AI

SEMI has urged government representatives around the U.S. and world to designate the semiconductor industry as an essential business so operations at companies across the chip supply chain can continue without interruption as the spread of COVID-19 continues. SEMI President and CEO Ajit Manocha assured the U.S. and global officials that SEMI members – the device makers and suppliers of chemicals, materials, components, design tools and equipment at the heart of chip manufacturing – “are employing all measures necessary to maintain the health and safety of their employees and local communities” to help contain the virus. Manocha last week sent letters to the governors of 16 states and the chairs of the National Governors Association, U.S. Conference of Mayors, National League of Cities, and National Association of Counties requesting consideration of the semiconductor industry as an essential business if shelter-in-place or similar orders are issued to curb the spread of COVID-19. More than half of U.S. states have imposed shelter-in-place or stay-at-home orders in the past month. The designation would allow SEMI members to maintain continuous operations to ensure that manufacturing of components for critical infrastructure equipment, the defense industrial base, and other vital technological products and services is not jeopardized. Semiconductors are the foundation of modern electronics and information technology and are critical in helping health workers effectively treat COVID-19 symptoms, Manocha told the officials. The devices also play a central role in containing its spread by enabling artificial intelligence (AI), data analytics, digital communications, telemedicine, robotics, remote health monitoring, telecommuting, online shopping and other digital services.Manocha urged state and local officials to follow guidelines issued on March 19 by the Department of Homeland Security (DHS) Cybersecurity Infrastructure Security Agency (CISA) identifying “manufacturers and supply chain vendors that provide hardware and software, and information technology equipment (to include microelectronics and semiconductors) for critical infrastructure as ‘essential critical infrastructure workers.’” Most states issuing shelter-in-place or stay-at-home orders have followed the DHS guidelines and/or separately designated the semiconductor industry an essential business. Likewise, other nations have recognized the power of technology in effectively containing COVID-19 and similarly designated the semiconductor industry an essential business.On March 27, SEMI, the Semiconductor Industry Associations in China, Europe, Japan, Korea, Singapore, Taiwan and the U.S., as well as several other trade associations in Asia issued a statement “calling on all governments to specify semiconductor industry operations as ‘essential infrastructure’ and/or ‘essential business’ to allow continuity in operations.” The global semiconductor supply chain forms a highly intricate network consisting of research, design and manufacturing operations. Operating restrictions in one region can compromise production in others, leading to inefficiencies and breakdowns that cascade across the supply chain.With semiconductors underpinning vital sectors of the global economy, the chip associations called on all global governments at all levels – central, states, provinces and localities – to help protect the uninterrupted operations of domestic semiconductor companies and their suppliers by applying the essential infrastructure or essential business designation.Joe Pasetti is Vice President of Global Public Policy and Advocacy at SEMI.

The march of innovation in semiconductor microfabrication technology over the past 60 years has produced electronic devices and information systems that have transformed industries and lives around the world. And while advances in chip technology continue to make it possible to collect, transmit, store and process more data for a rapidly growing universe of applications, the pace of innovation is now facing strong headwinds. Powered by chip innovation, data centers have become massive centers of information processing but, on the downside, enormous consumers of electricity. Today, the power-hungry hubs account for five percent of the world's electricity usage, a proportion that is growing every year, raising important questions about sustainability. Compounding the challenge, the pace of Moore's Law, for decades the engine of electronic device and information system innovation, has slowed. While the research and development of state-of-the-art semiconductor fine processing technology remains robust, developing the advanced manufacturing technology for mass-producing more sophisticated electronics devices is becoming harder, as is ensuring business profitability."It has become difficult for semiconductor technology to continue to evolve as it has in the past," said Akira Minamikawa, Research Director of Technology Research at IHS Markit, who moderated the Semiconductor Executive Forum – View by Top Two in the Era of Digitalization on opening day of SEMICON Japan 2019 at Tokyo Big Sight. Held at the SuperTHEATER, the forum featured Terushi Shimizu, representative director and president at Sony Semiconductor