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This blog series explores how collaboration between industry and academia can empower the next generation of semiconductor innovators. Through insights from leaders, educators, and students, we’ll showcase effective strategies for bridging the talent gap, fostering innovation, and creating meaningful career pathways in the semiconductor industry.As innovation accelerates and new challenges emerge, the industry’s greatest breakthroughs will come from bold, curious students, young professionals, and lifelong learners ready to build what comes next. SEMI spoke with Professor Antonio Costa of the University of Catania about attracting the next generation to STEM, the emerging skills required in the semiconductor industry, and examples of impactful collaboration with local industry, along with many other insights.Costa shared his perspectives following his participation in the SEMI on Campus program, held on April 16, 2026, in Catania, Italy. SEMI: What emerging skills do you believe will be most essential for the next generation of semiconductor innovators, and how can industry and academia work together to nurture them?Costa: I firmly believe in the role of interdisciplinary skills. The next generation of semiconductor innovators will need a blend of deep technical expertise, cross-disciplinary thinking, and adaptability to rapidly evolving technologies specifically based on artificial intelligence. The future semiconductor innovator isn’t just a circuit designer. They’re a systems thinker, data scientist, and materials engineer rolled into one. The most successful ecosystems will be those where academia teaches fundamentals, and industry provides real-world constraints, tools, and scale. So, university and industry should work together to share their knowledge and technological infrastructures with the aim of supporting the next generation of semiconductor innovators. SEMI: In your work with young engineers and researchers, what approaches have you found most successful in nurturing creativity and sustaining curiosity in such a technically complex field? How do you think we can attract the next generation to enter the STEM studies?Costa: Curiosity and creativity are two major features for researchers and engineers in general. Over the years of teaching and coordinating research activity, I have been able to observe that students are increasingly drawn to challenges coming from the industrial world. In a way, one could say that complexity often stimulates curiosity, and when this happens, students are able to deliver their best performance in terms of creativity and quality of results. In my courses, students have always been required to tackle an industry-inspired project work to be eligible to pass the exam. Every year, I invite industry representatives from local manufacturing companies to present real case studies to the classroom, describing their key elements, constraints, and objectives. Students are then asked to solve the industrial case study by applying the problem-solving techniques learned during the course. Based on my experience, I believe that a greater intensity in the relationship between the industrial and academic worlds can further stimulate students' curiosity and the interest of new generations.SEMI: What do you believe are the most significant barriers for students entering the semiconductor industry today, and how can academia help bridge these gaps?Costa: As usual, the main barriers for students concern the gap between the theoretical study mindset developed during university courses and the demands of the industrial world in terms of teamwork skills, problem-solving abilities, and soft skills. Universities and industry should find greater opportunities for collaboration, for example by establishing shared laboratory activities or seminars during which managers from semiconductor companies, and beyond, illustrate the essential aspects of working life and the primary needs of the semiconductor industry. At the same time, it would be advisable to emphasize the employment and career opportunities that the semiconductor industry is currently able to offer. Hackathons, that have a competitive orientation, could also represent a valid stimulus that companies and universities could pursue jointly and on a regular basis.SEMI: How can universities and industry partners collaborate more effectively to create learning experiences that truly unlock students’ potential and prepare them for the sector’s evolving demands? Professor Antonia Costa, University of Catania and Daniele Pagano, STMicroelectronicsCosta: Shared laboratories, curricular and extracurricular internships scheduled on a continuous basis, and periodic seminars held by company representatives with diverse areas of expertise can make a positive contribution to rapidly and robustly unlocking the learning potential of today's students and tomorrow's new hires. In December 2021, the University of Catania and STMicroelectronics signed a framework agreement to strengthen collaboration in the field of power electronics, with a focus on advanced research and training. The agreement aims to support technological innovation and the development of professional skills in the semiconductor sector, including:Research and development: the launch of projects focusing on increasing power density, efficiency, and reliability of power modules. Training and talent: funds for students’ awards, mentorship programs, internships, thesis projects.Innovation: support for technological growth and the development of professional expertise in power electronics. Regional ties: consolidation of Catania's role as a hub for semiconductor research, with strong synergy between the university and the local ST production site. Curricular internships linked to Master’s degree theses, supervised by faculty members across disciplines, primarily within Engineering, Computer Science, Physics, and Chemistry programs.SEMI: Can you share other examples of collaborations? Costa: Over the past decade, the University of Catania has been an active partner in multiple European consortia, supporting the development of research projects funded through highly competitive national and European programs. Currently, the University of Catania is engaged in collaborative research with STMicroelectronics through two Horizon Europe projects.In the first project, HiCONNECTS, the Department of Engineering is developing a digital twin architecture aimed at optimizing wafer lot dispatching at STMicroelectronics’ manufacturing facility in Catania.The second project, GENESIS, brings together the Department of Engineering and the Department of Chemical Sciences to pursue an ambitious sustainability objective: the development of innovative methods to identify and reduce per- and polyfluoroalkyl substances (PFAS) generated by semiconductor manufacturing processes, thereby mitigating environmental impact."The role of universities is to help students recognize their potential and guide them toward fields where their abilities can truly flourish. Initiatives like SEMI on Campus are invaluable, as they inspire students through direct engagement with professionals, helping bridge the gap between theory and industrial practice." -- Professor Antonio Costa, University of Catania .custom-quote-block { border-left: 4px solid #d9d9d9; padding-left: 26px; margin: 24px 0; } .custom-quote-block blockquote { margin: 0; padding: 0; border: none; } .custom-quote-block p { margin: 0; font-size: 18px; line-height: 