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Smart Manufacturing

At SEMICON Europa 2025, the Executive Forum programs brought together experts from across the semiconductor value chain to address two critical challenges shaping the industry’s future in Europe: the transformation of the automotive sector and the pursuit of smarter, more competitive manufacturing.Smart Mobility in a Changing MarketKnut Krümmel, Senior Partner Automotive at Porsche Consulting, set the tone with a stark question, “Are we facing a Detroit scenario in Europe, especially in Germany?” – a reference to the decline since the 1990s of the famous “Motor City.” He pointed out that all three of Germany’s giant OEMs, Volkswagen, Mercedes-Benz and BMW, are rapidly losing market share in China in the face of a destructive price war, and have suffered large declines in reported earnings. Krümmel outlined four strategic imperatives for Europe’s auto industry: reduce complexity and increase standardization, become software-defined, design regulation that supports innovation, and build stronger partnerships across the ecosystem. He emphasized, “A new mindset is needed—people need to be hungry to win and prepared to suffer in pursuit of victory.”Knut Krümmel, Senior Partner Automotive, Porsche Consulting GmbHAndreas Aal, Head of Semiconductor Strategy at Volkswagen AG and Chair of Europe at SEMI Smart Mobility Global Automotive Advisory Council (GAAC), introduced a proactive approach to redefine the market. He shared Volkswagen’s vision for mobility-as-a-service, exemplified by its roboshuttle pilot in Hamburg. “It is very difficult for a traditional OEM to go into the full digital services world. But this is what we want to do,” said Aal.Andreas Aal, Semiconductor Strategy Volkswagen AG and Chair of Europe GAAC, VolkswagenJan-Philipp Gerhmann, Vice President of Marketing and Strategy for Automotive at NXP Semiconductors, added that the traditional value chain is being upended. The industry is shifting from a hierarchical supply chain to vertical integration, with companies like Tesla designing their own chips. Gehrmann introduced NXP’s CoreRide platform, a modular “skateboard” architecture enabling plug-and-play Advanced Driver Assistance Systems (ADAS) and infotainment features for future vehicles.Jan-Philipp Gehrmann, Vice President of Marketing Strategy, NXPA perspective on the future of semiconductors in autonomous vehicles was provided by Dieter Hoffend, Business Director for Automotive at imec: “For autonomous vehicles, you need a higher-end compute capability, which needs a transition to smaller nodes – and that is very costly. In fact, semiconductor companies will not want to commit volume to automotive customers for their most expensive leading-edge ICs. This means that a chiplet architecture will be the most cost-effective approach for vehicles, and will provide the greatest supply chain resilience. To support this, imec’s vision is of an open chiplet marketplace of heterogeneous chiplets which are interoperable.”Dieter Hoffend, Business Director Automotive Sector, imecAchieving End-to-end Manufacturing ExcellenceThe Executive Forum then shifted to a discussion of smart semiconductor manufacturing. Giovanni Notarnicola, Partner at Porsche Consulting, highlighted the untapped potential of AI in fabs. “AI requires massive amounts of data—but fabs often don’t own or control their data. And second, AI talent doesn’t typically reside in semiconductor companies,” said Notarnicola. His recommendation: “AI is not an IT issue—it’s a cross-functional technology. Isolating AI in the IT department is an old-fashioned view which will deter AI talent from joining the industry.”And Notarnicola encouraged the industry to leverage the new white paper produced by SEMI End-to-End Smart Manufacturing Group, which provides an in-depth report on the application of AI in semiconductor fabrication. Giovanni Notarnicola, Partner, Porsche ConsultingOliver Aubel, Corporate Lead for Automotive Solutions at GlobalFoundries, echoed the opportunity. “We have 1 billion sensors in a fab, but 30% of the signals are statistical noise. AI could help us make better sense of the data.”Oliver Aubel, Corporate Lead for Automotive Solutions at GlobalFoundriesA session on smart manufacturing brought to light other proven methods for improving the performance of fabs. Dr. Holland Smith, Director of Data Science at INFICON, described fab control technology that INFICON had helped STMicroelectronics to deploy. As Thomas Gimmig, Director for Industry 4.0 at STMicroelectronics, said, “Our model was a highway control room – a place where a single person controls 220km of road monitored by 400 cameras, and handles one alert every three minutes on average. This is only possible with a huge amount of automation.”Left: Thomas Gimmig, Director for Industry 4.0 at STMicroelectronics; Right: Dr. Holland Smith, Director of Data Science at INFICONAt STMicroelectronics, the new fab control room mimics this model, automating anomaly detection and problem solving. Smith described how the system will not be limited to detecting and handling anomalies which have already occurred. “There is a plan to look ahead at problems which could emerge in future, and to configure it to make proactive suggestions which will prevent anomalies from occurring in the first place,” said Smith. Jamie