Solutions, and Atsuyoshi Koike, president at Western Digital Japan, two industry powerhouses that could figure heavily in the future of digital technology. SuperTHEATER, the main stage at SEMICON Japan 2019 Image sensors evolve to become eyes of AIImage sensors are becoming eyes of artificial intelligence (AI) and intelligent systems that monitor people and events worldwide, collecting data that one day could help puzzle out growing social challenges such as energy conservation and traffic congestion. With 51 percent market share on the strength of its industry-leading technology, Sony Semiconductor Solutions dominates the image sensor market. Despite last year’s global semiconductor industry slump, the company’s “business continues to enjoy strong growth and we are very busy,” said Shimizu, who attributed the company’s robust performance to the rising importance of the social role of image sensors and the expanding number of applications they support.The success of the company’s image sensors can also be traced to its division of the image sensor market into two application categories: "Imaging" focuses on capturing beautiful image data, while "sensing" aims to collect data that accurately describes the state of a subject and its surroundings."In 2019, sales of imaging products for smartphones grew rapidly,” Shimizu said in his market overview. “This is due to the average annual 15 percent growth rate of multi-camera smartphones, with some phones today featuring seven cameras, and an average annual growth rate of 20 percent in sensor size to produce higher image quality."But Shimizu cautioned that Sony Semiconductor Solutions doesn’t expect the smartphone sensor market to maintain that fast growth rate."The imaging market is expected to grow until 2022, but after that, the sensing market will drive market growth,” he said, adding that the company’s “capital investment plan is based on this scenario."AI will be key in catalyzing growth of the sensor market as integrations of AI processing engines and sensing images grow in sophistication to capture images undetectable by the human eye, Shimizu said. AI will extract insight from captured image data. For its part, Sony will apply its layer stacking technology to sensing products."By stacking an AI processing engine, we want a significant portion of the recognition processing done within the sensor chip," Shimizu said.One sensor the company already offers collects in-depth information for indirect time-of-flight (ITOF) 3D ranging for new user interfaces relying on autonomous or gesture control for robotics. The sensor “was first used in smartphones in 2018 and saw widespread adoption in 2019," Shimizu said.Sony Semiconductor Solutions plans to focus on developing new sensors for integration with their ultrasonic cousins. Aided by optical deflection technology, the sensors will be used for product quality inspections during manufacturing.With the company’s growing strengths in sensor technology, it hopes “to increase sales of sensors from a few percent of the company’s total sales in 2018 to 30 percent in 2025,” Shimizu said, pointing to its goal "to capture 60 percent share of the image sensor market by 2025."Data as one way to spread happinessAt the heart of consumer devices such as smartphones and computers and also cloud servers, NAND flash has made it possible to process vast troves of data anytime, anywhere. In recent years, the technology has enjoyed stronger adoption for use as the storage medium of choice for edge computing, stationed between end devices and the cloud to help streamline data utilization. But the technology isn’t merely about making smarter use of bits and bytes."We would like to promote the technology development that can support the use of data to bring happiness to people around the world," Koike of Western Digital Japan said. The company calls data that contributes to individual happiness and helps solve social issues "data for good" and, like the Sony Semiconductor Solutions bifurcated classification of the image sensor market, categorizes information into “big data” and “fast data.”For example, big data can leverage AI to drive dramatic improvements in the interpretation of test data and, ultimately, the diagnostic accuracy of mammography for breast cancer screening, aiding in early detection to help save lives, Koike said. Fast data can be harnessed to analyze data collected from a manufacturing equipment line in real time to improve production efficiency. The company’s plant in Yokkaichi, Mie Prefecture, which the company operates in cooperation with Japanese memory manufacturer Kioxia, already uses fast data to bolster production.More NAND flash innovation and greater supply capacity are critical to developing "data for good," Koike said. "It is difficult to expand clean rooms at the same pace as data usage grows. In order to continue to advance technology and enhance supply capacity, we need to adopt new ideas for building production lines. We need a smaller equipment footprint, shorter cycle time and higher throughput."Semiconductor market shows signs of recoveryIn their discussion of the short-term outlook for the semiconductor market, Shimizu and Koike pointed to the importance of strengthening the talent pool of