education

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]

As the demand for more powerful and efficient chips continues to grow, and the pace of semiconductor manufacturing in Arizona rapidly expands, so does the need for a highly skilled workforce capable of meeting these challenges. The SEMI Foundation’s SEMI Career and Apprenticeship Network (SCAN) Arizona Team is committed to building a robust workforce pipeline through strategic partnerships and initiatives that connect industry to education. These initiatives include fostering science, technology, engineering, and math (STEM) enthusiasm in K-12 (kindergarten through high school) classrooms to creating earn-and-learn opportunities through apprenticeships and collaborations with leading semiconductor companies. The Foundation’s Arizona team has coordinated key events and initiatives in the state that showcase a holistic approach to addressing workforce challenges, many of which could be expanded and replicated throughout the US and even globally.Arizona SciTech STEM and Innovation Summit: Fostering STEM Enthusiasm The Arizona SciTech STEM and Innovation Summit has long been a hub of innovation, offering students, educators, and the community an immersive experience in STEM. This year’s summit was no exception. Showcasing hands-on activities, workshops, and demonstrations, the event connected STEM industries with Arizona's next generation of talent.The SEMI Foundation Arizona team led activities and sessions demonstrating the Foundation’s work with educators and workforce experts to explore how semiconductor curricula can be integrated into classrooms. Through engaging workshops featuring SEMI Foundation High Tech U Micro:bit STEM kits and Baltu Technologies, and a panel discussion with educators talking about the importance of industry in the classroom, participants explored exciting careers and how to introduce industry opportunities to students. These interactions emphasized the real-world applications of classroom learning, showing the path to careers in high-tech industries.Teachers students participate in a hands-on Micro:bit STEM Kits workshop during AZ SciTech STEM and Innovation Summit held on October 22, 2024. Panelists discuss the future of the semiconductor industry incorporated into students’ education. From left to right: Dee Pinkston (Chicanos por la Causa), Raquel Diaz (Trevor G. Browne High school), Rachna Mathur (ASU prep, ASU, STEMology), Kenneth Mims (Science Prep Academy Neurodiversity Education Research Center). Apprenticeship 101: A Guide to Workforce ReadinessIn a landscape where technical skills are increasingly critical, the Apprenticeship 101 workshop provided a crucial introduction to the benefits of how earn-and-learn programs are transforming careers in semiconductors and beyond. Hosted by: Arizona Commerce AuthorityArizona@Work SEMI Foundation Federal/State Apprenticeship Developer Scott EllsworthSEMI Foundation SCAN Arizona team The City of Phoenix This event gave attendees an overview of apprenticeship opportunities in fields like semiconductors and advanced manufacturing.Participants learned how these programs build bridges between education and employment, offering both practical experience and a clear path to career advancement. A notable highlight was the emphasis on underrepresented groups, showcasing how apprenticeships can empower individuals to succeed in high-demand fields.Panelists highlighting pathways to careers in semiconductors with a focus on earn-and-learn opportunities. From left to right: Nick Irigoyen (SEMI Foundation), Michael Rosas (Arizona Commerce Authority), Scott Ellsworth (SEMI Foundation), Joan Bueno (Arizona Apprenticeship Office), James A. Montoya (ARIZONA@WORK), Stephanie Varela (City of Phoenix) Apprenticeship 101 Panelists. From Left to Right: Nick Irigoyen (SEMI Foundation), Scott Ellsworth (SEMI Foundation), Joan Bueno (Arizona Apprenticeship Office), Stephanie Varela (City of Phoenix), Perla DeBaggis (SEMI Foundation), James A. Montoya (ARIZONA@WORK) Intel Apprenticeship Program Support: A Step Toward Workforce Expansion Intel’s apprenticeship announcement signaled a transformative step for Arizona’s tech industry. With a focus on diversity and inclusion, Intel’s initiative aims to recruit participants from all backgrounds, ensuring a broad and equitable talent pool. Their current cohort of apprenticeships started with 9 women from the Fresh Start Foundation. The team worked with Arizona@Work representative Stephanie Varela to provide the apprentices with an overview session of the workforce innovation