Potter, co-founder and CEO of Flexciton, showcased how intelligent scheduling tools based on real-time fab capacity are transforming operations. “In the modern fab decisions must be made more frequently, with more intelligence and with fewer people. And that is why fabs need to be made more autonomous,” said Potter.Jamie Potter, CEO Cofounder, Flexciton Ltd“Our tool is based on a dynamic capacity model of the fab, so WIP optimization is based on knowledge of what the fab can actually do now, rather than – as is normally the case in fabs today – on an abstract algorithm which is derived from operational results observed in the past.” Potter said. Robert Wallace, Solutions Architect at Seagate, which has deployed the Flexciton technology, confirmed the impact: “We increased throughput without increasing cycle times, and saw a 30% drop in deviations from forecast completion times.” Robert Wallace, Solutions Architect at SeagateAntoine Amade, President (EMEA) of Entegris, emphasized the importance of benchmarking to guide performance improvements: “We have a robust library of fab case studies. These benchmarks can become the foundation for best practices.” Antoine Amade, President (EMEA) of EntegrisRegulatory Burdens and Regional Challenges In a panel session, the discussion turned to the issues that European semiconductor manufacturing faces in particular. Herbert Blaschitz, Executive Vice President of Advanced Technology Facilities at Exyte, put a strong emphasis on the drag that European regulation imposes on the construction of new fabrication plants: “There is three times more paperwork to complete in Europe than in Asia.” Blaschitz made the contrast with Taiwan, “where they have standard codes of regulation specifically for a wafer fab. In Europe, we have regulations for skyscrapers, we have regulations for building family homes. But we have nothing for wafer fabs.”It could be worse for companies building all new fabs. According to Stephen Rothrock, President and CEO of ATREG, “We are affected by permits and politics most of all when trying to push through the repurposing of fabs.”From Left to Right: Mark Puttock, Sr. Director - Technology and Innovation, Entegris; Giovanni Notarnicola, Partner, Porsche Consulting; Stephen Rothrock, President/CEO, ATREG; Jean-René Lèquepeys, Deputy Director and Chief Technology Officer, CEA-Leti; Herbert Blaschitz, Executive VP of Advanced Technology Facilities, Exyte; Oliver Aubel, Corporate Lead Automotive Solutions, GlobalFoundriesSustainable Manufacturing Practices: A Source of Competitive Advantage?The forum ended with a debate on the value of and problems with Europe’s commitment to sustainability. As Mark Puttock, Senior Director for Technology and Innovation at Entegris, acknowledged concerns that sustainability practices could raise costs and reduce process efficiency. But Jean-René Lèquepeys, Deputy Director and Chief Technology Officer at CEA-Leti, countered: “sustainability can be a competitive advantage. For instance, the industry is under pressure to eliminate PFAS from its processes. CEA-Leti is working on this problem, and the whole world is looking for a solution.”The event concluded with a moment of celebration: Ilya Zabelinsky, Co-founder of the International Subfab Research Labs (ISRL), won a diamond prize sponsored by Nanores Lab,Left: Jakub GawczyńskiJakub Gawczyński, Head of Nanores Lab; Right: Ilya Zabelinsky, Co-founder of the International Subfab Research Labs (ISRL)On behalf of SEMI, we extend our sincere gratitude to the speakers, sponsors, and participants who contributed their expertise and vision to the programs at SEMICON Europa 2025.SEMI ContactAna Bernardo, Senior Manager of Technology Programs SalesEmail: [email protected]
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The CxO Summit at SEMICON Europa 2025 spotlighted Europe’s ongoing efforts to build a resilient and globally competitive semiconductor industry, while calling for greater ambition, speed, and unity in execution. Following global disruptions with the automotive supply chain crisis, the European Union launched a continent-wide strategy through the EU Chips Act. While the Act has already spurred significant developments, including construction of the new ESMC fab in Dresden, Europe remains far from its goal of achieving a 20% share of global semiconductor production by 2030. The CxO Summit, part of the SEMICON Europa event in Munich, provided an opportunity for industry leaders to share ideas about how to catalyze the next phase of the European industry’s growth.Ajit Manocha, President and CEO of SEMI opened the summit by describing today’s industry landscape with one word: “unprecedented.” Manocha said, “The global growth of the industry is unprecedented, with 107 new fabs set to come online by 2028, but the uncertainties are unprecedented, from geopolitics to the talent shortage to environmental concerns. So we need unprecedented solutions.” Ajit Manocha, President and CEO, SEMILaith Altimime, President of SEMI Europe echoed the mood of uncertainty, describing Europe as caught “in a perfect storm.” Altimime said, “As we face a combination of internal challenges and intensifying external competition, collaboration is not optional — it is mission critical.” Laith Altimime, President, SEMI EuropePierre Chastenet, Head of the Unit for Microelectronics and Photonics, European