Japan’s semiconductor industry as global competition heats up with China’s pursuit of semiconductor independence and the industry pulls out of the 2019 slowdown fueled by weak memory prices. While Sony’s business has been buoyed by strong image sensor demand for smartphones, the devices “did very well, but other applications didn't," Shimizu said. Even the image sensor market stagnated.Despite the 2019 slump, market conditions and capital investments by semiconductor manufacturers have been on the upswing."In the second half of 2019, the Chinese market showed signs of recovery triggered by 5G,” Shimizu said. “In 2020, this movement is going to be in full swing around the world and we will be busier than last year."Koike agreed: "The semiconductor market for data centers will recover with 5G. The hard disk shortage is already an indication of a recovery, a turnaround that will undoubtedly extend to solid state drives (SSDs). In addition, advances in autonomous driving technology will ensure continued growth of the automotive semiconductor industry.”Japan should embrace international competition, not fear China's pursuit of chip independenceIt's no secret that China is investing heavily in its semiconductor development capabilities to move up the microprocessor value chain. Minamikawa posed the question: How should Japanese chip companies navigate the shifting regional balance of power? "It is natural for China to strive to establish domestic procurement of semiconductors that are fundamental technologies for various industries,” Koike said, “I think the efforts of Chinese companies are outstanding in that they are not pursuing short-term results, such as improving yields in the near future, but are making efforts with an eye to achieving results in 10 years. Japan has a variety of options including working with China to create joint ventures and competing head-on. Regardless of which choice we make, however, it is imperative for the survival of domestic companies that Japan maintains its technological competitiveness to remain ahead of China."Shimizu said that Sony’s “Chinese customers are quick to take action and study extremely hard. We often have opportunities to share our roadmap with them and explore innovation opportunities together. Before, they were passive and relied on us for insights into new technologies, but now they are more assertive and I sense that they will start to drive innovation.”Koike added that "although Japanese companies often talk about business globalization, neither Chinese nor American companies say much about it. While global expansion is a major requirement for business, I think Japanese companies need to focus more on the Japanese market overall, not just when they think about the growing competitiveness of Chinese companies." L-R: Akira Minamikawa, Research Director of Technology Research at IHS Markit; Atsuyoshi Koike, president at Western Digital Japan; Terushi Shimizu, representative director and president at Sony Semiconductor Solutions Talent key to bolstering competitiveness of Japan’s semiconductor industryMinamikawa of IHS Markit didn’t mince words in describing the talent shortage in the Japanese semiconductor industry as “grave,” saying that “the workforce challenge is not endemic to the electronics industry as evidence grows that the number of people obtaining doctorates in Japan is falling and the educational level of the Japanese population as a whole is in decline.”Three years ago, Shimizu interviewed professors on Kyushu island for insights into Japan’s talent shortfall. He came away feeling that “Japanese semiconductor companies were not sufficiently communicating the industry's talent and innovation needs to professors. To help professors and students better grasp the appeal and potential of the industry, we have started to send frontline engineers to universities to educate students and instructors about their work and careers. Expecting corporate HR departments to alone solve the talent shortage won’t work.”"In Japan, if you advance to a doctoral course, you will have a hard time getting a job, which is a strange situation,” Koike said. “Companies and universities need to work together more closely to better understand how to attract and hire doctoral graduates."Minamikawa said companies must have strong leaders with clear missions to attract the right talent, but Koike pointed to the drawbacks: "The image of a company with a strong leader seems to be cool, but it also has a downside because engineers stop thinking for themselves and wait for instructions from the top. I believe it is important for company leaders to have ongoing discussions at all organizational levels and lead the way in times of confusion."Shimizu agreed, citing his own company as an example."Thankfully, our company is very busy right now,” he said. “However, some employees are starting to request more time to think about how to improve the quality of their work. To maintain and strengthen our competitiveness and continue business growth, I believe it is important to cultivate an environment that encourages each employee to take more time to think for themselves."Motoaki Ito is the CEO of Enlight, Inc. and a reporter for SEMI. Mayumi Amagai is a marketing manager at SEMI Japan.

