SCSU Strengthens AI Talent Pipeline with New Manufacturing Micro-Credential

New micro-credential supports Connecticut workforce as demand for AI skills surges

Southern Connecticut State University is expanding its workforce training in artificial intelligence and quantum technologies to help meet Connecticut’s rapidly growing demand for AI-skilled workers.

Through the State of Connecticut’s Tech Talent Accelerator (TTA 3.0), Southern will enhance its existing AI in Manufacturing program by integrating foundational quantum computing concepts and launching a new non-credit micro-credential designed for working professionals in the manufacturing sector. The inclusion of quantum applications — a key element in securing this latest round of funding — reflects Connecticut’s growing leadership in advanced technologies and the need for a future-ready workforce.

“AI is reshaping many sectors of our economy, and Connecticut is ensuring our workers and students are prepared to lead in this new era,” Governor Lamont said. “By investing in AI education and workforce training through the Tech Talent Accelerator, we are strengthening our talent pipeline, supporting Connecticut businesses, and creating opportunities for everyone to secure high-quality, good-paying jobs.”

According to state workforce data, nearly 11,000 Connecticut job postings since August 2024 have required AI skills — a 40% increase over the previous year — underscoring the urgent need for expanded training pathways.

Southern’s project is led by the Office of Workforce and Lifelong Learning (OWLL) and builds on the university’s existing non-credit AI in Manufacturing certificate. The expanded program will prepare current and future manufacturing professionals to understand, evaluate, and apply AI-enabled tools in real production environments — from predictive maintenance and quality inspection to workflow optimization and data-driven decision-making.

“This initiative reflects Southern’s commitment to delivering responsive, industry-informed workforce education,” said Amy Feest, executive director of OWLL.

A key addition is a new course, Quantum in Manufacturing 101, which introduces foundational quantum computing concepts and explores how emerging quantum technologies may influence advanced manufacturing systems.

Thomas Sadowski, SCSU lead instructor for Quantum in Manufacturing, emphasized the importance of preparing the workforce for what’s next.

“By equipping manufacturing professionals with practical skills in artificial intelligence and emerging quantum technologies, we are helping today’s workforce adapt to rapid technological change while positioning Connecticut’s manufacturers for long-term competitiveness and innovation,” Sadowski said. “This investment in upskilling is essential to ensuring our manufacturing sector continues to grow, modernize, and lead.”

OWLL is partnering with key industry leaders to shape and deliver the curriculum. Lead industry partner Nucor Wire Products will help review course content, provide operational examples and case studies, and enroll employees in the pilot cohort. NVIDIA is supporting the initiative through expertise and resources in advanced computing and AI applications. The Quinnipiac Chamber of Commerce and the Greater New Haven Chamber of Commerce will assist with outreach to manufacturers across the region, helping ensure broad participation and real-world relevance.

“We are thrilled to partner with Connecticut manufacturers and industry leaders on this initiative,” said Jennifer Ricker, Ed.D., associate director of OWLL. “From the outset, this program was designed with industry—not for industry—so the curriculum directly reflects real-world manufacturing challenges and opportunities.”

Matthew Behar, lead instructor for AI in Manufacturing, underscored the program’s workforce-centered focus.

“This initiative is about empowering people, not replacing them,” Behar said. “By investing in reskilling and upskilling, we’re giving manufacturing professionals the tools to work alongside advanced technologies and continue adding value as the industry evolves.”

As a recently designated R2 research institution under the Carnegie Classification, Southern continues to expand its role as both a driver of innovation and a connector between research and real-world impact. The university’s growing research profile — particularly in areas like quantum science, advanced manufacturing, and applied technologies — directly informs programs like this one, ensuring that workforce training is grounded in emerging discoveries and industry needs.

Together, the expanded program reflects Southern’s ongoing commitment to preparing Connecticut’s workforce for what’s next. By bringing together higher education, industry partners, and state leaders, the university is helping ensure manufacturers across the state have access to the talent and training they need to compete — now and in the years ahead.

Original Article ↗

Recent News

U.S. National Science Foundation Announces Transformational Award to Connecticut’s Quantum Tech Sector