Commission, highlighted the tangible progress made under the EU Chips Act. “We now have a proper toolbox to handle a future crisis in the supply chain. The Chips for Europe initiative has led to the creation of five pilot lines for advanced technologies such as FD-SOI and wide bandgap semiconductors.” Chastenet added, “Europe must now capitalize on its strengths, from materials and equipment to design tools and cutting-edge research emerging from our RTOs.”Pierre Chastanet, Head of the Unit for Microelectronics and Photonics, European CommissionEchoing the call for action, Oliver Schenk, Member of the European Parliament, urged stronger regional unity. “Europe must act together, act faster, and act with much bigger ambition,” Schenk said, reinforcing the need for cross-border commitment to strengthen the continent’s semiconductor position.Oliver Schenk, Member of the European Parliament, European ParliamentHighlighting Europe’s most critical technology gap, Luc Van den hove, President and CEO of imec, unveiled plans for a new advanced fab backed by €2.5 billion in investment from the EU, the Flemish government, and ASML. Van den hove urged Europe to commit wholeheartedly to advanced technologies: “We must be more ambitious, and focus on disruptive breakthroughs rather than incremental change if we want to ensure a prosperous future.”Luc Van den hove, President CEO, imecAt the CxO Summit, CEA-Leti and ASML signed a memorandum of understanding (MoU) to deepen their collaboration and accelerate innovation in mainstream semiconductor technologies. Building on promising results in hybrid bonding, the partnership will now target 'More-than-Moore' innovations, including heterogeneous integration and novel substrates like SiC and GaN. “We aim to combine ASML’s world-class lithography expertise with CEA-Leti’s system-level innovation,” said Sébastien Dauvé, CEO of CEA-Leti. The collaboration is set to strengthen Europe’s ecosystem by shortening the path from early research to industrial impact.Left: Anne Hidma, Senior Vice President EUR US, ASML; Right: Sébastien Dauvé, CEO, CEA-LetiTurning to Europe’s industrial base, Christian Senger, CEO of Volkswagen Autonomous Mobility, emphasized the need to shift from risk-aversion to opportunity. While the region’s automotive sector faces intense global competition, particularly from China, Senger highlighted that Europe has the potential to lead in new mobility markets. “The market for autonomous roboshuttles for people transport in large cities is forecast to be worth €400 billion in the US and Europe alone,” he said. With American firms like Waymo and Uber leading the robotaxi space, Senger stressed that Europe must “act swiftly to create an environment that supports an autonomous mobility industry here.”Christian Senger, Member of the Board for Fully Autonomous Mobility and Transport CEO of ADMT GmbH, VolkswagenEurope’s Potential to Create Advanced TechnologyOne of these RTOs, CEA-Leti, is responsible for the FAMES pilot line for FD-SOI technology. Sébastien Dauvé, CEO of CEA-Leti, agreed with Pierre Chastenet that the pilot lines show great promise. He said, “FD-SOI is a big trend in semiconductors, because it enables very low power consumption in embedded devices. We think that adoption of the technology will grow in the coming years, and that is good, because most of the technology is produced in Europe.”Sébastien Dauvé, CEO, CEA-LetiEurope is also widely recognized to be the leading global voice on sustainability – a huge issue of concern to the semiconductor industry. Henri Berthe, President of the Semiconductor and Battery Segment at Scheider Electric, told the summit that 500 million tonnes of CO2 emissions per year are attributable to the semiconductor industry – “more than the whole of Mexico emits!” he said. “We need to make fabs more efficient, and that is why Schneider Electric has launched a new playbook with Applied Materials for sustainable energy abundance for the industry.”Henri Berthe, President of the Semiconductor Segment, Schneider ElectricAnother aspect of Europe’s playbook is support for new fabs. The flagship is ESMC, the joint venture between TSMC, NXP Semiconductors, Bosch, and Infineon. Christian Koitzsch, president and managing director of ESMC, reported to the summit that the project to build in Dresden a 12nm FinFET foundry and a 28nm CMOS line, requiring a total investment of €10bn, is on schedule. “We are now developing local supply chains, hosting a series of ESMC Supplier Days which are open not only to German but generally to European suppliers,” said Koitzsch.Christian Koitzsch, President and Managing Director, European Semiconductor Manufacturing Company (ESMC)As Manfred Horstmann, General Manager and Senior Vice President of Global Foundries, pointed out, the building of the ESMC fab means that Dresden is established as the center of a cluster of semiconductor industry companies. “Global Foundries has its Fab 1 and a mask center in Dresden. In fact, one-third of the chips produced throughout the whole of Europe now comes from Dresden.”Manfred Horstmann, General Manager and Senior Vice President, GlobalFoundriesAn example of ambition was given by Terence Gan, Executive Director of the Institute of Microelectronics of Singapore. Gan told the summit how Singapore has used pilot lines to stimulate research and development in new