Back in February of this year, we launched SEMI Works™, a landmark SEMI program designed to grow and sustain the electronics industry talent pipeline from the ground up. But it was much more than a program launch. The introduction was a resounding statement of our passionate commitment to workforce development and its incontrovertible importance to the future of the microelectronics industry. No one’s passion for workforce development burns brighter than SEMI CEO Ajit Manocha’s. In April, he reiterated SEMI’s focus to make good on this commitment and laid out the broad outlines of SEMI Works. From the outset, our sights have been firmly fixed on execution. The National Science Foundation (NSF), a United States government agency that supports fundamental research and education in science and engineering, recently lent its support to SEMI Works with a $6 million investment to develop a scalable, sustainable apparatus to meet current and future talent requirements of the end-to-end electronics manufacturing industry. And more financial backing – this time from abroad – could well be in the offing. We are pressing ahead to develop the infrastructure to connect talent, industry and education providers at scale. We are expanding proven programs for exciting and engaging students in experiential learning opportunities at a young age. And we are paving the way to offer career and educational pathways through high school, college and adult and veteran training. Regional partners are essential to scaling these programs, and to date we have identified three regions for pilots to develop the infrastructure and business model that will be heartbeat of SEMI Works.Moore’s Law is losing steam, raising hard questions about the semiconductor industry’s ability to maintain its swift pace of innovation. The clarion call for chipmakers is to design ever smaller electronic circuits with higher processing power for devices with shrinking form factors. More computing muscle is crucial to advances in smart manufacturing, medtech, quantum computing, artificial intelligence (AI), 5G and the IoT – all technologies that generate and consume staggering amounts of data.Yet no obstacle to industry growth stands as tall as the brick wall of the talent shortage. A highly skilled workforce is essential to invention. As an industry, we’ll only be equal to the world’s greatest challenges by recruiting, training and retaining the best and brightest.At this critical juncture in what is the world’s most strategic industry, the public and private sectors must work collaboratively to leverage their collective strength to produce the talent required to power technology development today and well into the future.In 2020 SEMI will mark 50 years of facilitating collaborations to mint new technologies and markets. We are uniquely positioned, with our members, to lead what history may one day record as our most important effort to date, a push that could impact the world for decades to come. The industry needs a lasting solution to expand and sustain its talent pipeline. SEMI is taking decisive action with SEMI Works. Mike Russo is vice president of Global Industry Advocacy at SEMI.

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.

The more than 53,000 people who flocked to SEMICON Korea last month were treated to a motherlode of insight into the future of the semiconductor industry as 470 companies exhibited innovative technologies in more than 2,000 booths. But the annual event’s most arresting numbers came in keynotes and other presentations pointing to the extraordinary industry growth that lies ahead.“It is no exaggeration to say that 90 percent of the world’s data has been generated in the last few years,” said Jim Feldhan, president of Semico Research. “This explosive growth of data is expected to continue. That's why server shipments will grow by 20.3 percent, or 30 million units, this year alone.”Feldhan said that the Internet of Things (IoT) will be a chief driver of semiconductor industry growth, with IoT expected to be applied in areas as varied as automotive, smart cities, edge computers, finance, architecture, agriculture and healthcare. For its part, artificial intelligence (AI) will start to exercise human-like judgment. Feldhan noted that in many instances in these fields, “it is more accurate to apply AI and vision systems than to rely on traditional decision-making.”Yoon Jong Lee, senior vice president of DB HiTek, predicted that the Internet, AI and 5G will drive market growth. “Looking back over the past 30 years, semiconductor market growth was powered by PCs, the Internet and cell phones, yet last year memory accounted for 35 percent of total semiconductor sales, more than double the figure in 2016,” he said. He predicted that, in 2019, the foundry sector will outstrip the semiconductor market in growth, noting that the average growth rate of the semiconductor industry is expected to be 4.1 percent, compared to 7.1 percent for the foundry market. Clark Tseng, director of SEMI, reported that the strong semiconductor growth in 2018 is unlikely to continue in 2019 due to the decline in memory pricing, as well as mobile and PC demand. “Demand for semiconductors is likely to decline in the first half as the industry is still digesting inventory and rebound in the second,” Tseng said. Semiconductor industry growth headwinds include decreases in high-end smartphone purchases, PC demand and demand for DRAMs for servers in data centers, Tseng said. Declines in economic growth and consumption in China and the U.S.-China trade war will also contribute to a slowdown. However, Tseng noted that, over the long term, technology innovation will continue and that the semiconductor industry’s prospects remain bright.One key innovation will be the elimination of AI’s reliance on Internet connections in the future. In his opening day keynote, Eunsoo Shim, senior vice president at Samsung Electronics, emphasized that AI technology that operates without the Internet in the future is essential. “We are developing 'on-device AI' technology that incorporates AI algorithms in products such as smartphones and autonomous vehicles,” he said. "When on-device AI technology is implemented, it reduces reliance on the Internet, battery consumption, and data latency.” Reducing latency will significantly improve device response time.Walden C. Rhines, CEO Emeritus of Mentor, a Siemens business, predicted that AI will fuel rapid memory growth. The memory semiconductor (DRAM, NAND flash) market is expected to see a temporary slowdown this year, with the market expected to rebound in 2020. Rhines said that memory could be seen as an early market with rapid future growth, citing memory market super-booms in 1995 and 2000.“Memory production has not decreased since 1995 or 2000,” he said. “Although memory prices will temporarily fall this year after significant market growth in 2017 to 2018, the market will continue to grow as memory production increases,” he said. Rhines added that “although memory prices will drop by about 10 percent this year, he believes prices will increase 6 percent next year.” He also predicted the steady growth of the non-memory semiconductor market as AI technology matures and China’s investment in fabless companies continues.Indeed, SEMICON Korea speakers made it clear that concerns about the growth of the semiconductor industry are expected to be short-lived. While overall growth is likely to slow in 2019, the industry is expected to rebound steadily – powered by the semiconductor industry paradigm shift led by AI, IOT, and autonomous driving – and reach a new high of nearly $541 billion in 2020.Jaegwan Shim is a marketing specialist at SEMI Korea.

