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The Rising Stars: 20 Under 30 blog series celebrates the brightest young leaders shaping the future of the semiconductor industry. These exceptional individuals have earned the SEMI Europe 20 Under 30 Award for making a remarkable impact across the supply chain—whether in engineering, sales, marketing, or R D. Nominations for the 2026 20 Under 30 Award are now open, providing the opportunity to recognize and honor the next wave of industry trailblazers.The series spotlights these rising stars for their career achievements, commitment to innovation, leadership skills, and dedication to driving both business success and community growth.Follow their inspiring journeys and discover how they are thriving and paving the way for future generations in the semiconductor world.Meet Pascal Fasel, Project Manager Engineering at Comet X-rayPascal Fasel’s career in semiconductors has developed steadily through hands-on experience and continuous learning. Starting with an apprenticeship in 2012, he built his foundation across design, process, and project roles, gaining a practical understanding of how technologies move from concept to production.Over time, he discovered a strong interest in solving real-world problems and delivering reliable engineering solutions. Today, as Project Manager Engineering at Comet X-ray, Fasel focuses on guiding projects through complexity while balancing speed, precision, and quality in a fast-evolving industry. SEMI: What inspired you to join the semiconductor industry? Fasel: I did not have a single defining moment. I joined through an apprenticeship in 2012 and discovered semiconductors gradually. As my responsibilities grew, I realized that I enjoy solving problems and turning ideas into reliable solutions. Over the past three years, I have mainly worked on semiconductor projects, which confirmed this interest. I am motivated by the fast pace, the need for precision and quality, and the impact of bringing new technology into production. It is this combination that keeps me engaged.SEMI: How did your early experiences and education shape your career path?Fasel: My apprenticeship taught me hands-on skills and the importance of quality and safety. Working across design, process, and project roles helped me understand how systems fit together and where problems arise. I am currently studying industrial engineering part-time while working. My studies and work reinforce each other, with theory supporting practice and projects testing what I learn. These experiences keep me focused on preparing technology for production.SEMI: Can you share a professional accomplishment you’re most proud of, and explain why it’s significant to you?Fasel: The accomplishment that matters most to me is my steady growth at Comet. Since joining in 2012, I have worked across design, process, and project roles. Staying for over a decade has been less about titles and more about trust, learning, and supporting colleagues when challenges arise. This is important to me because it reflects consistency and shared responsibility. It has allowed me to contribute to projects from idea to production in a reliable way.SEMI: As a young professional in the industry, what is your greatest challenge? Fasel: My greatest challenge is balancing speed with quality in a changing environment while ensuring smooth handovers to production. Specifications can change, results can be unexpected, and timelines can shift. To manage this, I focus on learning quickly without cutting corners. I make changes small and reversible, identify risks early, and seek feedback regularly. The goal is to learn efficiently and reduce surprises. SEMI: What advice would you give to younger generations aspiring to make an impact in this industry?Fasel: Stay curious and build a habit of learning every day. You will not master everything at once. Projects move quickly, so remain flexible and start with small steps. Gain experience early through internships or student projects. Apply what you learn in practice. Ask clear questions, listen carefully, and stay open to different perspectives. Share credit when things go well and take responsibility when they do not. Be patient. Steady progress is more effective than big jumps. Focus on quality and safety, even under pressure, and build trust through consistency.SEMI: How do you envision future work environments?Fasel: I believe workplaces will become more flexible and people-focused. Clear goals, open communication, and early feedback will be essential. Collaboration will be hybrid, with time in the office used when it adds value. Teams will focus more on outcomes rather than hours, working in small, manageable steps to reduce risk and stay aligned.SEMI: What impact has the 20 Under 30 Award had on your career? Fasel: I am grateful for the recognition. It has not changed my daily work, but it has created opportunities to connect with others, learn from peers, and share experiences. It also provides a platform to encourage students and early-career professionals to explore this industry. For me, it is a reminder to stay consistent and continue supporting others.Following 20 Under 30 JourneysPascal Fasel’s story reflects the value of persistence, practical experience, and continuous improvement. His work highlights how steady progress and collaboration contribute to delivering reliable semiconductor solutions.The Rising Stars: 20 Under 30 blog series celebrates the exceptional talent and leadership driving the future of the semiconductor industry. Each of the young innovators honored is excelling in their respective fields while shaping the landscape of technology and business with their visionary approaches and dedication. Their stories exemplify the remarkable achievements and unwavering commitment that define the next generation of industry leaders. The series is intended to inspire and motivate future professionals to pursue their passions and embrace the opportunities within this dynamic industry. Stay tuned for more stories of rising stars who are paving the way for continued growth and innovation in the semiconductor world.Learn more about the SEMI Europe 20 Under 30 Award and the recipients honored at SEMICON Europa. If this is of interest and you would like to explore further workforce related topics, we invite you to learn more about ChipQuest. SEMI ContactJames Lam, Business Development ManagerEmail: [email protected]
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The Rising Stars: 20 Under 30 blog series celebrates the brightest young leaders shaping the future of the semiconductor industry. These exceptional individuals have earned the SEMI Europe 20 Under 30 Award for making a remarkable impact across the supply chain—whether in engineering, sales, marketing, or R D. Nominations for the 2026 20 Under 30 Award are now open, providing the opportunity to recognize and honor the next wave of industry trailblazers.The series spotlights these rising stars for their career achievements, commitment to innovation, leadership skills, and dedication to driving both business success and community growth.Follow their inspiring journeys and discover how they are thriving and paving the way for future generations in the semiconductor world.Meet David Coenen, Senior Researcher at imecFrom an early curiosity about how things work to leading advanced research in photonics and thermal management, David Coenen has built his career around understanding and improving complex technologies. His interest in engineering first led him to study aerospace engineering, where he was introduced to nanotechnology and semiconductor systems. What initially seemed abstract gradually became an area he wanted to explore in depth.This growing interest led him to pursue a PhD, where he developed a strong foundation in semiconductor research. Today, Coenen contributes to advancing technologies that support high-performance computing, data centers, and AI applications, working at the intersection of multiple disciplines to address some of the industry’s most demanding challenges. SEMI: What inspired you to join the semiconductor industry? Coenen: I’ve been fascinated by technology for a long time. Ever since I was little, I’ve been eager to learn how things work, from machines to cars and airplanes. This motivated me to study aerospace engineering. During my studies, nanotechnology and semiconductors kept appearing. At first, it felt