technologies. He said: “We started research into advanced packaging as long ago as 2011. Most people thought we were mad! But today, there is strong demand for our advanced packaging capabilities because of the rise of AI and its need for high-performance computing.”Terence Gan, Executive Director, Institute of MicroelectronicsBreaking Barriers to ProgressDespite momentum, bureaucratic inefficiencies continue to hamper progress. Narjiss Haddaoui, Managing Director of European Economics called for faster decision-making: “In global competition, speed is a decisive factor. To act fast enough, the EU must change its ‘software’ - the processes by which it considers and makes decisions.” Narjiss Haddaoui, Managing Director, European economicsThe stifling character of European bureaucracy is reflected in the region’s approach to building fabs. Herbert Blaschitz, Executive Vice President of Advanced Technology Facilities at Exyte, compared fab construction timelines: 20 months in Taiwan, 34 in Europe, and 38 in the U.S., attributing delays in Europe to paperwork bottlenecks.Herbert Blaschitz, Executive VP of Advanced Technology Facilities, ExyteFabio Gualandris, President for Quality, Manufacturing and Technology at STMicroelectronics raised another concern — 100% of raw materials used in European fabs come from outside the region. Christophe Frey, Vice-President for EU Engagements at Arm France, added that geopolitical tensions are clouding the path forward: “We are a bit lost in the smoke from the big fire in the world’s semiconductor industry.” Fabio Gualandris, President Quality, Manufacturing Technology, STMicroelectronics Christophe Frey, Vice-President of EU Engagements, Arm FrancePlaybooks For Future SuccessSo amid the uncertainty and global tension, what lessons can the industry learn from successful regional examples? Tuomas Korpela, Business Development Senior Manager at Nokia, credited Finland’s strategic procurement and policy tools with enabling a vibrant semiconductor ecosystem: “Finland creates demand for advanced chips using industrial policy tools, alongside strategic procurement in sectors such as defense and aerospace, and connectivity.” Tuomas Korpela, Business Development Senior Manager - Corporate Development Organization, NokiaAt a regional level, Joerg Schulze, Director of the Bavarian Chips Alliance, said that his organization was supported by the Bavarian State Ministry of Economic Affairs, as well as by companies and universities. “We help semiconductor companies to establish themselves and grow here through help with site searches, networking and contacts, funding and support, and talent acquisition,” said Schulze.Joerg Schulze, Spokesperson for the Bavarian Chips Alliance, Director of the Fraunhofer IISB, Bayern Innovativ GmbHCompanies in the European semiconductor supply chain also provided the summit with their insights into the roots of global success. André Grede, Chief Technology Officer of Comet, described how his company’s strategy is not to wait for customers to tell it what they need, but to be “ahead of the curve.” Grede said: “Is staying in sync with the customer enough? Not for us - we are deeply embedded with our customers, and constantly looking to broaden our relevance to them.”André Grede, CTO, CometChristophe Maleville, Chief Technology Officer of Soitec, provided a real-world example of how this is done. He said: “Our engineered substrates using RF-SOI technology reduce the drain on a mobile phone’s battery power, and cut our customers’ board footprint thanks to RF front end integration. As a result, our products are now in 100% of 5G smartphones.”Christophe Maleville, CTO, SoitecAnne Hidma, Senior Vice-President for Europe and the US at ASML, shared the company’s success formula: “The reasons for ASML’s success include customer focus – decide which markets you are going to be in, and which you are not. We are also all-in on innovation. We nurture an ecosystem, which for us includes imec and CEA-Leti, as well as partnerships with academia. And lastly, we have a strong supply base, which is a core strength of Europe.” In a time marked by both uncertainty and opportunity, the example of ASML shows how the European semiconductor supply chain can survive and thrive.Anne Hidma, Senior Vice President EUR US, ASMLEurope’s Path ForwardThe CxO Summit made one thing clear: Europe has world-class innovation, policy momentum, and industrial commitment. What’s needed now is faster execution, deeper collaboration, and the courage to invest in the technologies of tomorrow. As the industry heads toward the $1 trillion milestone, the decisions made today will shape Europe’s place in the semiconductor world for decades to come.On behalf of SEMI, the SEMI Europe team would like to express appreciation to the industry leaders for sharing their visions and readiness to collaborate during the CxO Summit.SEMI ContactLaith Altimime, President SEMI [email protected]