Last year the industry posted another remarkable double-digit revenue growth year. IC shipments eclipsed one trillion units for the first time and continued to enable an ever-expanding array of silicon intensive-applications.2018 was also a pivotal year of transformation at SEMI. Setting our sights firmly on building more value for SEMI members, we doubled down on priorities I established this time last year. We advocated intensively on global trade policies, industry talent needs, and critical environment, health and safety (EHS) concerns. To underpin our efforts around talent, we took the bold step to reinvigorate the industry’s identity with a dynamic image campaign. Above all, we targeted critical industry-wide issues to help us realize the ambition of becoming a trillion-dollar industry in the next decade. Workforce DevelopmentRedefining our approach to talent development in 2018 was and remains a top priority. A diverse, highly skilled workforce is crucial to the industry’s ability to innovate. Last year we ramped up a number of SEMI High Tech U (HTU) programs to inspire young people and attract them to careers in high-tech manufacturing. To date, more than 130,000 students have been touched by HTU – through student or teacher programs.Over the past year, we designed a new university outreach program and established partnerships with 100 institutions. We established Workforce Pavilions at SEMICON events in Southeast Asia, the U.S., Taiwan, Europe and Japan for students to explore career opportunities and meet with recruiters. We thrilled at seeing sponsors hire young talent at SEMI events. This year, all SEMICONs worldwide will feature Workforce Pavilions.SEMI also formalized its commitment to Diversity and Inclusion (D I) with the establishment of a D I council to shape new programs including the recently launched Spotlight on SEMI Women. To localize and fully optimize our D I programs, we established regional workforce councils in every region we serve. We unveiled the SEMI Mentoring Program to support students and young professionals on this journey by facilitating one-on-one mentoring relationships with industry professionals. Hundreds of mentees have enrolled. But we still need more mentors. I urge you to join the program. During the year, SEMI also expanded its workforce staff and developed a comprehensive workforce strategy with programs that engage students as early as elementary school and inspires them through high school and college. The program provides pathways to professional careers, building a pipeline to fill the short-term and long-term talent needs of the industry. Industry Image CampaignAs we developed the comprehensive workforce development program, we knew we had to refresh the industry’s image and appeal to the next generation through contemporary media and communications channels. So we recently launched a bold, innovative campaign to raise industry awareness and attract students and recent graduates to careers in semiconductor manufacturing.Our You’re Welcome campaign is a novel, creative approach that blends entertainment, media and storytelling to excite students about the industry. The campaign went viral immediately and within weeks had more than 5.5 million social media impressions and 2.3 million video views.Trade Policy AdvocacyRising trade tensions between the U.S. and China catapulted global trade policy to the forefront of industry concerns in 2018. Since the tariffs have taken force, semiconductor companies have faced higher costs, greater uncertainty, and difficulty selling products abroad. The tariffs have forced many SEMI member companies to pause or rethink their investment strategies.SEMI quickly engaged U.S. policymakers and provided resources for SEMI members. We formed a member trade task force, staged trade compliance seminars in China, and convened meetings with over 110 U.S. congressional, agency and administration officials, and provided testimony on the importance of the free trade to the industry.SEMI continues to educate policymakers about the critical importance of free and fair trade, open markets, and respect and enforcement of IP for all players in the global electronics manufacturing supply chain. As part of this initiative, we distributed “10 Principles for the Global Semiconductor Supply Chain in Modern Trade Agreements” and encouraged their adoption in various trade negotiations. These principles outline the primary considerations for balanced trade rules that benefit SEMI members around the world, strengthen innovation and perpetuate the societal benefits of affordable microelectronics.Environment, Health and SafetyEnvironmental regulations are proliferating globally even as advanced semiconductor manufacturing technology relies increasingly on a host of new materials. With dozens of new fabs and fab line upgrades, our industry must align on best practices, sensibly respond to materials restrictions, and renew efforts toward sustainable manufacturing.That’s why the revitalization of SEMI