and opportunity act resources available to them. These kinds of resources provide alignment and improvement of employment, training, and education programs to promote individual growth. By investing in the workforce of tomorrow, Intel underscored its commitment to Arizona’s economic growth and technological leadership.Intel apprentices Gabriella Medina and Laura Jabalera are paving the way for women in the industry. Learn more about their inspiring journey here. TSMC Apprenticeship Announcement: Driving Innovation and InclusionSimilarly, TSMC’s apprenticeship program launched on November 19, 2024, bringing excitement and opportunity to the state. The program offers specialized training for individuals seeking careers in semiconductor manufacturing, a vital industry for Arizona’s economy.TSMC’s announcement emphasized collaboration with educational institutions, including community colleges and universities, to ensure apprentices receive both technical training and academic support. TSMC Arizona is investing more than $5 million in this program representing on-the-job training hours and education tuition support for its apprentice employees.The SEMI Foundation SCAN Arizona team joins TSMC apprentices on November 19, 2024 to celebrate the launch of TSMC's groundbreaking apprenticeship programs. Trevor G. Browne High School AET Assembly: Inspiring Young InnovatorsAt Trevor G. Browne High School, the Advanced Engineering and Technology (AET) Assembly served as a rallying point for students interested in high-tech careers. The SEMI Foundation Arizona Team joined their assembly to celebrate the potential of Arizona’s youth, sharing stories of innovation and success in the semiconductor sector.Students gained valuable insights into the industry’s evolving landscape, learning about the impact semiconductors have in cutting-edge technologies and career pathways in engineering and manufacturing. The assembly highlighted the importance of programs like SCAN-AZ and other local initiatives happening in 2025, which aim to bridge the gap between classroom learning and real-world opportunities.Micro:bit Competition: Sparking Innovation in Arizona's ClassroomsThe launch of SEMI Foundation - Arizona’s first Micro:bit Competition is bringing creativity and technology together in K-12 classrooms statewide! Designed to inspire innovation, this competition challenges students to use Micro:bit to develop projects that showcase their technical skills and imagination.From robotics to sustainability solutions, students are exploring real-world applications of STEM through hands-on projects. With categories like Innovation in Education and Creative Arts, the competition encourages participants to think outside the box. This initiative not only highlights the SEMI Foundation’s commitment to STEM education but also fosters the next generation of problem solvers and innovators. The Micro:bit Competition is more than just a contest—it’s a stepping stone for students to explore their potential in high-tech industries.Stay tuned as we celebrate the incredible projects and the bright young minds behind them!ASU Preparatory South Elementary, Grades 3-6 Teacher Michael Grant (Left) receiving his Micro:bit STEM kits for his participating classroom from Perla DeBaggis SEMI Foundation (Right)The SEMI Foundation’s efforts in Arizona exemplify the power of strategic partnerships and innovative programs to build a stronger, more diverse pipeline for the semiconductor workforce. By engaging educators, students, and industry leaders, we are creating pathways that connect education to employment, fostering a future-ready workforce. These initiatives serve as a blueprint for workforce development that can be adapted and scaled nationwide, empowering communities to thrive in the evolving high-tech economy. The SEMI Foundation is thrilled to continue this momentum and expand our impact even further in 2025! Co-Author Perla DeBaggis is the Senior Specialist for Career and Industry Awareness at the SEMI Foundation, focusing on bridging the gap between education and industry. Co-Author Nick Irigoyen is the Project Manager for Project Manager, Workforce Development Apprenticeships at the SEMI Foundation, focusing on initiatives aimed at strengthening the semiconductor talent pipeline in Arizona.

Today, as SEMI University (SEMI U) celebrates its one-year anniversary. Learners can now access over 575 courses in multiple languages and engage with an expanding learning community of over 3,300 learners in over 55 countries, with all courses developed or instructed by industry experts.