almost like magic that a piece of silicon could run complex programs. Over time, I developed a deeper understanding and wanted to explore research further. In Belgium, imec is a well-known R D institute, and I decided to pursue a PhD there to give my career a strong foundation. I also believe the semiconductor industry will have a major impact on the future of society, and I want to contribute to that.SEMI: How did your early experiences and education shape your career path?Coenen: When I was around nine or ten years old, I visited imec during a school trip and learned about computer chips. That experience stayed with me. Later, during my engineering studies, I was mentored by teachers who were passionate about science and technology. Their guidance encouraged me to push my boundaries and try things outside of my comfort zone.SEMI: Can you share a professional accomplishment you’re most proud of, and explain why it’s significant to you?Coenen: I received the Best Paper Award for a conference paper submitted to iTherm and was later awarded the Harvey Rosten Award for Excellence for the same work. This is particularly meaningful to me because the initial draft received very negative feedback. I was told it was not innovative enough and advised not to submit it to my preferred conference. From this experience, I learned an important lesson: know your worth and do not assume someone is right simply because they have more experience.SEMI: As a young professional in the industry, what is your greatest challenge? Coenen: I work in photonics and chip thermal management, which is a rapidly evolving field. Keeping up with the latest technologies and developments can be challenging. These chips are used in data centers and large AI and machine learning systems, which are in high demand. Another challenge is finding master’s or Ph.D. students to join my work. My research sits at the intersection of electronics, photonics, thermodynamics, and machine learning, which makes it highly specialized. SEMI: What advice would you give to younger generations aspiring to make an impact in this industry?Coenen: Rome was not built in one day. Developing skills and building a deep understanding of complex technologies takes time. Enjoy your studies and choose something you are passionate about. When you are passionate, learning becomes enjoyable. Think about how you want to impact the world and make it a better place. That gives you strong motivation to work hard. SEMI: How do you envision future work environments?Coenen: From my experience, having flexibility in how I plan my day and organize my work helps reduce stress. Not having a rigid schedule allows me to take breaks and reset my mind. Combined with hybrid working, this makes work more enjoyable and sustainable.SEMI: What impact has the 20 Under 30 Award had on your career? Coenen: I was very honored to receive this award. There are many researchers equally deserving, which makes it even more meaningful. The award allowed me to connect with people inside and outside my organization whom I would not normally interact with. It also increased my visibility and associated my name with excellence.Following 20 Under 30 JourneysDavid Coenen’s story highlights the curiosity, resilience, and commitment to excellence that define the next generation of semiconductor researchers. His work contributes to advancing technologies that support the growing demands of data processing and AI systems.The Rising Stars: 20 Under 30 blog series celebrates the exceptional talent and leadership driving the future of the semiconductor industry. Each of the young innovators honored is excelling in their respective fields while shaping the landscape of technology and business with their visionary approaches and dedication. Their stories exemplify the remarkable achievements and unwavering commitment that define the next generation of industry leaders. The series is intended to inspire and motivate future professionals to pursue their passions and embrace the opportunities within this dynamic industry. Stay tuned for more stories of rising stars who are paving the way for continued growth and innovation in the semiconductor world.Learn more about the SEMI Europe 20 Under 30 Award and the recipients honored at SEMICON Europa. If this is of interest and you would like to explore further workforce related topics, we invite you to learn more about ChipQuest. SEMI ContactJames Lam, Business Development ManagerEmail: [email protected]
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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]
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The Rising Stars: 20 Under 30 blog series celebrates the brightest young leaders shaping the future of the semiconductor industry. These exceptional individuals have earned the SEMI Europe 20 Under 30 Award for making a remarkable impact across the supply chain—whether in engineering, sales, marketing, or R D. Nominations for the 2025 20 Under 30 Award are now open, providing the opportunity to recognize and honor the next wave of industry trailblazers.The series spotlights these rising stars for their career achievements, commitment to innovation, leadership skills, and dedication to driving both business success and community growth.Follow their inspiring journeys and discover how they are thriving and paving the way for future generations in the semiconductor world.Meet Anne-Mary Yeboah, Technology Manager at SoitecWith a background in materials science and a strong interest in technology, Anne-Mary Yeboah has built a career that connects the worlds of engineering and management. After earning her degree in engineering, she deepened her understanding of business through a Specialized Master’s in Management—an experience that broadened her perspective and prepared her for the challenges of a global, fast-moving industry.Today, as Technology Manager at Soitec, Yeboah leads projects that contribute to the next generation of semiconductor innovations. Her journey reflects a balance of technical curiosity, leadership growth, and a belief in the power of inclusion. In this interview, she shares her thoughts on career development, the importance of diversity, and how young professionals can find their voice in a rapidly evolving industry.SEMI: What inspired you to join the semiconductor industry? Yeboah: I’ve always been fascinated by technology, and semiconductors are at the core of innovation today. They are everywhere, from smartphones to electric vehicles, and being part of this field means contributing directly to the technologies shaping our lives and future.SEMI: How did your early experiences and education shape your career path?Yeboah: My engineering studies led me to specialize in materials science, which naturally included semiconductors. Later, I decided to expand my knowledge by pursuing a Specialized Master’s in Management. This combination of technical and business perspectives shaped my career path and ultimately brought me to Soitec, where I now connect both worlds as a Technology Manager.SEMI: Can you share a professional accomplishment you’re most proud of, and explain why it’s significant to you?Yeboah: I’m especially proud of starting my career directly as a Technology Manager. This role has allowed me to contribute to complex, strategic projects and collaborate with teams across functions. Working on products that will drive future innovations is deeply fulfilling and gives meaning to my work every day.SEMI: As a young professional in the industry, what is your greatest challenge? Yeboah: One of the biggest challenges has been finding my voice in a highly experienced environment. It can be intimidating at first, but I’ve learned to turn it into an opportunity to ask questions, learn quickly, and build confidence in my contributions. It has pushed me to develop a broad skill set and become an effective collaborator across teams.SEMI: What advice would you give to younger generations aspiring to make an impact in this industry?Yeboah: Dare to step forward and don’t create your own limits. Ask questions, even when you’re surrounded by experts, curiosity is a strength. Also, be patient. Building credibility and seeing your impact takes time, but each experience helps you grow and move closer to your goals.SEMI: How do you envision future work environments?Yeboah: I see the workplaces of the future as more innovative, inclusive, and collaborative. Diversity