Jatin Mendiratta

The semiconductor industry is expanding at an unprecedented pace. Global semiconductor revenues are now forecast to exceed $1 trillion annually by 2030, yet recruitment is struggling to keep pace with the demand for new workers. This is why talent development is a critical focus for SEMI and the SEMI Foundation.Young professionals and students are crucial stakeholders of future talent. Held during SEMICON Europa, Building the Talent Pipeline event provided a showcase for some of Europe’s most enthusiastic promoters of careers in the industry: the Student Ambassadors of the European Chip Skills Academy (ECSA). The session opened with Andra Bornea, a Master’s student of electrical engineering at the Technical University of Cluj-Napoca in Romania, who shared the inspiring story of her journey towards a career in electronics. “For me, it started when I attended the ECS Summer School in 2023 along with 39 other students. It was a life-changing experience,” Bornea shared.The Summer School is a week-long programme jointly organised by AENEAS, ECSA, EPoSS and Inside, bringing together lectures, demonstrations and interactive sessions that give students a first-hand glimpse into what a career in semiconductors can look like. For Bornea, the impact was immediate and decisive. “Attending the Summer School convinced me to shift the focus of my studies from telecommunications and pursue a Master’s in electrical engineering,” she added. Today, Bornea is one of 70 students across Europe who form the ECSA Student Ambassador Programme, a community she describes as “a vibrant network of motivated students working towards the goal of keeping Europe at the forefront of the global semiconductor industry.”Andra Bornea, Technical University of Cluj-Napoca The event also featured other ECSA student ambassadors who are actively promoting the semiconductor industry within their own academic communities. One of them was András Bálint Mészáros, an electrical engineering student at the Budapest University of Technology and Economics, who spoke about his determination to build a student electronics club despite facing administrative hurdles along the way. Reflecting on the process, Mészáros said, “ECSA provided good opportunities to start a community of students interested in observing how the microelectronics industry works.”András Mészáros, Budapest University of Technology and Economics A similar spirit of initiative was shared by Nassim Beladel, a Master’s student at ETH Zurich, who described founding Young Neuromorphs which is a student association focused on computational hardware design inspired by the structure of the human brain. Beladel outlined ambitious plans for the group, including an FPGA hackathon in 2026 supported by the Edge AI Foundation, as well as a proposal to present the association’s work at an IEEE event in Shanghai. Nassim Beladel, ETH Zürich These new initiatives supplement a vibrant network of clubs and events around Europe. Octavian-Constantin Axinte, a Master’s student at the Technical University of Cluj-Napoca, told the forum of a Romanian competition for electronics students which has its roots way back in 1992. The Technologies of Interconnections in Electronics (TIE) contest attracted 1,500 students to its final stage in 2025. Axinte said that the benefits of participation included “hands-on experience of professional work, interaction with teachers, and, if all goes well, a job offer!” Octavian Axinte, Technical University of Cluj-Napoca Pioneering Research Efforts of the Next Generation of Students The Building the Talent Pipeline event also gave ECSA student ambassadors an opportunity to describe the findings of research projects that they have undertaken. Laura Sondakh, a Master’s student at Ghent University, presented her research into the environmental and social impacts of tantalum and cobalt which are critical minerals used in electronic components such as capacitors. “These minerals mostly come from the Democratic Republic of Congo, a country which ranks very low on development indices,” she explained, noting that many mines are located in conflict-affected regions in the east of the country. Laura Sondakh, Ghent University Vuk Vulević, a Bachelor’s student of telecommunications and IT at the University of Belgrade, shared his work on the applications of quantum computing, highlighting its potential beyond classic engineering uses such as machine learning. He explained how quantum technologies could also be applied “in pharmacology, for simulating complex molecules and testing compounds virtually, and in finance, for performing risk analyses and Monte Carlo simulations at high speed.” Vuk Vulević, University of Belgrade Z Zainab, a Research Assistant at Hochschule Anhalt, shared insights from her research into how mechanical strain can be introduced during the wafer saw-dicing process which is a critical step in turning wafers into individual chips. Using Raman spectroscopy, her work helps identify how key process parameters influence wafer integrity, enabling manufacturers to better optimise dicing conditions and reduce hidden damage that can affect chip reliability and manufacturing efficiency.Z Zainab, Research