EHS efforts became another priority in 2018. Two months ago, we hosted the inaugural EHS Summit at SEMI Headquarters. Fully, 70 EHS professionals and company executives met to form the basis for the future SEMI EHS program.The Year AheadDespite a softening in the market, compounded by Apple’s first-ever announcement of a revenue decline in 16 years, a geopolitical whirlwind on trade and an extended shutdown of much of the U.S. government, the future is bright.At SEMI’s annual Industry Strategy Symposium (ISS 2019) in Half Moon Bay, Calif. in early January, the sense of optimism was palpable. In her keynote address, Dr. Ann Kelleher, Sr. VP and General Manager, Technology and Manufacturing Group, at Intel, observed that data is powering the fourth industry revolution and the expansion of compute. With customers expecting continual improvements in applications, Kelleher highlighted the tremendous opportunity for the chip industry to meet these expectations.At ISS 2019, we announced a Memorandum of Understand between SEMI and imec. The MOU will enable us to accelerate our members’ engagement in SEMI’s Smart vertical market platforms, in particular Smart MedTech and Smart Transportation. Our partnership with imec will also allow us to boost SEMI Standards activities in non-CMOS technologies, deepen technology roadmap efforts and augment our SEMI Think Tank initiative in thought leadership at a global level.Over the course of this coming year, will we begin our global rollout of key building blocks of our comprehensive workforce development program to engage schoolchildren as young as 10 and learners all the way to veterans who return to the workforce. We are now able, with the invaluable help of our Workforce Development Council and the passionate engagement of many SEMI member companies, to offer a solution to the talent crisis in our industry.We will continue to be the leading voice for our members and the end-to-end semiconductor supply chain across Talent, Trade, Tax and Technology as we work to ensure free, fair trade that protects IP while preserving vital access to markets to grow the supply chain. Vertical Market PlatformsOur vertical market platforms are an important part of this growth. For example, in Smart MedTech, SEMI looks forward to working with the Nano-Bio Materials Consortium to advance human monitoring technology for telemedicine and digital health after winning $7 million to fund the renewed program. In Smart Transportation, we will leverage the Global Automotive Advisory Council (GAAC) we formed last year to represent the full automotive supply chain and the Smart Transportation and Smart Automotive forums featured at all our SEMICON events to enable the industry to identify and seize opportunities in autonomous driving. At ISS 2019, Sujeet Chand of Rockwell Automation noted that “digitization will grow faster in the next 10 years than it did in the past 50,” a trend calling for semiconductor fab architectures that transform data into business value. We will continue to bring the industry together at our Smart Manufacturing venues to help uncover ways to deploy deep learning, edge computing and other Smart technologies to deliver this value and meet the challenges of automation as artificial intelligence’s (AI) sprawling influence reshapes industries including manufacturing.I am filled with optimism and thrilled about the opportunities I see on the horizon for our members as we build on our 2018 accomplishments to enable your prosperity in 2019 and beyond. My heartfelt thanks to all of you for your participation in our programs and events.I look forward to another successful year as we connect, collaborate and innovate together!Ajit Manocha is president and CEO of SEMI.

SEMI and imec are joining forces to drive innovation and deepen industry alignment on technology roadmaps and international standards while adding technology depth to SEMI’s five vertical application platforms including Smart Transportation, Smart MedTech and Smart Data.Under a Memorandum of Understanding announced today at ISS 2019, the two organizations have set their sights on bringing together key industry players to advance cutting-edge technologies including Internet of Things (IoT), artificial intelligence (AI) and machine learning that enable new capabilities across healthcare, automotive and semiconductor manufacturing. The partnership also aims to speed the time to better business results for SEMI and imec members and partners. SEMI brings to the partnership access to the $2 trillion global electronics manufacturing supply chain and imec its global research and development (R D) and innovation leadership in nanoelectronics and digital technologies.Under the MOU, the two organizations will co-produce SEMI Think Tanks, extend SEMI’s International Standards platform to non-CMOS technologies, identify and fill gaps in technology roadmaps, and tighten imec’s engagement with SEMI in European workforce development efforts.Bettina Weiss is Chief of Staff at SEMI.