1.6; font-style: italic; color: #000; } SEMI: Looking ahead, what role do you see educators playing in shaping the future of semiconductor innovators? Costa: The role of educators, both in schools and, above all, in universities, is to help students recognize their own potential and develop the maturity needed to identify and pursue those fields of knowledge that best highlight their abilities.The SEMI on Campus initiative was immediately embraced by many universities and by myself, as it offers students from diverse academic backgrounds the opportunity to understand the key skills sought by players in the semiconductor industry, while also highlighting the employment and career paths available in this field.The opportunity to hear directly from prominent speakers who work daily in semiconductor design and manufacturing represents a powerful way to stimulate students’ curiosity and potential, while helping to bridge the gap between the theoretical knowledge acquired in university classrooms and the practical, results‑oriented approach required in an industrial environment.The benefits for students are broad and significant, as they can assess their own aptitudes and ambitions against the real demands of semiconductor companies, drawing inspiration and insight from firsthand accounts shared by industry professionals.Antonio Costa is a full professor at the University of Catania (DICAR Department). He teaches Production Planning and Control in the Master’s degree in Engineering Management, and Advanced Technologies for Manufacturing Processes in the Master’s degree in Mechanical Engineering.His research activities are mainly focused on production scheduling, supply chain dynamics, manufacturing process optimization and Statistical Process Control (SPC). He is area editor for Computers Industrial Engineering, member of the Italian Association of Manufacturing Technologies (AITeM) and leads several research collaborations with STMicroelectronics.Interested in bringing SEMI On Campus to your institution or welcoming an industry expert as a guest speaker?Reach out to [email protected]. Let’s work together to inspire the next generation of semiconductor leaders!Related Initiatives:SEMI 20 Under 30: The SEMI 20 Under 30 Awards recognize exceptional young leaders in the semiconductor industry who are making significant contributions and driving innovation. Nominations are open!ChipQuest: The ChipQuest Challenge promotes the microelectronics industry to students to build future talent. University and high school students can participate and win amazing prizes! Serena Brischetto is Director Marketing and Digital Engagement at SEMI Europe.
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The semiconductor industry is at the heart of modern technology, powering everything from smartphones and medical devices to communication systems and transportation. However, to sustain its rapid growth and innovation, the industry faces a pressing challenge: a growing talent gap. Addressing this issue requires collaboration between academia and industry to ensure that students are not only equipped with the necessary skills but also have clear pathways into the workforce.That’s where SEMI On Campus comes in. Launched in March 2025 by SEMI Europe, this new initiative is designed to bring together the semiconductor industry and universities, fostering collaboration that benefits students, educational institutions, and companies alike. With its first edition in Poland, SEMI On Campus is already making waves by reaching over 150 students and strengthening industry-academia connections.First Stop: PolandThe inaugural SEMI On Campus event took place at Gdańsk University of Technology and The University of Gdańsk, where key representatives from SEMI Europe—Bernard Capraro (Senior Manager, University Partnerships Talent Initiative), Victoria Cummings (Senior Manager, Workforce Development EU Projects), Maria Daniela Perez (Senior Manager, Business Development), and Kartikey Srivastava (Senior Specialist, Communications)—met with deans, professors, and students from various faculties.The Power of Industry-Academia CollaborationCollaboration between universities and the semiconductor industry is crucial in ensuring students gain practical knowledge, hands-on experience, and direct access to job opportunities. Companies, in turn, benefit from a steady pipeline of skilled graduates ready to drive innovation and meet industry demands.During the event, Bernard Capraro shared his own journey, from an engineering internship in Germany to leading research and development initiatives at Intel. His experience highlighted how diverse skill sets and career paths can lead to impactful roles in the semiconductor industry."Yes, the industry needs mechatronics engineers, data scientists, chemists, physicists, and computer science professionals. But it also needs media experts, gamers, biologists, environmentalists, public policy professionals, and communicators. It’s all about transferable skills and finding your area in this dynamic and diverse industry,” said Capraro.Expanding Opportunities with the European Chips Skills AcademyOne of the key initiatives supporting the semiconductor industry’s workforce development is the European Chips Skills Academy (ECSA). Designed to tackle skills shortages and propel industry growth, the Academy builds on the goals of the Microelectronics Pact for Skills and the EU Chips Act. With backing from 18 partners, including vocational training providers, research organizations, and industry leaders, ECSA aims to:Attract new talent into microelectronicsFoster collaboration between educational institutions and industryProvide training and certification opportunities to enhance workforce readinessVictoria Cummings emphasized how the initiative offers mentorship programs and access to leading companies and events. ECSA also builds on the student ambassador initiative, empowering institutions to support students in developing ideas and connecting them with mentors who can help shape their careers.Driving Diversity with the European Chips Diversity AllianceDiversity, equity, and inclusion are key to strengthening the semiconductor workforce. Kartikey Srivastava highlighted the European Chips Diversity Alliance (ECDA), a collaborative effort between academia and industry that aims to lower barriers to participation for underrepresented groups.With 11 partner organizations, the ECDA seeks to enhance inclusivity in the microelectronics sector, ensuring that the industry remains competitive and accessible to all. By fostering inclusive talent pipelines, the initiative is helping shape a more equitable and innovative future.A Successful Launch with a Bright FutureThe first SEMI On Campus event was a tremendous success, not only for the students who gained valuable insights and networking opportunities but also for universities and industry leaders looking to strengthen their collaboration. By building bridges between academia and industry, SEMI On Campus is paving the way for a more skilled and dynamic semiconductor workforce in Europe.If you’re interested in hosting a SEMI On Campus initiative or inviting an industry representative to speak at your institution, please reach out to [email protected]. Let’s work together to inspire the next generation of semiconductor leaders!SEMI Contact: Maria Daniela Perez, Senior Manager Business DevelopmentEmail: [email protected] Lam, Manager Business DevelopmentEmail: [email protected]
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