should be central, everyone should feel that their voice and perspective matter. At Soitec, initiatives like Women@Soitec are great examples of how gender equality and inclusion can empower people to thrive. I also believe technology and flexibility will continue to reshape how we work, helping us achieve both high performance and balance.SEMI: What impact has the 20 Under 30 Award had on your career? Yeboah: Receiving the 20 Under 30 Award has been a true honor and a wonderful source of motivation. It gave me a moment to reflect on how far I’ve come and to feel proud of my journey. The recognition has boosted my confidence, increased my visibility, and encouraged me to continue pushing forward in my career.Following 20 Under 30 JourneysAnne-Mary Yeboah’s story highlights the determination and adaptability driving today’s new generation of semiconductor professionals. Her ability to bridge science and management reflects the diverse skill sets shaping the industry’s future.The Rising Stars: 20 Under 30 blog series celebrates the exceptional talent and leadership driving the future of the semiconductor industry. Each of the young innovators honored is excelling in their respective fields while shaping the landscape of technology and business with their visionary approaches and dedication. Their stories exemplify the remarkable achievements and unwavering commitment that define the next generation of industry leaders. The series is intended to inspire and motivate future professionals to pursue their passions and embrace the opportunities within this dynamic industry. Stay tuned for more stories of rising stars who are paving the way for continued growth and innovation in the semiconductor world.Learn more about the SEMI Europe 20 Under 30 Award and the recipients honored at SEMICON Europa. SEMI ContactJames Lam, Business Development ManagerEmail: [email protected]
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The Rising Stars: 20 Under 30 blog series celebrates the brightest young leaders shaping the future of the semiconductor industry. These exceptional individuals have earned the SEMI Europe 20 Under 30 Award for making a remarkable impact across the supply chain—whether in engineering, sales, marketing, or R D. Nominations for the 2025 20 Under 30 Award are now open, providing the opportunity to recognize and honor the next wave of industry trailblazers.The series spotlights these rising stars for their career achievements, commitment to innovation, leadership skills, and dedication to driving both business success and community growth.Follow their inspiring journeys and discover how they are thriving and paving the way for future generations in the semiconductor world.Meet Eloise Bond, Senior Etch Process Engineer at KLA Corporation (SPTS Division)Eloise Bond studied Physics at Swansea University before joining KLA in 2019 as an Etch Process Engineer. Since then, she has worked on cutting-edge semiconductor applications while actively promoting STEM through local outreach programs like Generation Tech.A proud recipient of the SEMI Europe 20 Under 30 Award, Bond shares how the recognition boosted her confidence and expanded her network, enabling her to take on new challenges. In her interview, she reflects on overcoming imposter syndrome, the value of flexible work, and the unexpected opportunities that shaped her career. Outside of work, Bond enjoys camping and bouldering.SEMI: What inspired you to join the semiconductor industry? Bond: I’ve always had a passion for science, so pursuing a career in a related field was natural. However, I wasn’t aware of the semiconductor industry until I began studying Physics at Swansea University, which has strong research ties with local semiconductor companies like KLA. Now that I am in the industry, I enjoy the hands-on aspects of my job. I find working with different materials and equipment is more engaging to me than an office-based job. SEMI: How did your early experiences and education shape your career path?Bond: STEM activities during my childhood and visits to museums with my parents sparked my interest in science and the physical world. That curiosity lead me to study physics at Swansea University, which ultimately paved the way to my current role at KLA. As I mentioned earlier, a career in semiconductors wasn’t really a conscious choice until relatively late in my education; I simply followed my passion for science. Today, I’m involved in many of the STEM outreach programs at KLA, helping to promote the semiconductor industry to young children so they can discover the same opportunities that I was fortunate to have had exposure to earlier in my life.SEMI: Can you share a professional accomplishment you’re most proud of, and explain why it’s significant to you?Bond: One accomplishment I’m particularly proud of is building strong customer relationships with a volume production fab in Korea. It was my first experience with direct customer interactions, which felt quite daunting at the time. I was invited to support a tool installation on-site, which allowed me to travel the furthest from the UK I had ever gone. Seeing firsthand how our tools fit into the wider industry gave me valuable context for my day-to-day responsibilities and made my work feel even more impactful. SEMI: As a young professional in the industry, what is your greatest challenge? Bond: Imposter syndrome has been a significant challenge for me. I often find myself in meetings with more senior colleagues and fear I am not performing well enough. However, over time, I have learned that my input is valid and that having multiple perspectives often leads to better outcomes.SEMI: What advice would you give to younger generations aspiring to make an impact in this industry?Bond: To make a difference, you first need to be part of the industry, just getting involved puts you in the room where conversations and decisions happen that you might not otherwise be exposed to.If an opportunity comes your way, take it. I entered this industry due to an opportunity presented to me at the end of my university career. KLA was my first real interview, and I honestly thought my chances were slim. I approached it as a ‘trial run’ and five years later, I’m still here. SEMI: How do you envision future work environments?Bond: I envision a new generation of management that places greater value on work-life balance. In many industries, senior management seem to have a relatively poor work-life balance, such as constantly doing business in the same way they’ve done for the past 40+ years – with constant business travel, working on holidays and long hours in the office. There is still an expectation for younger, ambitious employees to emulate this corporate culture, which creates barriers for those with caregiving responsibilities or other important commitments outside work. I believe a younger, more vocal generation of managers will drive positive changes in how we work. We will see more adoption of fully flexible working and 4-day weeks – happy employees lead to better work outcomes. I also think the technological advances which enabled the rapid switch to “working from home” during the COVID pandemic have permanently reshaped what is possible in terms of flexibly and efficiently.SEMI: What impact has the 20 Under 30 Award had on your career? Bond: This award has given me greater confidence to step outside of my comfort zone. It has also allowed me to increase my network to include colleagues I would have no reason to speak to previously. As a result, I have gained broader knowledge of how KLA operates as a whole and have been able to initiate small cross departmental projects I would not have been possible to before. Following 20 Under 30 JourneysEloise Bond’s journey highlights the passion, resilience, and forward-thinking mindset that characterize today’s emerging leaders in semiconductors. Her dedication to both technical excellence and community engagement showcases how rising stars are not only advancing the industry but also inspiring the next generation.The Rising Stars: 20 Under 30 blog series celebrates the exceptional talent and leadership driving the future of the semiconductor industry. Each of the young innovators honored is excelling in their respective fields while shaping the landscape of technology and business with their visionary approaches and dedication. Their stories exemplify the remarkable achievements and unwavering commitment that define the next generation of industry leaders. The series is intended to inspire and motivate future professionals to pursue their passions and embrace the opportunities within this dynamic industry. Stay tuned for more stories of rising stars who are paving the way for continued growth and innovation in the semiconductor world.Learn more about the SEMI Europe 20 Under 30 Award and the recipients honored at SEMICON Europa. SEMI ContactMaria Daniela Perez, Communications ManagerEmail: [email protected]