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As the global semiconductor industry charges toward a projected $1 trillion market by 2030, regional innovation hubs are stepping into the spotlight. The inaugural SEMIEXPO Heartland—held April 1–2, 2025, at the Indiana Convention Center in Indianapolis—brought together key players from across the ecosystem to explore how advanced packaging, smart manufacturing, smart mobility, AI, and workforce development are fueling the semiconductor revolution.With a special focus on building self-reliance in the U.S. chip supply chain, the event highlighted efforts that are revitalizing the Midwest’s role as a key region driving innovation in the global semiconductor ecosystem. SEMIEXPO Heartland showcased leading-edge strategies and technologies from global giants and regional champions alike—underscoring the deep connections between government, academic, research, and industry leaders.Keynote HighlightsSK hynix: Accelerating the Future with Chiplets and Advanced PackagingDr. Woong Sun Lee, Senior Vice President at SK hynix, kicked off the event with a powerful vision for the future of semiconductor manufacturing. In response to skyrocketing demand fueled by AI, autonomous vehicles, and next-gen mobile applications, SK hynix is pursuing aggressive innovation through heterogeneous integration and chiplet-based design.Using 12-inch wafers, SK hynix’s chiplet strategy compresses product development timelines from 10-20 years to as little as 2-5 years. This leap in design efficiency enables faster time-to-market and greater performance optimization—crucial in an industry where speed and scale are paramount.A major component of this vision is the company’s investment in a state-of-the-art advanced packaging facility in Indiana. Targeting mass production by 2028, the new hub will not only expand SK hynix’s U.S. manufacturing footprint but also support national goals around workforce development and ecosystem growth. It’s a bold move that aligns the company’s R D leadership with America’s strategic reshoring efforts.Robert Bosch Semiconductor: Driving the Future with Silicon Carbide (SiC)Thorsten Scheer, Regional President Mobility Electronics and Plant Manager at Bosch Roseville, presented a deep dive into how Bosch is preparing for the electrified mobility era. Central to Bosch’s strategy is the adoption of silicon carbide (SiC) semiconductors, which are increasingly critical to electric vehicle powertrains.As vehicles become more connected and automated, Bosch projects more than 40 semiconductor chips per car by 2035. To meet this demand, Bosch is developing dual-channel trench MOSFET technology using SiC—a move that enhances power conversion efficiency and reduces heat, two of the biggest challenges in EV design.Bosch’s global expansion includes a new SiC wafer fab in Roseville, California, which is set to begin production in 2026. This facility is not only a technological investment but also a commitment to supply chain resilience, ensuring that the U.S. plays a central role in future automotive innovation.Polar Semiconductor: Reshoring Advanced Foundry CapabilitiesSurya Iyer, President and COO of Polar Semiconductor, shared the company’s mission to reinvigorate America’s semiconductor manufacturing capabilities. Headquartered in the Midwest, Polar is a rare U.S.-owned foundry playing a strategic role in reshoring production and building domestic capacity.Specializing in power semiconductors—including MOSFETs, IGBTs, and wide-bandgap (GaN) devices—Polar focuses on serving critical sectors such as automotive, aerospace and defense, and industrial applications. With advanced automation and a commitment to cost-efficient scale, the company is helping to bring more semiconductor innovation back to U.S. soil.Polar’s flexible business models and emphasis on workforce training position it as a linchpin in the nation’s efforts to build a more secure and agile semiconductor supply chain.Smart Manufacturing and Mobility SessionsUnlocking the Future with AI, Edge, and Digital TwinsThe opening session on April 1 showcased how AI and advanced simulation are transforming the semiconductor manufacturing process. NHanced Semiconductor introduced "Foundry 2.0," a platform delivering chiplet-based solutions tailored for low-volume, high-mix applications—highlighting flexibility and speed.Kulicke Soffa emphasized the use of AI, digital twins, and agentic automation in backend operations, helping to cut costs and boost efficiency. Humatics demonstrated its Milo microlocation system, addressing factory automation and labor challenges with precision positioning technologies.Meanwhile, Purdue University’s research in chip-package co-design and semiconductor education reflected the essential role of academia in building future-ready capabilities.AI, Edge, and Digital Twins in Backend ManufacturingThis session continued to explore the shift toward intelligent, connected manufacturing ecosystems. Allan Lewis of Nordson Electronics Solutions showcased AI-powered inspection systems that reduce downtime and improve yield.Jim Redman from ErgoTech Systems emphasized the importance of scalable, decentralized data platforms using low-code tools. Luis Rivera of Koh Young Technology introduced KSMART Server and CFX standards, enabling real-time optimization and machine-to-machine communication.Josh Mangahas from INFICON detailed how digital twins and AI/ML models are enhancing production scheduling and delivery timelines, while Mahesh Deshpande of Dassault Systèmes illustrated how virtual twins and XR-based tools are supporting agile packaging environments.The Convergence of AI, Robotics, and Digital TwinsSession 3 on April 2 featured cross-disciplinary insights from leaders at Arizona State University (ASU), Fraunhofer