We are living in a digital world where semiconductors are taken for granted, AI is bringing semiconductors back into the deserved spotlight, and now we are witnessing the dawn of the Cognitive Era enabled by semiconductors,” SEMI president and CEO Ajit Manocha said to an audience of more than 500 during his presentation – Rebirth of the Semiconductor Industry – at the First Global IC Entrepreneur Conference.Speaking at the Shanghai event in mid-December, Manocha recalled how, when he first entered the semiconductor industry in the 1980s, semiconductors revenue topped out at about $10 billion. Now, with sales having swelled to a staggering $450 billion, the industry is on a much faster growth track. Revenue could reach $500 billion by the end of 2020 and trillions of dollars by 2030. Over the past two decades, chips have given rise to social media and e-commerce powerhouses such as Google, Facebook, and Alibaba. All rely on heavily on chips, the engines of data centers across all industries. Wave after wave of technology innovation have been powered by semiconductors – from mainframe computers in the 1970s, personal computers in the 1980s, the Internet in the 1990s, and mobile and social networking in the early 20th century, to the current shining stars of technology such as IoT, big data, new memory, virtual reality, autonomous driving and artificial intelligence, Manocha said. New applications across areas such as smart manufacturing and digital healthcare are stoking the latest round of semiconductor growth.The rise of AI, like all the technologies before it, has renewed the semiconductor industry once again with its promise to drive growth of all industries worldwide, Manocha said. Five years ago, IoT was but a gleam in a technologist’s eye, more hype than reality with doubt about its viability running deep. Today, with about 60 percent of people in the world connected to the Internet, the enormous promise and potential of IoT is flowering. Industry growth will explode as the melding of AI and IoT birth countless applications and innovations in SMART transportation (0 emissions; 0 fatalities; 0 congestion), smart sensors (agriculture, infrastructure, healthcare) and SMART “Everything” (people, devices, homes, cities, industries, and the list goes on). Indeed, AI is now widely recognized as a chief growth driver of the semiconductor industry well into the future, with semiconductor technology at the core of AI innovation, he said. Semiconductors are thrusting the fifth industrial revolution into the fast lane. China’s much-anticipated rise as an industry powerhouse over the next few years will only accelerate industry growth, turning current disruptions into future opportunities as SEMI China continues to cultivate connection, collaboration and innovation in China’s fast-growing semiconductor sector.Cherry Sun is a marketing manager at SEMI China.

Standing-room only keynote speeches. A future awash in data amassed by transformative technologies and applications, with semiconductors at their core. Smart everything: Cars, medicine, manufacturing, workforce, you name it. The sheer numbers impressed as a record lineup of SEMICON West keynote speakers offered a glowing portrait of the future: The semiconductor industry stands on the cusp of a breakout expansion. Standing and seated shoulder-to-shoulder in the packed-to-gills opening keynote, the audience learned, indeed, that the best was yet to come: “This is the best SEMICON West, ever,” observed SEMI CEO Ajit Manocha. Here’s a glimpse of the keynotes by the numbers, starting with the luckiest of all. 7 – The number of keynotes – among the brightest lights in technology – sharing their visions of the future through the lens of breakthrough technologies that are nearly ready to make their indelible mark. Dozens of expert panelists also weighed in at SEMICON West, the annual U.S. flagship microelectronics gathering in San Francisco. 90 – The percentage of all data ever generated has been created in just the past two years as the cloud mushrooms with tweets, texts, emails, Facebook posts, YouTube videos, medical records and all manner of business information, noted Bill Bottoms, president and CEO of Third Millennium Test Solutions. In the years ahead, an almost unimaginable wealth of data will require analysis by artificial intelligence (AI) embedded in semiconductors to enable applications that go well beyond smart. 12-18 – That’s how many months it will take for data volume to double, predicted John Kelly III, IBM’s Senior VP, Cognitive Solutions. And it will double again and again, every 12-18 months. Kelly foresees a scale of growth “that will dwarf previous eras of computing … the number of opportunities is enormous.” Kelly’s four decades in computing gave considerable weight to his point that “in the industry, there has never been a more exciting point in time than today.” First – Technology is being re-born. Using baseball lingo, several speakers noted that we are just in “the first inning,” “the top half of the first inning” or “the beginning of the first inning” to make clear in the most emphatic terms the duration of prosperity that lies ahead for the industry. AI embedded in chips and demand for real-time analysis of AI data will be its fuel. As SEMI Americas president Dave Anderson observed with a smile, “We all know how long baseball games can go.” Third – That’s the current wave of machine learning the world is now experiencing, according to Sandia National Laboratories’ Principal Member Conrad James. Computers are now capable of solving many increasingly complex problems on their own, with no human intervention necessarily required, he said. 1000x – As spectacularly fast as computing power already is today, the industry will need to double that the rate of performance in the years ahead, predicted Applied Materials president and CEO Gary Dickerson. Demand for this herculean processing capacity will spur a “tremendous focus on innovation” among SEMI members, their customers and their customers’ customers. 