The state of Penang, nestled along the northwest coast of Peninsular Malaysia, needs no introduction in the global electronics manufacturing sector. Despite its diminutive stature with just over 1,000 square kilometers of land area and a 1.8 million-strong population, Penang commanded an estimated 5% of global semiconductor exports in 2019, according to data compiled from the Department of Statistics Malaysia (DOSM) and UN Comtrade. The State’s transformation, from a traditional seaport economy into the Silicon Valley of the East, began in the 1970s, when the establishment of Malaysia’s first free trade zone in the State drew key investments from eight Multinational Corporations (MNCs). These pioneering investors – Intel Corporation, Hewlett Packard (now Keysight Technologies and Agilent Technologies), Robert Bosch, AMD, Litronix (now Osram Opto Semiconductors), Hitachi (now Renesas), Clarion and National Semiconductor[1] – sparked the development of a robust ecosystem of ancillary industries, which formed a foundation for the State’s rise as a prominent, offsite manufacturing hub. Today, Penang houses more than 350 MNCs that are supported by over 3,000 manufacturing-related SMEs. As Penang flourished as a vibrant, regional E E manufacturing hub, the local talent pool steadily accumulated a wealth of business intelligence and technical experience, enabling the robust supply chain to evolve in tandem with technology megatrends. This, in turn, enabled the State to focus on pursuing investments that have propelled the industry up the value chain, away from its beginnings as a low-cost manufacturing hub. Consequently, Penang has seen a proliferation of upstream technology-related investments in high value-added functions in recent years, ranging from research and development (R D), design and knowledge-based solutions, and downstream advanced manufacturing and testing to global business service (GBS) and Centre of Excellence (CoE) activities. Penang’s growing significance in the global E E value chain is demonstrated by its steady and resilient export performance in recent years. From 2014 to 2019, the State’s E E exports grew at a compounded annual rate (CAGR) of 12% to reach RM210 billion (US$51 billion). It has emerged as a hub for professional, scientific and controlling instruments (including medical technology), with exports of these products growing at a 5-year CAGR of 15% to reach RM23 billion (US$6 billion) in 2019. E E products, alongside professional, scientific and controlling instruments, collectively contributed between 77% and 82% of Penang’s total annual exports since 2014, and accounted for 50% of Malaysia’s exports in these two segments during the period. More impressively, despite the disruptions from the COVID-19 pandemic, Penang’s total exports continued to rise in 2020, growing 7% year-on-year to RM310 billion (US$75 billion), and a further 14% year-on-year in January and February 2021, driven by strong global demand for semiconductors. Shaping up as the destination of choice for advanced manufacturing investments As part of efforts to move Penang’s industry up the value chain, the State government has placed emphasis on attracting companies with strong commitments in implementing Industry 4.0 and sustainable investing. These efforts have yielded positive results, with the state having gained traction as a hub for advanced manufacturing investments. This is evidenced by the rising trend in investments per new job creation, which saw a six-fold jump from 2012 to 2020, as well as the number of global heavyweights announcing new investments as well as expansions of existing facilities in the State in 2019 and 2020. Penang attracted RM31 billion (US$7.5 billion) in approved direct manufacturing investment inflows in 2019 and 2020, 88% of which involved investments into the E E, equipment and medical technology industries. Prominent new investments included those from Lam Research, Bosch Group, Ultra Clean Holdings, Dexcom as well as Smith+Nephew. Together with planned expansions by a number of existing MNCs in Penang, these new investments, which are on track to commence operations between 2021 and 2023, are poised to bring Penang’s industry to greater heights and further integrate the State into the global value chain. Recent Notable Direct Manufacturing Investments in Penang Source: InvestPenang and respective companies Penang’s conducive business environment nurtures successful homegrown technology companies Penang’s conducive business environment has not only proven successful in attracting foreign direct investments (FDIs), but also successfully nurtured local E E success stories of locally employed engineers turned technopreneurs, who have founded and built companies that have successfully grown to become internationally renowned in their own right. These homegrown E E companies play crucial roles in the ecosystem, particularly in the areas of automated test equipment (ATE), automation, outsourced semiconductor assembly and testing (OSAT) services, electronics manufacturing services (EMS), precision engineering and tooling. The past five years have also seen the emergence of young, fast-growing Penang-based companies such as Experior, Oppstar Technology and Skyechip, which provide IC design and IC test design services to MNC clients globally. Public-private partnerships cultivate Penang’s talent