IZM, Teradyne, and Purdue. A common theme: AI, robotics, and digital twins are converging to redefine factory dynamics.Dr. Binil Starly (ASU) explained how reinforcement learning and MQTT protocols are enabling adaptive robotic inspections. Erik Jung (Fraunhofer IZM) highlighted how packaging and AI systems evolve in tandem to achieve tighter integration and higher performance.Teradyne’s Mat Najibnia focused on the ROI of robotic material handling systems, while Purdue’s Dr. Martin Jun shared a vision for democratized smart manufacturing—especially for small and medium-sized manufacturers (SMMs).Building Future-Ready Semiconductor EcosystemsThe final session underscored the importance of collaboration, resilience, and cybersecurity. Athinia discussed its work harmonizing raw material and fab data to improve manufacturing insights. IBM presented use cases combining digital twins and generative AI for yield improvement and predictive maintenance.Siemens focused on sustainability and decarbonization through digital twin platforms. The Florida Semiconductor Engine (FSE) illustrated how regional ecosystems can support leadership in packaging innovation and talent development.PEER Group spotlighted the Semiconductor Manufacturing Cybersecurity Consortium (SMCC), advocating for a standardized, collaborative approach to securing manufacturing infrastructure.Workforce Development and Regional ImpactA strong undercurrent throughout SEMIEXPO Heartland was the need for strategic workforce development. The event featured a Workforce Pavilion offering job seekers access to career coaching, resume guidance, and mentorship.Local universities and community colleges were well represented, as were federal and state workforce programs. These partnerships are crucial to ensuring a robust talent pipeline and equipping workers with the skills needed for a rapidly evolving industry.The presence of SK hynix, Polar, and other major players making sizable investments in the Midwest signaled not just a resurgence of regional manufacturing, but a renewed commitment to community growth, equitable opportunity, and long-term sustainability.A Midwest Moment with Global ImplicationsSEMIEXPO Heartland 2025 captured a pivotal moment in the evolution of the semiconductor industry. From chiplets and SiC to AI-driven smart factories and cyber-resilient ecosystems, the event highlighted how innovation, collaboration, and policy alignment are driving progress.As America looks to fortify its semiconductor future, the Midwest is emerging as a powerhouse of talent, technology, and tenacity. With support from industry, government, and academia, the region is well-positioned to lead the charge into a smarter, more secure, and more resilient semiconductor era.For questions about SEMI’s Smart Manufacturing initiative, contact Anshu Bahadur at [email protected]. Read more about SEMIEXPO Heartland in this press release: Inaugural SEMIEXPO Heartland Event Underscores Midwestern U.S. as a Global Hub for Smart Manufacturing and Smart Mobility.Anshu Bahadur is Sr. Program Manager, Technology Communities at SEMIRafael Tudela is Sr. Technical Marketing Manager at SEMI
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The semiconductor industry is at a pivotal moment, with smart manufacturing, smart mobility and workforce development as key drivers in the industry’s path to reach $1 trillion in revenue by 2030. Bringing together key stakeholders from the semiconductor ecosystem, SEMIEXPO Heartland will take place on April 1-2, 2025, in Indianapolis and explore the latest advancements and opportunities to foster growth, accelerate innovation and reinforce the Midwest as a thriving hub for semiconductor manufacturing.SEMI sat down with Purdue University President Mung Chiang who shared his insights on growing semiconductor industry in the Midwest, how Purdue is making an impact, and a sneak peek into his upcoming keynote presentation at SEMIEXPO Heartland.SEMI: How important is semiconductor industry expansion in the Midwest?Chiang: Purdue’s partnerships with industry leaders, state and federal government are essential to advancing the U.S. semiconductor industry and establishing the Midwest region as the Silicon Heartland. The Department of Defense-funded Silicon Crossroads Microelectronics Commons innovation hub is a partnership between Indiana, Illinois, and Michigan, while the Midwest Microelectronics Network is in collaboration with Ohio, Illinois, and Michigan.An event like the SEMIEXPO Heartland in Indianapolis gathers industry representatives from across the nation to see the potential and value that Indiana and the Midwest bring and provides a great forum to explore strategies for collaboration and innovation.SEMI: How important is collaboration between industry and academia to advance semiconductor innovation and address workforce challenges?Chiang: Enabled by semiconductors, artificial intelligence (AI) continues to advance rapidly. Purdue is a national academic leader in microelectronics and semiconductors in part because of industry partnerships – both nationally and internationally – that help us align our research and workforce development to the needs of our industry partners.Collaborations among industry, academia and government will be critical to strengthening America’s position in the global semiconductor landscape and securing our technological