Today, the U.S. National Science Foundation announced a new program with Intel Corporation to educate and train the nation's semiconductor manufacturing workforce and advance opportunities for equitable science, technology, engineering and mathematics education. Following the historic passage of the "CHIPS and Science Act," Intel and NSF will invest $10 million to provide funding to support the development of a high-quality manufacturing workforce at all levels of production and innovation as described in a new Dear Colleague Letter, or DCL.
A nationwide shortage in semiconductors, complicated by the global pandemic, has made it difficult for the chip industry to meet the increasing demand for chip-based products. And while that demand is high in the U.S., only about 10% of the global supply of chips is produced nationally. Awards made through this DCL will help tackle this problem by supporting the education and training of the semiconductor manufacturing workforce in the U.S.
"We are thrilled to continue our partnership with Intel to support research and workforce development to advance semiconductor design and manufacturing," said NSF Director Sethuraman Panchanathan. "It's not just about chips - it's about unlocking investments in America's science and technology research, STEM education and workforce. This collaboration presents a remarkable opportunity for students entering this field."
Through this collaboration, NSF and Intel will invest in a wide range of innovations that enhance engineering technology and advanced education and training for semiconductor manufacturing and design. Moreover, it will improve and make more equitable STEM education at two-year colleges and four-year universities, including minority-serving institutions.
"This partnership is important and timely," said James L. Moore III, NSF assistant director for Education and Human Resources. "There is an immediate need to advance semiconductor manufacturing education, research and design in the United States. Given the recent signing of the 'CHIPS and Science Act,' American semiconductor research and production are likely to increase over the next five years. There is also strong national support for investing in STEM education to prepare students entering this field."
"NSF and Intel have a long history of successful partnerships," said Erwin Gianchandani, assistant director for Technology, Innovation and Partnerships, NSF's newest directorate. "This joint investment will advance innovative and evidence-based practices in the education and preparation of the domestic-skilled semiconductor industry technical workforce. And together, NSF and Intel will jumpstart bold and transformative activities that will address immediate semiconductor manufacturing challenges and workforce shortages in the U.S."
This DCL is one part of a previously announced 10-year collaboration between NSF and Intel that will, over time, invest $100 million to address semiconductor design and manufacturing challenges and workforce shortages around the country.
Projects funded through this DCL will focus on semiconductor industry workforce development for high-technology fields that are critical to future semiconductor design and manufacturing. Those interested can apply for award opportunities through two NSF programs: the Advanced Technological Education program, which supports the education of the skilled technical workforce at the undergraduate and secondary school levels; and the Scholarships in Science, Technology, Engineering, and Mathematics program, which supports institutions of higher education to fund scholarships for academically talented, low-income students.