development roadmap The state is cognisant that the development of a robust and skilled talent pool is imperative to support the growth of strategic industries in Penang. Strong public-private partnerships with concerted efforts in supporting talent development are key to Penang’s continued success. Toward this end, the State government has backed Penang Skills Development Centre’s (PSDC) industry-led training and education efforts, which have helped train over 200,000 of workers to support the industry’s needs since 1989. The State has also coordinated collaboration for industries to provide input to local institutions of higher learning on the relevance of the institutions’ courses, and rallied the industry to support State-run scholarships (Penang Future Foundation) and STEM initiatives. Holistic initiatives to make Penang a world-class investment destination for global frontier companies The dynamics of the global value chain, especially for the technology sector, have evolved rapidly since 2018, particularly amid the complex confluence of trade protectionism, COVID-19 pandemic-driven issues and disruptive technologies. The State government believes that strong, geographically localised industry clusters could help companies mitigate the risks of supply chain disruptions, in addition to improving companies’ time-to-market at a lower cost. To further increase Penang’s attractiveness for high quality investments, the State is focusing on three key strategies: Extending its competitive edge in advanced manufacturing, further strengthening Penang’s industry clusters, which include expediting SMEs’ Industry 4.0 transformation journey, and nurturing more homegrown companies to penetrate the global supply chain Embarking on a continuous drive to develop and recruit talent to the State, as well as cultivate the younger generation’s interest in STEM Enhancing Penang’s liveability with a strong focus on making Penang a smart and green city The State government is committed to continue developing Penang in a holistic manner, with the aim of creating a vibrant business and investment destination with a robust and sustainable economy and high standard of living, creating a conducive environment to “work, live, learn, play and invest.” About InvestPenang InvestPenang is the Penang State Government’s principal agency for promotion of investment. Its objectives are to develop and sustain Penang’s economy by enhancing and continuously supporting business activities in the State through foreign and local investments, including spawning viable new growth centres. To realize its objectives, InvestPenang also runs initiatives like the SMART Penang Centre (providing assistance to SMEs), Penang CAT Centre (for talent attraction and retention) and i4.0 seed fund (a catalyst for the start-up ecosystem). For more information, contact [email protected]. InvestPenang also works closely with various industry associations, including SEMI, to promote Penang’s supply chain and E E ecosystem. InvestPenang is delighted to have collaborated with SEMI on numerous occasions since 2015 and endeavours to sustain the partnership in the years to come, including for the SEMICON SEA 2022 exposition to be held in Penang. [1] No longer present in Penang following a corporate M A exercise.

The global economy has started down a gradual path to recovery from COVID-19 in recent months as the world continues to combat the virus. Yet one sector – semiconductors – has shown impressive growth powered by a transformation hastened by the pandemic across industries ranging from education and work-from-home to healthcare.Semiconductor sales increased 12% in September to mark a second consecutive month of double-digit growth, and year-to-date semiconductor receipts as of September jumped 5.5% compared to the same period in 2019, according to SIA/WSTS.While this upward trajectory is encouraging, it pales compared to 2020 semiconductor equipment billings growth, with results from SEMI showing worldwide global chip equipment billings in September soaring to a new high of $7.6 billion this year. During the first nine months of 2020, aggregate equipment billings logged a 23.6% rise compared to the same stretch in 2019, surpassing $51 billion. Better still, the total semiconductor equipment market in 2020 is on track to beat the previous high of $64.5 billion set in 2018.Investments in China, Taiwan and Korea are fueling the chipmaking equipment spending surge. With big domestic and international fab projects in the works, China this year is projected to become the world’s largest capital equipment market for the first time, surpassing Taiwan, which will follow at a close second. Korea will rank third in equipment investments. Taiwan and Korea growth will come on the strength of equipment spending for manufacturing leading-edge semiconductors.Equipment billings in North America and Europe declined year-over-year as the automotive and industrial sectors suffered the heaviest blows from COVID-19. Investment momentum in both regions is expected to pick up in 2021 after automotive production recovers to pre-pandemic levels while factory automation will boost industrial demand.For more information about monthly equipment billing trends by region and equipment segment, please see the SEMI Equipment Market Data Subscription.Clark Tseng is director of Industry Research and Statistics at SEMI.