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Geopolitical shifts, rapid technological advancement, and supply chain pressures continue to redefine the global semiconductor landscape. These forces framed the discussions at the 2025 SEMI Industry Strategy Symposium Europe (ISS Europe), held in Sopot, Poland. Over two days, industry leaders, and policymakers examined how Europe can boost resilience amid growing uncertainty.Artificial intelligence (AI) stood out as a key driver—powering global chip demand and transforming industry operations. In the past year, AI applications like generative models and edge computing helped push chip sales to new highs. The EU Chips Act, effective since September 2023, also fueled change. It has drawn tens of billions of euros into European semiconductor infrastructure, including major investments in Pomerania, the host region for this year’s symposium. “With AI expected to drive exponential growth in the semiconductor industry—projected to reach $1 trillion by 2030—Europe must act collectively to remain competitive,” said Laith Altimime, President of SEMI Europe. “We encourage collaboration across all countries to strengthen supply chain resilience, mitigate geopolitical risks, and harness the full potential of our diverse talent base.”Laith Altimime, President, SEMI EuropeSo what has the EU’s investment in the semiconductor industry achieved, and how much more remains to be done? Gustav Kalbe, Acting Director of Enabling and Emerging Technologies at the European Commission, cited €80 billion in public and private investment in European fabs as clear progress toward introducing "advanced technology that has not before been deployed on the continent of Europe." However, Kalbe emphasized a new urgency driven by AI’s rise. “We need in Europe a secure supply chain for AI chips in key sectors—particularly automotive,” said Kalbe. “That’s why we are really pushing for accelerated development of AI chips here.”Gustav Kalbe, Acting Director of Enabling and emerging technologies,DG CNECT, European CommissionPoland is a prime example of the EU Chips Act’s impact—driven by consistent government support. Dariusz Standerski, Secretary of State in the Ministry of Digital Affairs, highlighted Poland’s seven-pillar national semiconductor strategy, which includes expanding infrastructure and increasing engineering talent by 20% by 2030. “We need to build our production capacity to meet the strategic needs of Poland,” said Standerski. “Semiconductors are important not only because of market size, but because of their role in national security.”Dariusz Standerski, Secretary of State, Ministry of Digital Affairs, PolandRisks to the Industry from a World in Political TurmoilGeopolitical shifts and market volatility dominated the opening session of ISS Europe 2025. Malcolm Penn, CEO of Future Horizons, warned that despite strong 2024 revenues, industry fundamentals remain fragile. “All of the growth is in graphics processing units (GPUs) for AI and high-bandwidth memory (HBM) for AI servers—every other product sector is currently in recession,” said Penn. He forecast 12% industry growth in 2025 but cautioned against overcapacity and price pressures from China. “We are not seeing unit growth, and without unit growth, you don’t have sustainable market growth,” explained Penn. “If momentum in AI slows, the industry could face a significant retrenchment.”Malcolm Penn, CEO of Future HorizonsLooking beyond the immediate outlook for semiconductors, Hendrik Bourgeois, Vice President for European Governmental Affairs at Intel, turned the spotlight onbroader economic and security challenges facing the region. Bourgeois outlined four strategic policy priorities for Europe: Build internal strength to ensure external (global) relevance;Deepen alliances beyond the United States—such as with the UK, Canada, Japan, and South Korea;Be open to a stronger economic relationship with China;Recognize that the U.S. is more than its federal government: states, cities, people and corporations all have a role to play in bringing stability and certainty.Hendrik Bourgeois, Vice President for European Governmental Affairs, IntelBenedikt Ernst, Senior Vice President and Head of Strategy Transformation at Merck KGaA, Darmstadt, Germany, emphasized the strategic importance of strengthening Europe’s domestic semiconductor ecosystem. “No country or region can be fully self-sufficient,” said Ernst. “But Europe is particularly strong in domains like advanced materials, fabrication equipment, and semiconductor manufacturing. We have leading players in these fields – let’s bet on them.”Benedikt Ernst, Senior Vice President and Head of Strategy Transformation, Merck KGaA, Darmstadt, GermanyMikolaj Trunin, Deputy Director of the Invest in Pomerania, and its Strategic Investment Manager Radoslaw Bojarczuk, highlighted the region’s rising profile among global investors. Despite a global downturn in foreign direct investment (FDI) since 2015, the region stretching from Gdansk and Warsaw to Dresden and Magdeburg is emerging as a vibrant semiconductor hub. “The environment is becoming increasingly attractive to outside investors drawn by the region’s large talent pool, robust venture capital activity, and strong and stable economic growth,” said Trunin.Left: Mikołaj Trunin, Deputy Director, Invest in PomeraniaRight: Radosław Bojarczuk, Strategic Investment Manager, Invest in PomeraniaAdvancing on the Roadmap to Net ZeroThe symposium’s second session tackled sustainability—how to grow the industry beyond $1 trillion in revenue while cutting emissions. AI emerged as a key enabler of sustainable innovation. Bill Lussier, Managing Director of Tokyo Electron Europe, highlighted recycled aluminum which has a much lower carbon footprint, but noted that semiconductor equipment requires ultra-pure aluminum, which is not available off-the-shelf in recycled form. “The solution is to create a new circular economy for ultra-pure aluminum—a supply chain so complex that it cannot be managed without the aid of AI,” explained Lussier.Bill Lussier, Managing Director, Tokyo Electron EuropeAI is also helping decarbonize logistics, a critical yet often overlooked part of the semiconductor ecosystem. Rainer Kiefer, Executive Vice President and Global Head of Sales at Schenker AG, underscored the environmental cost of air cargo: “We need smart supply chain design to reduce the air miles of chips.” AI supports this by optimizing routing, loads, predictive maintenance, and demand forecasting. Rainer Kiefer, Executive Vice President and Global Head of Sales, Schenker AGHowever, AI brings new energy demands. Malgorzata Kasperska, Vice President of Secure Power at Schneider Electric, urged greater efficiency in AI data centers: “We need to optimize both power capacity and efficiency, and deploy high-density infrastructure, all while enhancing sustainability practices.” Malgorzata Kasperska, Vice President of Secure Power, Schneider ElectricEnergy-intensive fab operations remain a major challenge. Charles Vaillant, Chief Technology Officer at MANN+HUMMEL, noted that heating and ventilation account for up to 50% of a fab’s energy use. To improve efficiency, the company introduced a filtration system using activated carbon ceramic technology. The innovation reduces pressure drop, cutting fan energy use and delivering up to 41% energy savings in cleanroom environments.Charles Vaillant, Chief Technology Officer at MANN+HUMMELFinding the Talent to Fuel the Industry’s GrowthAttracting and developing talent remains a critical challenge for the semiconductor industry. Andreas Schleicher, Director for Education and Skills at the OECD, cited a visibility gap: “Young people don’t see these engineering and IT jobs. You cannot be what you do not see.” Meike Boekelmann, Chief Human Resources Officer at Comet, echoed the sentiment. “Face-to-face, we can get people excited about joining our industry,” said Boekelmann. “The