future. Two recent examples are our partnership with SK hynix to fill a critical gap in the U.S. semiconductor supply chain and our partnership with SEMI, the leading global microelectronics industry association, to create online courses aimed at bolstering the semiconductor workforce.SEMI: How are Purdue’s innovations contributing to those fronts?Chiang: World-leading research, transformational investments in infrastructure and pioneering education are all part of Purdue’s contributions to advance the semiconductor industry.Strategic initiatives like the first comprehensive, large-scale Semiconductor Degrees Program, advised by a board of industry leaders, lead the way to high-quality workforce development at scale. Experiential education, such as programs like “Summer Training, Awareness, and Readiness for Semiconductors” (STARS) for undergrads, energizes first-year students and provides a strong foundation to prepare the next generation high-tech workforce, a critical step in cultivating the talent needed to drive the industry forward.Birck Nanotechnology Center, one of the nation’s state-of-the-art academic research centers, is another prime example of Purdue driving innovation. This facility will soon become the first and only digital-twin-enabled semiconductor research lab in the world.SEMI: What are the highlights of your keynote address for the SEMIEXPO Heartland?Chiang: I’ll point out that these are exciting times in Indiana – two new semiconductor clusters are emerging, one in West Lafayette at Purdue focused on the commercial sector and one at Westgate, near the Naval Surface Warfare Center Crane, focused on the defense sector.The initiative at Purdue is led by SK hynix, the world’s leader in high-bandwidth memory for AI; MediaTek, the world’s fifth-largest fabless design company and a leader in chips for smartphones, tablets, TVs, and Internet of Things products; and by imec, the world's leading independent semiconductor research and innovation hub.Our goal is to leverage Purdue’s excellence at scale to work with our partners and create a new, thriving, vibrant, and growing semiconductor hub in the heartland and to connect this growing commercial sector to the emerging defense sector at Westgate.We look forward to working with our partners in the Midwest to make the Heartland one of the few critical regions of semiconductor manufacturing, design, innovation, and talent development in the United States.SEMI: Part of SEMIEXPO Heartland’s focus is on smart manufacturing. What strategic collaborations in smart manufacturing are driving innovation forward?Chiang: Smart manufacturing is being driven, in part, by the continuing advancement of AI and digital twins. The semiconductor industry already is partnering with computational modeling and fabrication leaders like Purdue University to develop the digital twins and play a major role in training the workforce and accelerating the pace of innovation.The NIST-funded SMART USA Manufacturing Institute for Digital Twins is a $1 billion plus program that brings industry and academia together. Purdue looks forward to playing a leading role in this important initiative.Maintaining a strong connection between academia and industry can help accelerate design and innovation of new U.S. chip development and manufacturing concepts through cost reduction, product optimization and real-time process adjustments.ResourcesHear more from academic leaders, industry executives and government officials about the semiconductor expansion and opportunities for growth in the U.S. Midwest during SEMIEXPO Heartland event, April 1-2, 2025, in Indianapolis. Visit the SEMIEXPO Heartland website to view the full agenda: https://semiexpo.semi.org/.Mung ChiangMung Chiang is the President of Purdue University, and the Roscoe H. George Distinguished Professor of Electrical and Computer Engineering. Prior to being selected university president in 2022, he was the John A. Edwardson Dean of the College of Engineering and executive vice president for strategic initiatives at Purdue University.Chiang received BS (1999), MS (2000) and PhD (2003) from Stanford University and an honorary doctorate (2024) from Dartmouth College. Before 2017, Chiang was the Arthur LeGrand Doty Professor of Electrical Engineering and an affiliated faculty in Computer Science and in Applied Mathematics at Princeton University.SEMI ContactSherrie Gutierrez, Marketing Communications ManagerEmail: [email protected]
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Powerful winds of change are re-shaping the semiconductor industry as it flexes and re-positions to power a new wave of growth on the back of emerging applications. Today, the industry is thriving, with growth expected to continue through 2019 even as Moore’s Law – the trusty doubling of transistors roughly every two years – begins to pump the brakes. Product mix and production technology are shifting as the dominant smartphone and PC markets, having seen their growth peaks, start to give way to large markets with relatively low semiconductor penetration, such as automotive.What’s more, new potentially ubiquitous technologies and platforms such as AI, blockchain and smart manufacturing are redefining market dynamics and the semiconductor ecosystem that underlies them.Troublingly, the most significant threats to the continued growth of the semiconductor