Laith Altimime

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]

Integrated photonics offers the semiconductor industry a new way to increase the speed and capability of classical compute functions, as well as enabling quantum computing. The III-V Summit, hosted by SEMI Europe in partnership with Photon Delta at SEMICON Europa, opened with a compelling question: why is a photonics summit taking place in the middle of a semiconductor event? Ajit Manocha, President and CEO of SEMI, highlighted the growing convergence of the semiconductor and photonics industries, stating, “It is my firm belief that a boost to Moore’s Law will come from the III-V world.” Declaring that the rate of growth in integrated photonics is set to pick up substantially, Manocha assured, “I will be your ambassador to make sure that the III-V technologies gain far greater visibility than they have today.”Ajit Manocha, President and CEO, SEMIThe promise of new III-V technologies is generating significant excitement within the semiconductor industry. Abdul Rahim, Ecosystem Manager at PhotonWorld, acknowledged the reality that today’s III-V device industry operates in a limited sphere, stating, “The III-V world is still at the interface of industry and academia. There is one main application for III-V devices – transceivers for data centers.” Abdul Rahim, Ecosystem Manager, PhotonWorld Carlos Lee, Director General of the European Photonics Industry Consortium (EPIC), echoed this message, “Photonics is not so much an industry today; it’s an ecosystem. It lacks the standards, roadmaps, and market data that a full-fledged industry needs – but we are getting there.” Carlos Lee, Director General, European Photonics Industry Consortium (EPIC)However, Rahim pointed to a number of trends that are driving the growth of III-V technology for integrated photonics. One key development is large-scale integration, “over the years, the number of devices in one photonics integrated chip (PIC) has been growing fast, reaching tens of thousands of components on-chip,” Rahim explained. Additionally, the widening frequency range supported by III-V devices is unlocking new applications beyond the telecom sector. Broad Scope of Research into III-V Technology for Integrated PhotonicsResearch into III-V technology spans an impressive range of materials, processes and applications. Nick Singh, CTO at Compound Semiconductor Applications (CSA) Catapult, a government-backed technology incubator, described in detail the most important fields of research that are driving innovation in integrated photonics. “III-V materials are special because they can be engineered,” Singh explained. Highlighting their potential role in advancing quantum computing, Singh added, “The ability to use new materials is crucial to reducing the reliance on algorithmic compensation for errors and non-linearity in hardware.” Nick Singh, CTO, Compound Semiconductor Applications Catapult However, Singh emphasized the need for the photonics industry to address structural challenges that could hinder progress. “Collaboration is crucial to standardize process development kits (PDKs) for photonics device fabrication processes—it’s like the Wild West in PDKs right now,” Singh remarked. “Additionally, the availability of raw materials presents a significant challenge.”The truth of this warning was confirmed by Diane Scott, Vice President of TECHCET, stating, "The US has deemed gallium to be the number one supply chain risk among a list of 50 raw materials, and the European Union (EU) has identified gallium as a critical raw material."Diane Scott, Vice President, TECHCETSuch geopolitical concerns have done little to dampen the intensity of research in III-V technology. One of the powerhouses of integrated photonics research is IBM, and Heike Riel, a Fellow at IBM Research with a special interest in quantum computing, revealed promising avenues that IBM is exploring. “IBM has developed local III-V-on-silicon heteroepitaxy, “Riel explained. “Using a direct growth method, we can grow vertical, lateral, and even 3D structures in III-V, such as stacked GaAs structures.” Riel highlighted the potential applications of this technology in emerging processor designs, including the Artificial Intelligence Unit (AIU) and analog computing devices with in-memory logic. “Here, we can deploy GaAs as a photorefractive material, used as a grating, to perform the same function as conventional electronic non-volatile memory in an analog computer chip,” Riel noted. Heike Riel, IBM Fellow, IBM ResearchAlso at the forefront of photonics integration is Black Semiconductor, a start-up company based in Aachen, Germany, which is developing devices using graphene. Cedric Huyghebaert, CTO of Black Semiconductor, shared the company’s vision, “We want to use electronics to compute, and photonics to transfer data, and bring both functions together on the same chip.” Black Semiconductor’s mission is to become the first foundry to offer integrated graphene technology. “Our ambition is to integrate graphene in line with semiconductor standards using semiconductor tools – avoiding the need for exotic processing technologies,” Huyghebaert explained. “We also aim to demonstrate co-integrated photonics on a 300mm wafer system, regardless of the process node. In doing so, we want to prove that deep technological innovation of this kind is possible in Europe.”Cedric Huyghebaert, CTO, Black Semiconductor GmbH Bringing Integrated Photonics to the MassesAs III-V technology develops to enable a broader range of integrated photonics applications beyond the telecom market, experts are recognizing the need for it to become more accessible if it is to be adopted by a wider range of manufacturers. Joni Mellin, manager of the photonics business line at the X-Fab Group, emphasized, “As an industry, we need to bring electronics design automation (EDA) tools up to a level of capability that matches that of the silicon world, so that you do not need a PhD to do product design – we need to make it accessible to ordinary electronics engineers.” Joni Mellin, BL Manager Photonics, X-FAB GroupAdoption of the technology also requires access to production capacity. Peter Maat, Senior Product Manager at SMART Photonics, an open foundry for indium phosphide (InP) programmable interface controllers (PICs), highlighted the challenges in this area. Maat explained that the availability of the foundry as “not a trivial capability,” because many InP fabs are run by integrated device manufacturers, and are closed to other users. The SMART Photonics business model aims to provide a comprehensive enablement service for fabless manufacturing of PICs. “Our responsibility is to produce stable, manufacturable building blocks that we make available to designers and to provide a platform which enables our circuit building blocks to be combined into an integrated photonics circuit,” Maat said.Peter Maat, Senior Product Manager, SMART Photonics Jayakrishnan Chandrappan, Head of Advanced Packaging Technology at CSA Catapult, also emphasized the importance of access to production capability. “The CSA Catapult has one of the world’s only sub-10micron hybridization facilities for advanced packaging that is open to third-party users,” Chandrappan noted.Jayakrishnan Chandrappan, Head of Technology, Head of Technology - Advanced Packaging, Compound Semiconductor Applications CatapultPromising Future for Integrated PhotonicsAs the summit concluded, the atmosphere was charged with optimism about the future of integrated photonics. The discussions highlighted how III-V materials, combined with advanced packaging, are set to play a pivotal role in shaping next generation technologies. A recurring theme throughout the event was the profound impact III-V materials will have, as they poised to become a corner stone of virtually every emerging technological advancement. SEMI ContactLaith Altimime, President of SEMI EuropeEmail: [email protected]

SEMI Europe's ongoing collaboration with key European industry players and governmental authorities on legislation such as the European Chips Act and critical topics including workforce diversity, sustainability, and supply chain resilience are crucial to the region’s future technological strength.