challenge is getting them in front of us in the first place.” Andreas Schleicher, Director for Education and Skills,Organization for Economic Co-operation and Development (OECD)In a panel discussion on Bridging the Talent Gap for Sustainable Growth, moderated by SEMI Europe’s Maria Daniela Perez, speakers explored how industry and academia can better collaborate to meet evolving workforce demands. Thomas Kralinski, Saxon State Secretary of Economic Affairs, Labor, Energy and Climate, emphasized the importance of future-ready education. “Do we know which fab is going to be built in 2035, or which start-up will be founded? No—but all the people who will work there are already alive. We need education to prepare these people for this unknown future.Thomas Kralinski, Saxon State Secretary of Economic Affairs, Labor, Energy and ClimatePanel Discussion on Bridging the Talent Gap for Sustainable GrowthAI Intensifies Scale of Innovation in Semiconductor FabricationDay two of ISS Europe 2025 spotlighted AI’s transformative impact on semiconductor innovation, from materials to manufacturing and chip design. John Behnke, General Manager for Smart Manufacturing at INFICON, emphasized AI’s growing role in managing fab complexity. “You need a lot of highly knowledgeable people to run a fab today,” said Behnke. “They must analyze huge amounts of data, and balance priorities like quality, on-time delivery, cycle time, and profitability.” In the future, he explained, AI-powered optimization engines will shoulder that burden by making autonomous decisions.John Behnke, General Manager for Smart Manufacturing, INFICONJean-Christophe Eloy, CEO of Yole Group, pointed to the rapid growth of data centers as a catalyst for architectural transformation, predicting a shift from monolithic AI ASICs to chiplet-based designs. “In the future, we can expect to see much of the value in the semiconductor business transfer from the front-end chip to the advanced packaging that integrates chiplets,” said Eloy. Jean-Christophe Eloy, CEO, Yole GroupThis sentiment was echoed by Christophe Frey, Vice President of EU Engagement at Arm, who described the industry’s shift from systems-on-chip to systems-of-chips. “Chiplets represents a unique opportunity for Europe to re-enter the game of high-end chips,” said Frey. He emphasized the need for an open chiplet marketplace, an effort Arm supports, but warned, “There is a long road ahead of us,” citing the need for silicon qualification, profiling, test and debug infrastructure, software standards, and specifications for mechanical and thermal integration.Christophe Frey, Vice President of EU Engagement, ArmThat transition is already taking shape in manufacturing. Volker Herbig, Vice President of the Microsystems Business Unit at X-FAB, noted that capabilities developed for CMOS+MEMS sensor in the early 2000s are now enabling heterogeneous integration (HI) at scale. “We are now an open HI foundry,” said Herbig, adding that X-FAB is building a dedicated HI facility with support from the EU Chips Act. “This technology is propagating down from the high-performance computing (HPC) world to medical and industrial applications — It’s happening as we speak.”An Industry Changing Faster Than Ever Volker Herbig captured the industry’s rapid evolution with the “Red Queen” theory from Alice in Wonderland: “You need to run as fast as you can just to stay in the same place.”Volker Herbig, Vice-President, BU MEMS, X-FABClosing the symposium, Leonard Hobbs, Director for Government Affairs at Intel Ireland, cited Charles Darwin: “The species which can best adapt to changes in its environment is the one which survives,” Hobbs added, “Over the past two days we have learned much that can help Europe’s semiconductor industry to adapt successfully to a rapidly changed world.” Leonard Hobbs, Director for Government Affairs, Intel IrelandAt the symposium’s gala dinner, delegates celebrated leaders driving the industry forward. SEMI presented the 2024 SEMI European Award to Kurt Sievers, President and CEO of NXP Semiconductors, and honored Anna-Riikka Vuorikari-Antikainen, Chief Commercial Officer of Okmetic, with the Special Service Award.Kurt Sievers, President and CEO, NXP Semiconductors (Middle)Anna-Riikka Vuorikari-Antikainen, Chief Commercial Officer, OkmeticOn behalf of SEMI, the SEMI Europe team and ISS Europe committee would like to thank all speakers, sponsors, and attendees for making the event a great success.SEMI Contact Cassandra Melvin, Senior Director of Business Development and Operations Email: [email protected]
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The Rising Stars: 20 Under 30 blog series celebrates the brightest young leaders shaping the future of the semiconductor industry. These exceptional individuals have earned the SEMI Europe 20 Under 30 Award for making a remarkable impact across the supply chain—whether in engineering, sales, marketing, or R D. Nominations for the 2025 20 Under 30 Award are now open, providing the opportunity to recognize and honor the next wave of industry trailblazers.The series spotlights these rising stars for their career achievements, commitment to innovation, leadership skills, and dedication to driving both business success and community growth.Follow their inspiring journeys and discover how they are thriving and paving the way for future generations in the semiconductor world.Introducing Mariusz Grabowski: Lead Design Engineer at Cadence Design SystemsMariusz Grabowski, a 2023 20 Under 30 award recipient at the age of 24. He is now a Lead Design Engineer at Cadence Design Systems, Inc., where he’s been making strides in digital systems design for nearly three years. Prior to this role, he gained valuable experience as an FPGA Design and Verification Engineer at Aldec Inc. Grabowski holds a master’s degree with distinction in automation and robotics from AGH University of Science and Technology in Krakow, Poland. During his academic career, he was an active member of both the Avader and Integra Scientific Groups. He also achieved recognition at events like DASIP 2023 and in the International FPGA Hackathon, where he and his team earned 2nd and 3rd place. He is currently also pursuing a postgraduate degree in Project Management at SGH Warsaw School of Economics. SEMI: What inspired you to join the semiconductor industry? Grabowski: I have always been fascinated by the fundamental workings of advanced systems and that curiosity led me to pursue a career in the semiconductor industry. As a digital design engineer, it is exciting for me to contribute to the creation of such large and sophisticated architectures from basic building blocks. Now, I’m proud to be a part of Cadence Design Systems, where I can work on the cutting-edge designs with some of the most talented and hard-working engineers. Grabowski and his team at the awards ceremony at FPGA Hackathon 2023SEMI: How did your early experiences and education shape your career path?Grabowski: During my studies, I had the opportunity to work on hands-on projects with an FPGA platform, which led me to my first job as an FPGA design and verification engineer. That experience gave me a broader perspective on the industry’s scale and reinforced my passion for tackling challenges, learning and growing in this field.Grabowski presenting his paper at the DASIP 2023 ConferenceSEMI: Can you share a professional accomplishment you’re most proud of, and explain why it’s significant to you? Grabowski: For me, it is successfully balancing full-time studies with work. It was a challenging experience, but it provided invaluable opportunities to grow my skills and gain hands-on experience. During that time, I completed numerous projects, participated in scientific conferences and industry events like DASIP 2023, and even earned 2nd and 3rd place in the International FPGA Hackathon. These achievements reinforced my passion for the field and my ability to thrive under pressure. SEMI: As a young professional in the industry, what is your greatest challenge? Grabowski: One of the biggest challenges is navigating the complexity of large-scale projects, where seamless coordination between multiple teams across the globe is crucial. As someone still early in my career, gaining the experience to manage the cross-functional aspects of a project while ensuring my own contributions are technically sound has been both demanding and rewarding.Grabowski at the Discussion Panel on Industry