Companies around the world are increasingly turning to mergers and acquisitions, research and development, and corporate venture capital (CVC) investment to sustain growth. For many years, global semiconductor companies including Intel, Qualcomm and Samsung have been active CVC investors. However, the economic fallout from the COVID-19 pandemic has forced many venture capital (VC) and CVC investors to rethink their investment strategies as they look to an uncertain future. To help provide SEMI members with the latest market trend information, SEMI Taiwan held the webinar Challenges and Opportunities in Corporate Venturing during the Global Pandemic Crisis on April 28th. Featured speaker James Mawson, founder and editor in chief of Global Corporate Venturing, provided an analysis of the pandemic’s impact on deal flow, capital movement, sentiment and strategies among CVCs. CVC takes larger role in past decadeCorporations have been increasingly active direct and indirect venture investors over the past decade. From 2011-2019, more than US$1.3 trillion of venture capital was invested globally, with corporations accounting for more than half that total, according to data from Pitchbook/GCV Analytics.Semiconductor companies that have been active in corporate venturing include Intel, Samsung, Nvidia, ARM, AMD, SK Hynix, Broadcom and Qualcomm. Pure-play semiconductor and chip companies tend to make few investments in their start-up counterparts because sector saturation of powerful incumbents leaves little opportunity for growth, James said. “While it is hard to find entrepreneurs wanting to be engaged in pure play S C, once they do, they can be very valuable and often be able to bring disruptive forces to the whole ecosystem,” James said.S C corporate investors focus on chip applicationsSemiconductor companies looking beyond pure-play S C start-ups for investment opportunities often target applications or developers that require the additional data, processing power, and memory their chips provide. “There is lots of interest by the big chip companies such as Intel, Qualcomm, and Samsung in developing some of those chip applications, getting them used more and creating a whole ecosystem,” James said.For example, Intel Capital, based on its data-centric theme, has focused on areas like autonomous vehicles, data centers and artificial intelligence (AI) because of the sheer amount of data and processing power they require. In another notable trend, non-traditional S C players such as Apple and Alibaba are leveraging investments in start-ups to develop their own chips for competitive advantage, James said.March deal flow down 20% With COVID-19 slowing the global economy, James expects semiconductor and chip companies to scale back direct investments this year due to rising pressure on their balance sheets. Deal flow in March was down roughly 20% from February.James is hopeful corporates will focus on investing in innovation over the long term rather than target share buybacks to boost near-term earnings. James pointed out that investors can uncover opportunities by identifying future problems to be solved in areas such as quantum computing, biotech, energy, healthcare, communications and ICT. Still, in the near term, where there is a crisis, there is opportunity. While the pandemic hit some sectors hard, it benefits start-ups in industries including gaming, education and telemedicine. This time is different?James said corporates need to rethink the investment model they want to follow. One option is the approach taken by General Electric, which divested its investment team and sold all its portfolio companies last year. Another is to focus on the long term. For example, Intel Capital has been dedicated to investments in innovation for nearly 30 years and continues to invest during downturns.Compared with the internet bubble and global financial crisis, today there are more experienced and mature CVCs that better know how to negotiate a crisis. James also pointed out investors are interested in backing CVCs with sector investing experience. There are now more than 600 CVCs with a 10-year-plus track record.James expects a variety of funding models to emerge over the next decade as pressure on corporate balance sheets encourages corporate investors to consider models that allow third-party capital to effectively leverage their CVC units. Corporate investors are also open to other ways to efficiently deliver financial returns.For more information about the SEMI Taiwan Corporate Growth and Innovation Community, please contact Irene Lin at [email protected]. For GCV’s latest news and event, visit its website.Jo-Ann Su is senior director of the Corporate Growth and Innovation Community at SEMI Taiwan.