Assistant, Hochschule Anhalt Future Plans for Building the Talent Pipeline The event concluded by looking ahead at how SEMI and its partners are scaling up programmes to support talent development worldwide. Victoria Cummings, Senior Manager for Workforce Development and EU Projects at SEMI Europe, introduced Reinforcing Skills in Chips Design for Europe (RESCHIP4EU), a Master’s program for training the next generation of semiconductor designers supported by SEMI Europe and STMicroelectronics. Outlining the project’s ambition, Cummings said, “The program has a broad curriculum, covering everything from silicon chips and SoCs to safety-critical software, how to run a team, and how to start a semiconductor business.” Victoria Cummings, Senior Manager, Workforce Development and EU Projects, SEMI Europe The focus then shifted towards engaging younger learners. Marco van Schagen and Tijl Bouman, co-founders of JuniorIOT, unveiled their newest workshop, Chips in Schools, which builds on their work to spark interest in electronics among younger students. During a hands-on demonstration, audience members of all ages were invited to examine LEDs under a microscope, learning how different chips can be identified and classified by function.The Chips in Schools workshop will soon be available on the ECSA e-learning platform as part of the ongoing collaboration between ECSA and JuniorIOT. Reflecting on the importance of early engagement, van Schagen noted: “When we talk about the talent pipeline, we need to ask where this pipeline really begins. For us, it’s so important that we reach out to children early to foster their sense of curiosity and discovery.”Marco van Schagen, Co-founder of JuniorIOT, demonstrating the Chips in Schools workshop with Victoria Cummings.Rounding off the session, Mike Glavin, Program Director for Workforce Development at the SEMI Foundation, spoke about efforts to significantly scale the foundation’s impact. He described how, despite hundreds of individual microelectronics education initiatives across schools and colleges in the United States, their collective impact has often been limited by fragmentation and a lack of coordinated promotion. To address this, Glavin introduced the National Network for Microelectronics Education (NNME), an initiative designed to unify and amplify existing programmes by connecting educators, students and regional partners. The goal, he explained, is to build scalable, sustainable talent pipelines: “We want to answer the questions, how do we train teachers to educate students about semiconductors? How do we connect to networks through which we can train educators at scale? And how do we develop resources so that a university can host its own semiconductor day, rather than requiring the SEMI Foundation to put it on?” Mike Glavin, Program Director for Workforce Development, SEMI Foundation From university labs to industry-aligned Master’s programs, the message at SEMICON Europa 2025 was clear: talent development is critical to sustaining Europe’s semiconductor ambitions. SEMI would like to thank its partners across academia and industry, as well as the vibrant community of ECSA Student Ambassadors, whose collaboration, commitment and creativity are helping to build a diverse, resilient talent pipeline and shaping the future of the global microelectronics ecosystem.SEMI Contact Jatin Mendiratta, Communications Coordinator, European Projects Email: [email protected]

The GENESIS EU project is reshaping how Europe thinks about semiconductor manufacturing. Its goal is simple but ambitious: reduce usage of harmful chemicals from chip production, cut emissions and waste, and make the industry more circular and resilient.Launched on 1 May 2025, GENESIS – GENerate in Europe a Sustainable Industry for Semiconductor – is a research and innovation project co-funded by the European Union through Chips JU and its participating member states. In addition, Swiss partners are supported by the Swiss State Secretariat for Education, Research and Innovation (SERI).Coordinated by CEA-Leti in Grenoble, GENESIS brings together 58 partners from across the semiconductor value chain: materials and chemistry suppliers, equipment manufacturers, semiconductor fabs, research and technology organisations (RTOs), universities, small and medium-sized enterprises (SMEs), recycling specialists and communication experts. Together, they are working to build a resilient, circular and environmentally responsible microelectronics sector aligned with the European Green Deal and the European Chips Act.Mission and VisionGENESIS exists to future-proof the European semiconductor industry. The project focuses on:Eliminating or replacing per- and polyfluoroalkyl substances (PFAS) and other hazardous substances used in manufacturing processes;Reducing waste and greenhouse gas emissions throughout the production chain;Securing access to critical materials through smarter use, reuse and circular strategies;Deploying advanced monitoring and sensing solutions for gas and liquid environments in fabs.Six Work Packages, One Integrated ApproachTo reach its objectives, GENESIS is structured into six work packages.Work Package 1 – Management, Specifications, and