Career Perspectives at DATE 2024 ConferenceSEMI: What advice would you give to younger generations aspiring to make an impact in this industry?Grabowski: The sheer amount of information and complexity in the industry can feel overwhelming. It is essential to embrace curiosity and continuous learning, but it is also crucial to recognize that you can’t do everything alone. My advice is to find your area of expertise and collaborate with others; teamwork is key to bringing impactful projects to life. Cadence’s Design Team in Warsaw, Poland Manager Jacek Rosiak—3rd from the leftSEMI: How do you envision future work environments? Grabowski: I envision future work environments as places where technology fosters creativity and collaboration, diversity is celebrated, and flexibility and work-life balance are prioritized. These environments will empower employees to perform at their best while feeling supported and valued. I am proud to be a part of Cadence Design Systems, where I feel that these values are strongly cultivated. SEMI: What impact has the 20 Under 30 Award had on your career? Grabowski: Receiving the 20 Under 30 Award was an incredible validation of the hard work I’ve put into my role. It gave me a confidence boost, affirming that I am on the right path and capable of making meaningful contributions to my company and the broader semiconductor industry. It also brought significant recognition, which opens up numerous opportunities.Following 20 Under 30 JourneysMariusz Grabowski’s journey in the semiconductor industry highlights the power of dedication, curiosity, and continuous learning. From his early experiences with FPGA platforms to his significant accomplishments in both academia and industry, Grabowski is a true example of how passion and hard work can drive meaningful contributions. As a young professional, his insights offer valuable inspiration for the next generation of engineers eager to make their mark in this ever-evolving field. With a bright future ahead, Grabowski is sure to continue influencing the world of technology, one innovative project at a time.The Rising Stars: 20 Under 30 blog series celebrates the exceptional talent and leadership driving the future of the semiconductor industry. Each of the young innovators honored is excelling in their respective fields while shaping the landscape of technology and business with their visionary approaches and dedication. Their stories exemplify the remarkable achievements and unwavering commitment that define the next generation of industry leaders. The series is intended to inspire and motivate future professionals to pursue their passions and embrace the opportunities within this dynamic industry. Stay tuned for more stories of rising stars who are paving the way for continued growth and innovation in the semiconductor world.Learn more about the SEMI Europe 20 Under 30 Award and the recipients honored at SEMICON Europa. SEMI ContactMaria Daniela Perez, Communications ManagerEmail: [email protected]
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The European semiconductor ecosystem continues to evolve, driven by the ambitions outlined in the EU Chips Act. With goals to strengthen Europe’s technological leadership and double its semiconductor manufacturing market share to 20% by 2030, collaboration across the value chain is imperative. Heterogeneous Integration for Connectivity and Sustainability (HiCONNECTS), a Horizon Europe-funded project, exemplifies this collaborative spirit. The initiative aims to develop next-generation electronic components and systems using advanced heterogeneous integration core technology solutions.The HiCONNECTS consortium, comprising 65 partners with diverse expertise, is addressing key societal and industrial challenges. These efforts focus on advancing core technology solutions for energy-efficient, high-performance wireless and wired cloud and edge computing, as well as automotive radar systems.“Collaborating with 65 partners is no small feat—it’s akin to orchestrating a complex IT network,” says Ilan Englard, Coordinator of the HiCONNECTS project. “We streamline progress by creating local networks of partners, all interconnected through a central management framework of tasks, work packages, and coordination. Such large consortia form intricate systems where complexity fosters innovation, often leading to surprising and transformative outcomes.” As the three-year project progresses, HiCONNECTS is working to establish pilot lines focused on key areas:RF Electronic Heterogeneous IntegrationPhotonic Components for Heterogeneous IntegrationAdvanced Packaging for Heterogeneous IntegrationThese pilot lines, led by organizations such as the Ferdinand Braun Institute and imec, will develop systems and modules through advanced equipment development, manufacturing optimization, and integration of electronic and photonic components. Validation of equipment in integrated process flows will further enhance the heterogeneous integration landscape.Now in its third year, HiCONNECTS continues to welcome new members. This inclusiveness underscores the project’s flexibility and its commitment to incorporating fresh perspectives as new trends and challenges emerge. At the 12-month consortium meeting in Catania last February, Arbonaut was unanimously inducted to contribute to the forest fire use case, further expanding the project’s scope.“The upcoming months are critical, as we move closer to delivering modules, systems, and demonstrators,” says Englard. “Our goal is to heterogeneously integrate the next generation of RF, electronic, and photonic components into networking, telecom, and radar systems, with support from module and equipment makers.”HiCONNECTS members at the 12-month consortium meeting in Catania, February 2024As this ambitious work progresses, sharing project results and achievements remains a top priority for the consortium to ensure meaningful social, political, and economic impact. By drawing attention to the results of the project, the consortium enhances the visibility, comprehension, and implementation of these advancements. Recently, four partners—Excillum, TNO, SANLAB, and Centria University of Applied Sciences—participated in a webinar titled “Heterogeneous Integration for Future High Speed Communication,” organized by SEMI Europe. The webinar is now available on demand for viewers worldwide.The significance of HiCONNECTS was further highlighted at SEMICON Europa 2024, where seven consortium members presented progress on topics ranging from advanced packaging to photonic integration. At the TechARENA, representatives from SEMI Europe, Excillum, Centria, Arbonaut, AT S, imec, and Applied Materials showcased the project’s contributions to the semiconductor ecosystem. “I was thrilled to present at the TECHArena and engage with the HiConnects partners,” said Julius Hållstedt, Head of segment - Semi Electronics, Excillum. “I especially appreciated the high attendance at my talk, which validated the strong interest in X-ray solutions for semiconductor applications. The insightful discussions at the SEMICON Europa exhibition and advanced packaging conference was a rewarding bonus.”HiCONNECTS Speakers at SEMICON Europa 2024By disseminating research and breakthroughs across various channels, such as publications, webinars, and conferences, HiCONNECTS is promoting knowledge sharing and fostering collaboration across the semiconductor ecosystem. This openness accelerates the adoption of new technologies, ensuring that European industry players remain at the forefront of critical advancements. Furthermore, sharing these results strengthens Europe’s position as a hub for cutting-edge research and development, driving both economic growth and technological leadership on the global stage.SEMI Europe is proud to be a consortium member of HiCONNECTS under the Chips Joint Undertaking (Chips JU), which is funded by the EU Horizon Europe program and supported by numerous countries, including Austria, Italy, Germany, and Sweden.About HiCONNECTS:HiCONNECTS (Heterogeneous Integration for Connectivity and Sustainability) is a three-year project bringing together 65 partners to develop sustainable, energy-efficient cloud and edge computing platforms. The project focuses on high-performance computing, storage infrastructure, network interfaces, and real-time analysis of IoT sensors and big data.Kartikey Srivastava is Senior Specialist – Communications at SEMI Europe.