For Immediate Release
July 14, 2026 —
WASHINGTON, D.C. — The U.S. National Science Foundation (NSF) announced today that
Connecticut is one of twelve regions selected to receive an NSF Regional Innovation
Engines (NSF Engines) award, joining a portfolio of regional technology clusters that are
accelerating the development of critical technologies and building a durable U.S.
technology advantage.
The NSF Quantum Technologies Engine in Connecticut, led by the University of
Connecticut in partnership with Yale University, Southern CT State University, Connecticut
State Community College, ConnCORP, CT Innovations, and the State of Connecticut, aims
to advance American quantum innovation and secure the domestic quantum supply chain
by accelerating the commercialization of quantum technologies for national defense,
biotechnology, and financial services. Through innovation, applied research leading to new
technologies, support for inventors and entrepreneurs, and workforce development, the
NSF Quantum Technologies Engine will advance quantum sensing, secured
communications, computing, and materials through shared testbed, deep-tech incubator
and translation pathways.
“NSF Engines investments in critical technologies and future industries will transform
America’s innovation infrastructure for decades to come,” says Brian Stone, performing the
duties of the NSF director. “The NSF Quantum Technologies Engine will advance the
Nation’s quantum innovation by accelerating the commercialization of quantum
technologies for national defense, biotechnology and financial services.”
The NSF Quantum Technologies Engine in Connecticut (the QuantumCT Engine) team will
initially receive a two-year, $15 million award. The funds will support the Engine’s
technology translation, workforce development, and incubator operations. The funds will
also facilitate industry and community engagement to deliver broad societal benefits. By
demonstrating sufficient progress, the QuantumCT Engine has the potential to receive
$160 million from NSF over the next decade.
The QuantumCT Engine will leverage world-leading research and innovation expertise from
UConn and Yale to pursue translational research to benefit industry, generate technology
ventures, and train the region’s workforce to enter a high-growth field. It will also deliver
technology acceleration and startup support services to drive public-private partnerships
and create a quantum ecosystem that generates economic growth.
Quantum technology industries are expected to grow to $200 billion by 2040, with the
potential to reshape sectors important to Connecticut and the country, including
aerospace, defense, drug development, manufacturing, and finance and insurance.
Connecticut companies that are adopting quantum technologies support over 270,000
jobs, accounting for 38% of wages in the state. They also are responsible for millions of
jobs and over $28.7 billion in GDP nationwide.
“Connecticut is the nation’s leading state for quantum technology adoption,” says Pamir
Alpay, UConn’s provost and the principal investigator on the NSF-funded proposal. “The
award recognizes our team’s success in establishing partnerships with industry to
accelerate quantum technologies and build a quantum-ready workforce.”
“This award application process was highly competitive, and it’s a huge win for
Connecticut,” says Gov. Ned Lamont. “Our pioneering research and advanced application
pipeline helped set us apart from the competition. Whereas other states may be theorizing
about quantum, we’re already applying it together with corporate partners across the state.
These federal funds, combined with state investment, will accelerate Connecticut’s
progress in quantum technology and help establish our state as a national and global
leader in this field—and we’re grateful for NSF’s support in getting us here. This investment
will help create good jobs and new opportunities for workers across the economy as
quantum’s impact grows.”
The NSF Engines program invests in regional ecosystems with the potential to drive
economic growth through technological innovation. The QuantumCT Engine proposal was
chosen for funding from a field of 15 finalists following a highly competitive national
selection process.
“As Connecticut’s flagship public university and the state’s land-grant institution, UConn
takes pride in its leadership role within the QuantumCT Engine. Our university is home to
more than 60 esteemed faculty members who are experts in the field of quantum science
and will collaborate with Yale researchers to drive innovative advancements and
groundbreaking discoveries in quantum research,” UConn President Radenka Maric says.
“Over the past three years, we have been working hand-in-hand with our academic, state,
industry, and community partners to position quantum technologies as a catalyst for
economic development that will fuel prosperity in our state and nation. It is crucial that
America take the lead in the global quantum race to safeguard national security, secure our
digital economy, and drive future economic growth. Furthermore, we must excel
internationally in quantum healthcare to deliver life-saving therapeutics and diagnostics. I
am grateful to Governor Lamont and Dan O’Keefe, the commissioner of the Department of
Economic and Community Development, for their grand vision for our state.”
The State of Connecticut has pledged $121 million to the QuantumCT Engine, comprising
$60 million already invested and an additional $60 million upon receiving the NSF award.
This state support will build a quantum incubator in New Haven, the Engine’s hub, among
other initiatives.
In 2023, NSF awarded the QuantumCT Engine team a $1 million NSF Engines Development
Award through UConn, which established the operational structure and built the
partnerships to drive the ecosystem. QuantumCT, a 501(c)(3) nonprofit organization, was
founded by UConn and Yale as part of the NSF Engine Development Award to support
applied research, help companies explore quantum applications, generate startups, and
prepare a skilled workforce.
Industry partners are key to the QuantumCT Engine’s success. Quantinuum and D-Wave
are partnering to develop quantum computing testbeds with QuantumCT that will be used
for experimentation and technology translation activities.
Quantum technology adopters – including RTX, Travelers, Boehringer Ingelheim, Pfizer,
Amphenol, and Microsoft – have been working with the QuantumCT Engine team over the
past several years on applied research projects that bring quantum capabilities directly to
their product lines.
“With this transformative award, NSF has recognized the scale of the QuantumCT Engine’s
ambition and its potential to accelerate the quantum revolution for our state, region, and
the United States as a whole,” Yale University President Maurie McInnis says.
“I am so proud of this effort to develop real-world solutions that enrich our communities
and of the spirit of collaboration that it represents,” she adds. “Together with our partners at
UConn and across the state, we have been able to drive innovation and unleash economic
growth, while fulfilling Yale’s vital mission of research and education.”
Alongside industry partnerships and state support, sustained investments by UConn and
Yale have helped build the quantum ecosystem that this award will accelerate.
At Yale, this includes startups such as Quantum Circuits, co-founded by Robert Schoelkopf
and Michel Devoret — whose pioneering work in quantum computing earned him the 2025
Nobel Prize in Physics — and recently acquired by tech innovator D-Wave with plans to
double its workforce in New Haven.
Southern Connecticut State University (SCSU) also plays a critical role as the QuantumCT
Engine’s workforce lead, with its QNT (CSCU Center for Quantum and Nanotechnology)
serving as the optimal coordinator based on its successes in leading educational initiatives
and strong alliances with industry, community stakeholders, and IHEs throughout
Connecticut.
Through longstanding technical and education collaborations with Yale, UConn, and the CT
State Community College System, the QNT is a conduit to all academic institutions in the
state and to small and medium businesses including those in advanced manufacturing,
biotech, photonics, and other supply chain sectors.
“Southern Connecticut State University is more than ready to take the lead on workforce
development in Connecticut’s quantum ecosystem,” says Sandra Bulmer, interim
president of the university. “We are proud to be part of Connecticut’s ‘research triangle,’
along with Yale and UConn, serving as the support for the talent pipeline. Our mission is
grounded in access and opportunity, and the workforce piece of this effort enables us to
open up new frontiers in research and innovation to countless students across
Connecticut.”

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