We live in the New Industrial Age. Manufacturing is undergoing a profound transformation, driven not only by technological (e.g. Artificial Intelligence, robotics, IoT) but also societal, market and regulatory developments that have fundamental implications for the workforce competency requirements. How can education and training systems keep pace with this unprecedented change? How does a future-proof curriculum look like?This topic has been extensively addressed by the Curriculum Guidelines for Key Enabling Technologies (KETs) and Advanced Manufacturing Technologies (AMT) initiative (2017-2019) of the Executive Agency for SMEs (EASME) and DG GROW of the European Commission. Carried out by PwC, the initiative focuses on the promising ways of organising learning experiences of individuals and groups in the New Industrial Age. The initiative produced the Curriculum Guidelines 4.0 that aim to equip all key stakeholder groups with the knowledge base needed to transform the existing curricula.The guidelines were developed based on the extensive state-of-play analysis and active stakeholder contribution by means of expert workshops, pan-European online surveys, in-depth interviews and individual expert consultations. All key stakeholder groups were involved in the preparation of the guidelines, including the representatives of education and training providers, industry, policymakers and supporting structures (e.g. industry associations, cluster organisations and trade unions), as well as learners themselves. SEMI was among the key contributors. The guidelines were presented to the public at the EU Conference on Skills for Industry: Curriculum Guidelines 4.0 in Brussels on 26 November, 2019.The guidelines aim to be applicable for both designing fundamentally new educational offers and/or advancing the existing curricula, depending on the level of required change. They address non-tertiary vocational education and training, higher education and on-the-job training for the manufacturing-related domains.The guidelines follow a holistic approach covering a broad spectrum of dimensions relevant to curriculum design and implementation, namely: Strategy: defining core values, commitments, opportunities, resources and capabilities of an educational/training institution Collaboration: promoting practices that move beyond the typical institutional collaboration patterns and engaging individuals and communities Content: defining the nature of educational content, including specific principles related to the actual content of the curricula Learning environment: creating specific environment during the program, e.g. stimulating multidisciplinary orientation, design thinking, team spirit, collective problem-solving, risk-taking behaviour, experimental approaches Delivery mechanisms: establishing means by which learners experience and access education/training; paying special attention to technology-enabled learning Assessment: identifying most appropriate forms of assessment, including advantages and disadvantages Recognition: exploring appropriate formal and informal ways of recognition Quality: identifying the determinants of education training quality: what makes learners’ and employers’ perception different? Based on the results of the pan-European survey, the four key elements that require the most substantial change are Strategy, Collaboration, Learning Environment and Content.The guidelines will be tested in practice in the context of METIS (Microelectronics Training, Industry and Skills), a project recently launched by SEMI and 19 partners from 14 countries. Aligned with the Curriculum Guidelines 4.0, METIS will establish a Microelectronics Observatory and Skills Council consisting of representatives from industry, academia, NGOs, think tanks and government. The consortium will develop a New Skills Strategy for the microelectronics industry in Europe with a focus on raising occupational profiles and skills critical to the future of the sector.METIS will enable a new industry-driven curriculum with 43 modules integrating online education and work-based learning in microelectronics design and manufacturing. Training will focus on chip design, system design, basic of manufacturing and key competencies. METIS is a Sector Skills Alliance co-funded by the Erasmus+ Program, receiving 4 million EUR funding from the EU.Preparing students for lifelong learning, offering Big Picture education, creating effective learning ecosystems, applying problem-based and student-centric approaches, shifting from human-robot interactions towards human-machine collaboration – these are just some examples of the curriculum guidelines principles highlighted in the guidelines.The guidelines aim to offer key highlights, indicate a variety of possibilities and identify sources for more detailed information and inspiration. The guidelines by no means aim to serve as a standardised detailed recipe for organising education and training processes, as there is no one best way to approach it. The diversity of learners’ needs and contexts per definition implies a need for multitude of approaches, which could also be combined in their own unique/customised education and training solutions.The Curriculum Guidelines 4.0 will be publicly released in January 2020, and will be available on the EU Publications. More information about this and related initiatives can be found at https://skills4industry.eu/. Dr. Kristina Dervojeda leads the PwC Innovation Research Centre in the Netherlands.