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The Rising Stars: 20 Under 30 blog series celebrates the brightest young leaders shaping the future of the semiconductor industry. These exceptional individuals have earned the SEMI Europe 20 Under 30 Award for making a remarkable impact across the supply chain—whether in engineering, sales, marketing, or R D. The series spotlights these rising stars for their career achievements, commitment to innovation, leadership skills, and dedication to driving both business success and community growth.Follow their inspiring journeys and discover how they are thriving and paving the way for future generations in the semiconductor world.Introducing Raphael Hardegger: Product Manager Advanced Products at VATRaphael Hardegger is a Product Manager at VAT, where he leads the development of innovative atomic layer deposition (ALD) valve technology. Starting his career in 2009 as a design engineer apprentice at VAT, Raphael has since gained diverse experience, including entrepreneurial ventures and a role in MedTech. Today, he focuses on shaping product strategy, aligning solutions with customer needs, and driving impactful advancements in the semiconductor industry.SEMI: What inspired you to join the semiconductor industry? Hardegger: I joined the semiconductor industry, and VAT in particular, at the young age of 15. Back then, I started as a design engineer in VAT’s apprenticeship program. Growing up in the beautiful VAT region, my entry into the industry was somewhat by chance – but I’m incredibly glad it happened! After gaining foundational knowledge at VAT, I pursued studies in mechanical engineering, worked in various other roles and companies, and then completed a master’s in business innovation. About 3.5 years ago, the semiconductor industry pulled me back in, and I haven’t looked back since. What keeps me excited about VAT and the industry as a whole is its sheer complexity. Every day, we have the opportunity to innovate with small components that have a significant impact on a huge industry. It’s such a multifaceted field that I’m confident I’ll continue learning something new every day for the rest of my career.SEMI: How did your early experiences and education shape your career path?Hardegger: In Switzerland, the apprenticeship model uses a results-oriented work style from an early age. The lessons I learned during my four years as an apprentice at VAT continue to influence my daily work life. The mechanical foundation I built during that time remains a tremendous asset in my career. When combined with my studies in systems engineering and business innovation, this foundation has allowed me to make a meaningful impact both at VAT and within the broader industry.SEMI: Can you share a professional accomplishment you’re most proud of, and explain why it’s significant to you? Raphael Hardegger in the VAT office of San Jose, California, USA, holding the new product he worked on.Hardegger: When I rejoined VAT as a product manager, I was given the opportunity to manage a new product that wasn’t even on the market yet. This product was a key part of VAT’s strategy to outpace market growth by expanding into new product segments beyond our core offerings. I had the privilege of collaborating with some of VAT’s most talented engineers, who developed an incredible product. Together, we learned a great deal through our initial interactions with customers, refining the product to meet stringent requirements. This year, we successfully qualified the product for use in the industry’s most challenging semiconductor processes. It’s a testament to how dedication, customer-focused engineering and exceptional teamwork can make a significant impact. What makes me proud is not just working on innovative concepts, but creating products that truly excite our customers and contribute to meaningful growth for VAT.SEMI: As a young professional in the industry, what is your greatest challenge? Hardegger: I turned 30 this year, so I suspect I was one of the oldest 20 under 30 winners last year. One challenge I’ve faced — not only in this industry, but across others — is impatience. As a young professional with high aspirations, it’s easy to feel that things aren’t moving fast enough. We often expect early promotions, annual salary increases, and quick recognition for our efforts. What changed my perception on this was a conversation with a senior manager at VAT shortly after I joined. I asked him what steps I should take to move closer to my next career goal, such as earning a management position. His response was simple and direct: Focus on making an impact in your current role. Build a strong track record and demonstrate your skills. Everything else will follow. I took his advice, and I'm glad I did. No, I didn't get promoted immediately, but I learned the value of patience, doing my best every day, and finding satisfaction in the process.Career progression isn’t just about motivation and talent — it’s also about timing and aligning with the business needs. Being impatient or pushing for premature career moves can often backfire, leaving you in a worse position than before. By focusing on making a genuine impact and building a solid track record, you create a strong foundation for a fulfilling and sustainable career.SEMI: What advice would you give to younger generations aspiring to make an impact in this industry?Hardegger: You're in a great place — right where you need to be. Be curious and explore as much of the semiconductor industry as you can. During my training as a design engineer, I wasn't deeply involved in understanding the customer applications our valves were serving. My focus was primarily on developing vacuum valves based on product management requirements and manufacturing needs. Since I returned, I've learned the importance of understanding what our customers truly need and translating those needs into product requirements.This shift has not only helped me and the team create better products, but also made the work much more enjoyable! While I'd still like to deepen my understanding of customers' processes, it's already fascinating to learn more about their goals and see how our products can make a real difference. If I could go back to my apprenticeship or just starting this industry, my advice to myself — and to anyone starting out — would be to stay as curious as possible. Take every opportunity to learn what customers are trying to achieve with the products you help create. That curiosity will guide you to make a meaningful impact.SEMI: How do you envision future work environments? Hardegger: To me, having a clear customer focus in every aspect of a company's efforts is essential. At the end of the day, someone needs to want to buy our products for us to remain profitable and continue to grow. That’s why maintaining a customer-centric approach in all aspects of product development and management is critical. At the same time, the people who work in such companies need to be happy and fulfilled to create great products. I appreciate the recent trends we’re seeing to improve the corporate culture, such as embracing hybrid working models. These approaches provide a healthy balance between in-office collaboration and focused work from home, helping employees maintain productivity and well-being.SEMI: What impact has the 20 Under 30 Award had on your career? Hardegger: While I deeply appreciate the recognition that comes with such awards, I believe my career should ultimately be defined by the impact I make in my field. That said, I do hope the award inspires other young professionals to explore this exciting industry and build meaningful careers here! Following 20 Under 30 JourneysRaphael Hardegger’s journey in the semiconductor industry is a testament to the power of curiosity, dedication, and a customer-centric approach. From his early days as a design engineer apprentice to his current leadership in product innovation, Raphael continues to drive meaningful change at VAT Group. His story inspires young professionals to embrace continuous learning, focus on making a real impact, and contribute to the growth and success of the semiconductor industry.The Rising Stars: 20 Under 30 blog series celebrates the exceptional talent and leadership driving the future of the semiconductor industry. Each of the young innovators honored is excelling in their respective fields while shaping the landscape of technology and business with their visionary approaches and dedication. Their stories exemplify the remarkable achievements and unwavering commitment that define the next generation of industry leaders. The series is intended to inspire and motivate future professionals to pursue their passions and embrace the opportunities within this dynamic industry. Stay tuned for more stories of rising stars who are paving the way for continued growth and innovation in the semiconductor world.Learn more about the SEMI Europe 20 Under 30 Award and the recipients honored at SEMICON Europa. SEMI ContactMaria Daniela Perez, Communications ManagerEmail: [email protected]