MethodsLead: CEA-LetiWP1 keeps the project on track. It manages the technical, administrative and financial coordination of GENESIS and defines common specifications and methodologies. This includes setting technical recommendations and carrying out environmental impact assessments so that shared targets and consistent methods guide all subsequent work.Work Package 2 – Process, Monitoring Sensing Hardware and SolutionLead: CSEMWP2 develops real-time monitoring technologies capable of detecting and quantifying emissions from process gases such as NF₃, CF₄ or SF₆. By improving transparency and enabling process feedback, GENESIS contributes to the transition toward low-emission semiconductor fabs aligned with EU climate goals.Work Package 3 – Environmentally Friendly Materials AlternativesLead: imecWith global PFAS restrictions tightening, the semiconductor sector urgently needs high-performance, safe alternatives. GENESIS in WP3, is designing and qualifying materials for key manufacturing steps including lithography, etching, cleaning, deposition, and packaging, that reduce industry dependence on PFAS and higher GWP gases while ensuring compatibility with industry performance requirements.Work Package 4 – Minimisation of Waste and EmissionsLead: FraunhoferWP4 addresses the complexity of semiconductor waste streams and explores innovations to enhance abatement efficiency. GENESIS develops recycling, recovery, and closed-loop solutions for gases, slurries, and solvents, with the aim of significantly reducing waste across fabs.Work Package 5 – Materials Scarcity Impact MitigationLead: Università degli Studi di Roma Tor VergataEurope’s dependence on critical raw materials—including gallium, indium, and rare earth elements—represents both an environmental and strategic challenge. GENESIS in WP5 focuses on reducing CRM usage through process innovation and strengthening circularity to enhance supply chain resilience.Work Package 6 – Regulations, Dissemination, Communication and ExploitationLead: SEMI EuropeWP 6 is dedicated to ensuring that GENESIS creates meaningful and lasting impact beyond its technical achievements. It integrates regulatory monitoring, dissemination, communication, and exploitation activities to connect the project’s innovations with industry needs, European policy developments, and wider society. WP6 is coordinated by SEMI Europe, supported by expert partners across the consortium, and serves as the bridge between GENESIS’s scientific work and its real-world influence.Long-term strategyGENESIS is built with one goal in mind: making sure the work happening inside the project translates into real change across Europe’s semiconductor ecosystem. To support this, the project focuses on four key impact areas that help move ideas from research into industry, policy and long-term community engagement.Helping Industry Put Results to WorkA core part of GENESIS is understanding how each partner can use the project’s results in their own environment. Whether it’s new materials, smarter monitoring solutions or better waste-reduction approaches, partners define clear pathways for adoption so GENESIS innovations can move naturally into real industrial use.Staying Connected to Europe’s Policy AgendaSustainability and chemical regulations in Europe are evolving fast, and GENESIS stays close to these developments. The project brings technical insights to discussions around the Green Deal, PFAS regulation, and critical raw materials. This makes sure GENESIS is not only aligned with policy trends, but also contributes to shaping them.Making Knowledge Accessible and Future-FocusedOpen access is an essential part of GENESIS. The project shares its research outputs publicly and supports the creation of educational material for universities and training programmes. This helps the next generation of engineers and specialists build on GENESIS knowledge and carry it forward.Keeping GENESIS Visible and RelevantGENESIS maintains a strong presence across events, conferences, publications and expert discussions. This ongoing engagement ensures that project results remain visible, understood and connected to wider conversations on sustainable semiconductor manufacturing—helping extend the project’s influence well beyond its duration.Towards a Sustainable Semiconductor FutureGENESIS shows that high-performance chips and environmental responsibility can coexist. By uniting materials science, process engineering, monitoring technologies, environmental assessment and policy insight, GENESIS is helping define what responsible, future-ready semiconductor manufacturing will look like tomorrow.Jatin Mendiratta, Communications CoordinatorSEMI Europe Phone: +49 160 402 8899Email: [email protected]