On the day I joined SEMI in March of 2017, I was filled with excitement to be on-boarding at a time when great, leaping strides in innovation were driving the rapid expansion of our ecosystem. In my many conversations with members that followed, I was not surprised that a vast majority ranked among their top concerns the persistent challenge of attracting, training and retaining the talent needed to grow their businesses. Later that year, I raised the global talent shortage issue in my article Securing Talent to Connect, Collaborate and Innovate. As an industry veteran I knew that the decades-long workforce development challenge will only worsen with the proliferation and increasing complexity of technology.Innovation has never been more technology-intensive. Developing the technology and producing the components required for applications powering next-generation communications (5G), artificial intelligence (AI) and machine learning, autonomous vehicles, and the Internet of Things (IoT) require bright minds in diverse fields of science to fill critical positions in the global electronics manufacturing industry. Today, that talent struggle is acute, threatening to undermine our industry’s potential to grow to $1 trillion by 2030.The electronics industry needs a comprehensive, integrated program to build the talent pipeline. The program should inspire school-age children to adult learners to pursue careers in this great but underrecognized industry. It needs to shine a spotlight on career opportunities. It must prepare workers with standardized skills sets transferable across the industry. And it must connect trained workers with hiring companies.SEMI is uniquely positioned to deliver this solution. Launched almost two years to the day after I joined SEMI, SEMI Works is SEMI’s branded workforce development initiative. We realize that trade associations don’t create jobs. Their members do. Think of SEMI Works as SEMI’s commitment to build and maintain the needed infrastructure – the talent pipeline. SEMI Works is comprehensive. The program, supported by SEMI members, is a wide-ranging effort by our Global Advocacy team to ensure education is demand-driven, training programs better meet the needs of the industry, more people pursue careers in electronics and our members have access to the talent pool that we are cultivating. With SEMI Works, SEMI is developing scalable solutions to improve connections among training and education providers, prospective workers and the industry. Key features of SEMI Works will include SEMI-certified education courses and training programs linked to industry requirements and skills credentialing for workers.SEMI Works starts with raising awareness of SEMI-certified programs as a key bridge connecting prospective talent, the industry and applicable training and education programs. Growing awareness of the programs will enable SEMI to build an extensive database of employers and qualified talent and link both to the right training. SEMI will continue to drive and endorse programs that help meet member needs throughout the education continuum – from K-4 to higher education and adult training. But the infrastructure and ecosystem required to support and scale these programs is the key for all of us to win together. At a high level, SEMI Works consists of several important components: Linking the required industry competencies to education and training course curriculum – Similar to the establishment of SEMI standards, SEMI will certify education and training programs that dovetail with the industry competency model. Initial certification and annual re-certification ensure continued updates, relevance and sustainability of the programs. SEMI will raise awareness of SEMI Works certified programs as the standard for meeting the industry’s talent requirements. Developing and maintaining the electronics industry competency model – Through established working groups and ongoing dialogue with our members, we are developing a competency model – a tiered matrix of required competencies used to link course curriculum to the talent needs of employers. The competency model consists of interpersonal and individual skills, academic and general industry requirements, advanced manufacturing competencies, and competencies by job. SEMI will establish and maintain the model with regular updates. Improving access to talent – Through SEMI Works, SEMI will build an extensive database that brings together programs, talent and employers. People and organizations opting into a SEMI-certified program or acquiring a SEMI program certification will be part of the SEMI database. Job seekers will be able to set up a profile and resume and search for training and employment opportunities, and employers will search the talent pool – much as job-search sites work today – assured of a skills match based on the SEMI certification. I am passionate about education and proud of all of SEMI’s efforts. I am especially proud of the work we are doing to help provide a pathway to meaningful careers for children and adults all around the world. We no longer have the luxury of a piecemeal approach to training and education.It is my hope and belief that SEMI Works, together with our efforts to improve diversity and inclusion in the workforce, will be SEMI’s lasting mark on the global electronics industry.Ajit Manocha is president and CEO of SEMI.