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In the rapidly-evolving semiconductor industry, maintaining a competitive edge is crucial. To position Europe at the forefront of global semiconductor innovation, imec is leading the NanoIC pilot line initiative. Aligned with the European Chips Act, this initiative is a strategic move to bolster Europe's leadership in key markets like high performance computing, automotive, and healthcare.SEMI spoke with Srikanth Samavedam and Jo De Boeck from imec, Belgium, to learn more about the NanoIC pilot line and to better understand its goals, challenges, and prospects. From transitioning to gate-all-around (GAA) nanosheet devices, to developing advanced memory technologies and interconnects, this conversation highlights the cutting-edge advancements made possible through collaboration across the industry’s value chain.SEMI: How is the NanoIC pilot line working to revolutionize the semiconductor industry, and what are its main objectives?Samavedam: The NanoIC pilot line is a European initiative aimed at bridging the gap between R D and industrial innovation. The project is creating a beyond-2nm system-on-chip (SoC) pilot line, developing advanced logic, memory, and interconnect technologies. This effort supports the European Chips Act's vision for leadership and competitiveness in global semiconductor innovation, particularly in critical markets like high performance computing, communication, automotive, energy, and healthcare. However, advanced technologies come with more complexity, and addressing these complexity challenges requires more mature module baseline flows. By improving baseline flow repeatability and variability while reducing defectivity, we can accelerate the development of future technologies. The NanoIC pilot line is working to provide access to these advanced technologies and baselines to develop future compute systems. This will help ensure European competitiveness across the industry – from semiconductor materials, equipment and design to systems and applications.SEMI: Who are the core partners involved in this initiative?De Boeck: Key partners of the pilot line include CEA-Leti, Fraunhofer-Gesellschaft, VTT Technical Research Centre of Finland, Tyndall National Institute, and the Center for Surface Science and Nanotechnology of the University POLITEHNICA of Bucharest. This project is also supported by the Flemish government, other participating states, and the Chips Joint Undertaking of the EU Chips Act.These institutions and organizations bring a wealth of knowledge and resources, and imec compliments their efforts by providing access to its global partnerships with key industry leaders. The NanoIC pilot line is helping strengthen Europe’s global semiconductor industry leadership while aligning efforts with other regional Chips Acts. SEMI: Can you elaborate on the significance of transitioning from field-effect transistors (FinFETs) transistors to GAA nanosheet devices in CMOS technology?Samavedam: The transition from FinFETs to GAA nanosheet devices is a significant advancement in CMOS device technology. FinFETs have been the backbone of CMOS technology from the 22nm to the 3nm node. But starting at the 2nm node, nanosheet devices will need to be introduced. Nanosheet devices, including variants like Forksheet devices, are expected to drive scaling and performance through three generations – 2nm, A14, and A10. Complementary FET (CFET) architectures are also expected to be introduced around 2031 at the A7 node, which will represent another major inflection point in CMOS device design. This progression requires extensive research into new materials, process modules, equipment, and advanced patterning capabilities using high numerical aperture extreme ultraviolet (high NA EUV) lithography – all of which will be implemented on the NanoIC pilot line. FIGURE PROVIDED BY IMEC │ SCHEMATIC ILLUSTRATION OF A FUTURE COMPUTE SYSTEM. THE SYSTEM IS MADE OF LARGE MULTI-DIE ELECTRICAL-OPTICAL INTERPOSER PROVIDING ELECTRICAL AND OPTICAL INTERCONNECTS BETWEEN THE VARIOUS CHIPLETS (CPUS, GPUS, HBM). ALSO SHOWN ARE CONNECTIONS TO PACKAGE SUBSTRATE, AS WELL AS FIBER CONNECTORS AND AN INTEGRATED LASER SOURCE. CENTRAL PROCESSING UNIT (CPU); GRAPHICS PROCESSING UNIT (GPU); HIGH BANDWITH MEMORY (HBM); PROCESSING UNIT THAT CAN INCLUDE CPUS, GPUS, AND OTHER SPECIALIZED PROCESSORS (XPU); APPLICATION-SPECIFIC INTEGRATED CIRCUIT (ASIC); ELECTRONIC INTEGRATED CIRCUIT (EIC); FF-LEVEL: FEMTOFARAD-LEVEL; FIELD-PROGRAMMABLE GATE ARRAY (FGPA); GAAS QD: GALLIUM ARSENIDE QUANTUM DOT; INTEGRATED SILICON PHOTONICS PLATFORM 300MM (ISIPP300); REDISTRIBUTION LAYER (RDL); SILICON PHOTONICS (SIPHO); THROUGH PACKAGE VIA (TPV). SEMI: What are the key innovations necessary for advancing memory technology?Samavedam: As SRAM scaling slows, the exploration of novel, dense embedded memory concepts will become imperative. Technologies like spin orbit torque magnetic RAM (SOT-MRAM) and 2-transistor 0-capacitor (2T0C) embedded DRAM using deposited semiconductors like indium gallium zinc oxide (IGZO) are promising. These innovations address memory capacity and bandwidth challenges from new workloads in compute systems. Additionally, developing a 3D memory platform to explore future memory options will be essential for improving SRAM and DRAM. These advancements will help meet the demands of new applications like machine learning, augmented and virtual reality, and autonomous vehicles.SEMI: How do advanced interconnect technologies contribute to the future of semiconductor design?Samavedam: Advanced interconnect technologies, like chip-to-chip lateral (2.5D or interposer technologies) and vertical interconnects (3D technologies), play a crucial role in addressing memory capacity and bandwidth challenges. These technologies enable the partitioning of SoC functions into separate dies, allowing for more efficient and scalable designs. Advances like pitch scaling of micro-bumps and copper (Cu) hybrid bonding are facilitating this fine-grained partitioning of SoC functions. Additionally, optical interconnects and 3D interconnect-enabled co-packaging provide high-bandwidth and low-power connectivity at wafer scale. The rise of chiplet architectures and standardization will also increase the demand for low-cost, tight-pitch interconnect technologies like Cu/polymer redistribution layers.SEMI: How do your collaborators benefit from the NanoIC pilot line? De Boeck: One of the biggest collaborator benefits is the pilot line’s commitment to knowledge sharing through R D access and training. We invite foundries, IDMs, materials suppliers, equipment suppliers, and system companies/OEMs to jointly develop the materials, process modules, and integration flows to accelerate the development of beyond-2nm SoC technology pillars.Design pathfinding and system exploration process design kits (PDKs) will be available for start-ups, small- and medium enterprises, universities, and design and system companies to aid in prototyping and testing their designs. The NanoIC pilot line will also offer comprehensive training programs, including virtual PDK training, bootcamps for faculty, and internships and expert courses for students. To learn more, experts and key partners of the NanoIC pilot line will be presenting from 14 -16:40 at SEMICON Europa on November 12. imec’s program, ITF Chip into the Future, will highlight advancements in digital technology, capacity building through the European Chips Act, and the role of the NanoIC pilot line in accelerating beyond-2nm innovation. The conversation will also address industry requirements for pilot lines, emerging initiatives boosting Europe’s innovation and competitiveness, and perspectives on advanced materials and semiconductor equipment. Srikanth Samavedam, Senior Vice President of Semiconductor Technologies at imec, oversees programs in logic, memory, photonics, and 3D integration. Previously, he was a senior director at GlobalFoundries, leading 14nm FinFET technology into production and developing 7nm CMOS. Starting his career at Motorola, he worked on strained silicon and other advanced materials. He holds a Ph.D. in materials science and engineering from MIT and a master's degree from Purdue University. Jo De Boeck, Executive Vice President and Chief Strategy Officer at imec, oversees the company’s strategic direction and serves on its executive board. He joined imec in 1991 after earning his Ph.D. from KU Leuven and has since held various leadership roles, including head of imec’s Smart Systems and Energy Technology business unit and CTO. De Boeck is also a part-time professor at KU Leuven. Maria Daniela Perez / Communications Manager, SEMI EuropePhone: +49 160 2562977Email: [email protected]
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