As Europe’s microelectronics industry enters a new era of growth, one question stands out: do we have the talent pipeline to match our ambitions? The European Chips Skills Academy (ECSA), coordinated by SEMI Europe, is addressing this challenge through coordinated action, insightful research, and strong collaboration between industry and academia. Why Talent and Skills Matter The semiconductor sector in Europe is undergoing rapid transformation, driven by the European Chips Act and large-scale investments in design, manufacturing, and packaging. This momentum creates significant demand for engineers, technicians, and specialists across the electronics value chain.However, Europe faces a growing structural challenge. An ageing workforce, modest growth in technical graduates, and limited public awareness of semiconductor careers are widening the talent gap.The ECSA Skills Strategy 2024, published in November 2024, provides a detailed overview of this situation. The updated Skills Strategy 2025, released in November 2025, reinforces the urgency with new data and recommendations.According to the latest report, around 30% of Europe’s current semiconductor workforce will retire by 2030, while the inflow of graduates is increasing by less than 1% per year. This creates an annual shortfall of approximately 10,800 skilled professionals across the European value chain. Read the full report, available to download on the ECSA website.Without decisive action, this shortfall could limit Europe’s ability to meet its strategic goals in semiconductors, electronics, and digital technologies.What is European Chips Skills Academy (ECSA)?ECSA connects industry, academia, training providers, and policymakers to create a sustainable and inclusive skills ecosystem for the electronic components and systems (ECS) sector.Its core objectives are:To attract new talent into semiconductor and ECS careers.To upskill and reskill professionals for emerging roles.To build a long-term, future-ready talent pipeline across Europe.Through this initiative, SEMI Europe is leading the conversation on talent and skills, turning awareness into action and strategy into measurable results.Key ECSA Initiatives:1. ECS Summer School The annual ECS Summer School invites STEM students from across Europe to explore careers in microelectronics through lectures, workshops, and hands-on learning.The 2024 edition took place in Bertinoro, Italy, while the 2025 edition was hosted by the Budapest University of Technology and Economics in August 2025, under the theme “Fascinating Electronics for a Cool World.”The 2026 edition will return to Bertinoro, Italy on August 23-26. These events give students a first-hand look at the semiconductor ecosystem, helping them connect with experts and understand how their studies translate into real-world careers.Read more about the 2025 Summer School.2. “Day in a Fab” WebinarsThe “Day in a Fab” series offers students and young professionals the opportunity to interact directly with experts from semiconductor fabs, design houses, and equipment manufacturers.These webinars provide practical insights into various career paths within the ECS industry, helping participants better understand the range of opportunities beyond traditional engineering roles.By bridging the gap between academia and industry, these sessions help students envision a future within the European semiconductor ecosystem.See upcoming events on the ECSA website.3. Skills Strategy ReportsECSA’s Skills Strategy Reports (2024 and 2025) form the backbone of Europe’s talent development roadmap.They provide:Quantitative forecasts of job demand, workforce needs, and potential skill shortages.Insights from over 130 industry and academic experts.Recommendations for training, mobility, and reskilling programmes.The 2024 Skills Strategy Report can be accessed here, while the 2025 update is available here.These reports help policymakers, companies, and educators align their efforts to strengthen Europe’s competitiveness and ensure a resilient talent ecosystem.SEMI Europe’s Leadership in Talent and SkillsAs the global industry association for electronics manufacturing and design, SEMI Europe plays a central role in addressing the talent challenge.Through ECSA, SEMI Europe:Validates industry needs to ensure training and education are aligned with real-world demand.Connects universities and training providers with semiconductor companies to co-develop curricula.Promotes visibility and inclusion across the ECS community.Supports mobility and collaboration to create a Europe-wide approach to skills development.This leadership transforms the skills agenda from a background issue into a strategic pillar of Europe’s semiconductor ecosystem.Looking AheadThe European semiconductor industry is entering a decisive decade. The technology and investment potential are enormous, but they depend on a skilled and motivated workforce.ECSA’s work from the Skills Strategy reports to the Summer School and student engagement activities is creating a structured, evidence-based approach to developing that workforce.The path forward is clear: attract, train, and empower the next generation of engineers and innovators. With SEMI Europe’s guidance, the European Chips Skills Academy is ensuring that Europe’s ambitions in chips and microelectronics are matched by the people who will make them possible.The European Chips Skills Academy (ECSA) is a pan-European initiative coordinated by SEMI Europe and co-funded by the European Education and Culture Executive Agency (EACEA) under project number 101110124.Learn more about ECSA’s mission.SEMI ContactJatin Mendiratta, Communication CoordinatorEmail: [email protected]