaborative research for the semiconductor industry, SRC defines industry needs, invests in and manages the research that gives its members a competitive advantage in the dynamic global marketplace. SRC expands the industry knowledge base and attracts premier students to help innovate and transfer semiconductor technology to the commercial industry. Established in 1982, SRC is based in Research Triangle Park Research Triangle Park, research, business, medical, and educational complex situated in central North Carolina. It has an area of 6,900 acres (2,795 hectares) and is 8 × 2 mi (13 × 3 km) in size. Named for the triangle formed by Duke Univ. , NC, and drives long-term semiconductor research contracts on behalf of its participating members: Advanced Micro Devices Inc., Applied Materials Inc., Axcelis Technologies Inc., Cadence Design Systems (company) Cadence Design Systems - A company that sells electronic design automation software and services. http://cadence.com/. See also Verilog. , Freescale Semiconductor Inc., Hewlett-Packard Co., IBM (International Business Machines Corporation, Armonk, NY, www.ibm.com) The world's largest computer company. IBM's product lines include the S/390 mainframes (zSeries), AS/400 midrange business systems (iSeries), RS/6000 workstations and servers (pSeries), Intel-based servers (xSeries) Corp., Intel Corp., LSI LSI: see integrated circuit. (Large Scale Integration) Between 3,000 and 100,000 transistors on a chip. See SSI, MSI, VLSI and ULSI. Logic Corp., Mentor Graphics Corp., The Mitre Corp., Novellus Systems Inc., Rohm and Haas Rohm and Haas Company (NYSE: ROH), a Philadelphia, Pennsylvania based company, manufactures miscellaneous materials. A Fortune 500 Company, Rohm and Haas employs more than 17,000 people in 27 countries. The annual sales revenue of Rohm and Haas stands at about USD 8.2 billion. Electronic Materials and Texas Instruments Corp. SRC also seeks to leverage funding from global government agencies. For more information, visit www.src.org. |
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