4 Key Takeaways from SEMI Taiwan Member ForumThe rapid development of artificial intelligence (AI) has accelerated the digital transformation in various industries and has now fused with Internet of Things (IoT) to exploit the value of both technologies in reshaping the electronics industry value chain. As it emerges from the shadows of its parent technologies, AIoT is giving rise to new opportunities in manufacturing, healthcare, transportation, and even energy. AIoT is fast rising in prominence as an enabler of key electronics manufacturing process improvements and the creation of add-on value to existing products – both critical to the success of many businesses.SEMI and the SEMI MEMS Sensors Industry Group (SEMI-MSIG) held a technical forum on smart sensing and its applications in AI and AIoT, inviting renowned experts in sensors and edge computing to share in-depth insights into the latest AIoT technologies and applications with more than 100 industry professionals in research and development, marketing and sales. Here are four key takeaways from the SEMI Taiwan member forum.1. Steady Growth for Global Sensors MarketThe global sensors market’s steady growth is expected to expand at a CAGR of 6.6 percent from 2017 to 2023, with Asia driving the biggest gains and automotive leading the segments – including healthcare and education – with the strongest growth. Automotive alone is expected to reach US$34 billion in 2023.2. Integration Critical to MEMS Sensors DesignsWith AI booming, MEMS sensor designs need to drive toward greater integration —not only integrating data collection with sensors, but also streamlining data processing on the backend – making 3D models of today’s MEMS mechanical designs critical. The differences between 3D and entrenched 2D models are dramatic, elevating the importance of specifying manufacturing steps in MEMS designs. As new sensors and applications continue to emerge, companies that develop the most powerful integrated designs will win. 3. Growth of Smart Voice-Control Applications to ExplodeAIoT is also accelerating the development of smart voice-control applications and the rise of new related business opportunities. Just 50 million voice-controlled devices shipped worldwide in 2017, a number predicted to swell to 436 million in 2021 with smart home devices such as set-top boxes and smart TVs the major growth drivers.4. AIoT Eyed to Make Human-Robot Collaboration SafeSafety is an essential feature for human-robot collaboration. Tactile sensing technologies give robots a layer of “skin” with capabilities rivaling human touch. To ensure humans and robots work together safely in work environments, sensors on this layer of skin are concentrated – less than 8mm apart, equivalent to the width of a human finger, with a response time of less than 5ms on contact. More than 4 million robots worldwide are expected to be upgraded with these sensing technologies and are on track for deployment in pilot plants in the next three years.SEMI-MSIG is committed to strengthening connections across all sectors in the MEMS and sensors supply chain, working closely with the industry to accelerate the development of related technologies and applications in both mature and emerging markets. In addition, SEMI-MSIG hosts regular events to inspire business opportunities and technology exchange for innovative applications, while enhancing the visibility of members among global customers and partners to help them forge new partnerships. To join the group, contact SEMI Taiwan’s Helen Chen at [email protected] Yi is a marketing specialist at SEMI Taiwan.