industry are not of its own making. Macroeconomic trends and trade policy disputes loom.These were some of the key takeaways from the SEMI Market Symposium kicking off SEMICON West in San Francisco this week. Following is a deeper look.Semiconductor MarketThe consensus view, reflected in forecasts presented by Clark Tseng of SEMI and Bob Johnson of Gartner, is that the semiconductor industry could top $500 billion in 2019 after reaching $400 billion in 2017. According to Gartner, smartphones and PCs will continue to account for large parts of the market, but will be displaced as major drivers of market growth by the emergence of industrial, automotive and, to a lesser extent, storage, from 2017 to 2022. Johnson noted that while communications and data processing applications drive logic device demand, average sales prices (ASPs) are a bigger contributor to revenue growth than unit growth.Leading-edge processors are a big part of the ASP picture, with equipment costs increasing ~20 percent per node. One challenge is that as Moore’s Law loses steam, leading logic producers are increasingly going their own way with new production technology. The volatile DRAM market – now in a “super cycle,” according to Tseng, and expected to peak in 2019 – has been stoking memory market growth.Initially, supply shortages fueled memory price increases as three of the four leading memory makers invested in flash rather than DRAM capacity. However, memory prices have been more recently been lifted by technology complexity, particularly as DRAM has moved to 3D architectures. The good news is that pricing, at long last, appears to be driven by value.Automotive MarketWith automotive accounting for less than 10 percent of semiconductor demand, there is room for growth. Rudy Burger of Woodside Partners noted that while the end market for automobiles is growing slowly, at 3 percent CAGR, the market size is nearing 100 million units. In market segments such as electric vehicles, the semiconductor content exceeds $1,000 but can be much higher.For example, the BMW i3 sports over $4,000 in semiconductor content. Burger said connectivity, autonomous driving and shared mobility services are also key opportunities for semiconductors to deepen their penetration in automobiles. For instance, the auto market for cameras, is expected to grow from $2 billion in 2017 to $6 billion in 2022.On average, high-end vehicles feature over $1,000 in semiconductor content, whereas low-end vehicles hover in the $400 range, said Anand Srinivasan of Bloomberg. Because the automotive market is segmented by function or subsystem, with different suppliers focusing on different areas, there is little supply concentration. Srinivasan also pointed out that because of significant differences in their objectives, automotive safety and automation systems should be developed separately.BlockchainThe chief benefit of blockchain is the trust it begets among all parties to a digital transaction through four fundamental features, said David Treat of Accenture: The tracking of provenance (knowing who has touched data, and what has happened to it) Tamper evidence (knowing if someone has tried to change the data) Control (which data elements to share with which parties) Security at the data element level While most of the hype over blockchain focuses on tokenized assets and ledgers (bitcoin and other cryptocurrencies), the fundamental application in the semiconductor industry is sharing trusted access to reference data at the data element level. This ability to provide shared trust can reduce costs throughout the supply chain and across enterprises. For example, future blockchain implementations will offer a full ecosystem view to any supply chain participant. While blockchain has typically been deployed through centralized control or platforms, peer consortia, such as SEMI, could help weave the benefits of blockchain through various ecosystems by enabling equipment and material suppliers, device manufacturers, designers and system integrators to share business and technical information securely and, if desired, anonymously.Global and Macroeconomic TrendsThe biggest threats to the continued growth of the semiconductor industry are exogenous. After a decade of steady recovery since the financial crisis, the global economy appears to be heading for a slowdown. Duncan Meldrum of Hilltop Economics made the case that the global economy is at or just past the peak of the business cycle, and semiconductor equipment is past the peak.A key indicator of a looming recessionary is the movement toward an inverted yield curve, in which long-term interest rates fall below short-term rates – a phenomena that could materialize this year or next.The increasingly heated trade climate, marked by high-stakes confrontations between the U.S. and China, threatens complex supply chain arrangements, though mercurial policy statements could do even more harm than stiffer trade tariffs. Underscoring competing interests between the U.S. and China and the unpredictability of their relations, Robert Maire of Semiconductor Advisors pointed out that, in 2019, 60 percent of all semiconductors are expected to be used in China, deepening the dependency of several U.S. semiconductor companies on China.Paul Semenza, for SEMI Industry Research and Statistics
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