Press Release Summary:
"Economic Impact of Measurement in the Semiconductor Industry" shows that investment in measurement science has and will continue to have a dramatic effect on innovation, productivity, growth, and competitiveness in and among high technology sectors. It found that the focus on measurement technologies pursued by the ITRS allowed a reduction of defect rates and the miniaturization of feature size. It also highlights several areas that need further improvement for the industry to stay on pace.
Original Press Release:
Measurement Innovations Add Up to Big Savings for Semiconductors
A new report* from the National Institute of Standards and Technology (NIST) shows that investment in measurement science has and will continue to have a dramatic effect on innovation, productivity, growth and competitiveness in and among high technology sectors. Citing the semiconductor industry as a case in point, the analysis, prepared for NIST by RTI International (RTI), estimates that the $12 billion spent on advancing measurement capabilities during the decade beginning in 1996 will have saved that sector more than $51 billion in scrap and rework costs by 2011-a net benefit of approximately $39 billion.
RTI estimates that for every dollar spent on measurement, the industry as a whole saw a $3.30 return. (Dollar amounts represent 2006 dollars adjusted for inflation.) The report found that the strategic focus on measurement technologies pursued by the International Technology Roadmap for Semiconductors (ITRS), a consortium of chip manufacturers and related stakeholders, benefited both the industry and consumers through the reduction of defect rates and the miniaturization of feature size. The advances fostered through this effort, among others, resulted in lower costs, higher product quality and ever faster processing speeds.
Measurement technology has allowed the industry to keep up with "Moore's Law," which predicts the number of transistors per chip will double every two years. By the early 1990s, the industry realized it would no longer be possible to satisfy this benchmark without the ability to manipulate nanoscale-sized features. The report credits the initiative to augment nanoscale measurement capabilities outlined in the ITRS and its predecessor as one of the factors that helped manufacturers to increase the possible number of transistors per chip from 3.1 million in 1996 to 1.7 billion in 2006 while making marked improvements in quality, design, software and interoperability.
The report underlines the importance of measurement science to the semiconductor industry and highlights several areas that need further improvement if the industry is to stay on pace. These areas include the need for new standards for measuring features lengths at 32 nanometers, new techniques for controlling radio-frequency electromagnetic energy and high-frequency magnetic fields, and better chemical and materials standards, as well as new and more accurate calibration, interoperability and test standards.
RTI gathered the information for this analysis through surveys and other means. The answered queries accounted for more than 80 percent of the semiconductor industry, and the results were taken to be representative of the industry as a whole. The results may also be viewed as conservative in that RTI was able to quantitatively estimate productivity impacts but not increases in quality.
*Economic Impact of Measurement in the Semiconductor Industry is available on the NIST Web site at http://www.nist.gov/director/planning/policy_studies.htm
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