5 to 15 – The remarkable amount of silicon that power today’s mobile devices will be overshadowed by the chips – equivalent in computing capacity to 5 to 15 cell phones – that will be the engine of self-driving and other features in future automobiles, predicted Pierre Ferragu, New Street Research Managing Partner, during the SEMI Bulls and Bears session. Automobiles with this souped-up computing capacity will sell in the millions worldwide in the years ahead, generating never-before-seen opportunities for the chip industry, he noted. 10,000 – It’s not just cars. Ten thousand is the number of sensors that will be built just into the wings of new Airbus A380-1000 aircraft, AMD CTO Mark Papermaster explained during his keynote. 10 terabits – The staggering amount of Facebook data uploaded daily in to the cloud, Papermaster noted. 1 Trillion – SEMI’s 2020 forecast that the industry will reach $500 billion in revenues by 2020 was eclipsed by one analyst, speaking at the SEMI Market Symposium on the first day of the event, predicted that the industry would top $1 trillion in the foreseeable future. SEMI’s Manocha later added that $1 trillion in industry revenue is possible by 2030, “maybe sooner.” 1 (sexy) coda – Coders are hip and software applications are the apple of the world’s eye. Even the most casual mobile device user knows that software apps makes it whirl. But “hardware is becoming sexy again,” said Applied Materials’ Dickerson, adding that equipment and other semiconductor hardware developed by SEMI members will enable the next great wave of global economic growth. Scott Stevens, SEMI

The growth of China’s semiconductor industry outstripped sector expansion in many other regions in 2017 thanks in part to heavy government investments and supportive state policies. But China’s chip industry also struggled under the weight of overheated investment, inconsistent project quality, insufficient investment in research and development, a poor ability to innovate, and barriers to international cooperation. To overcome these headwinds to growth, China must identify global trends in the development of global semiconductor industry and better understand the forces it needs to mobilize to further expand its own semiconductor sector. AI and 5G fuel global semiconductor industry growthIn 2017, global semiconductor industry revenue reached a seven-year peak, expanding 22 percent to nearly USD 420 billion, and entered a new growth phase with artificial intelligence (AI), 5G and other new technologies leading the surge with greater market segmentation, diversification and decentralization. The emergence of smart automobiles, smart cities, smart medicine, AR/VR and other new markets headed the list of new applications. In the next three to five years, semiconductor industry growth is expected to remain stable, with no marked declines. In 2018, the growth rate is expected to fall to between 5 percent and 8 percent, with the expansion more comprehensive and balanced. The memory market, in particular, will find it hard to match its 2017 blistering growth rate. The market’s expected growth of 10 percent to 20 percent will be chiefly driven by DRAM and 3D NAND Flash. In 2019, NAND growth will continue but DRAM shipments could decline. Emphasis on both innovation and investment key to sustainable growth of Chinese IC Under the China government’s Guidelines to Promote National IC Industry Development, designed to provide key policy guidance and capital support for the development of China’s IC industry, the Chinese semiconductor industry is seeing particularly rapid growth that is expected to be a key contributor to continuing global industry expansion. In IC design, HiSilicon and Unigroup Spreadtrum RDA ranked among the top 10 in the world. In wafer fabrication, Chinese IC manufacturing accounted for 13 percent to 15 percent of global market capacity despite SMIC and Huahong Group lagging international competition in advanced processing. In packaging and testing – China’s strongest segment – JCET, NFME and Huatian Technology also ranked in the global top 10. The Guidelines to Promote National IC Industry Development has fueled a boom in capital investments. However, investments must go well beyond fab construction to add new capacity for China’s semiconductor industry to flourish. A strategy for sustainable, long-term chip industry growth must focus more on technology innovation while continuing heavy capital investments, though it takes time for innovation to lead to higher capacity demand and GPD growth and more jobs. Despite large investments by the 02 Special Project in semiconductor equipment and materials, China trails other regions of the world in advanced technologies. Global spending on semiconductor equipment reached a record-breaking USD 56 billion in 2017, with Korea a major driver. In 2017, Samsung alone invested USD 25 billion in semiconductor equipment, followed by TSMC (USD 10.8 billion), Intel (USD 11.5 billion), Hynix (USD 8.5 billion), Micron (USD 0.5 billion), SMIC (USD 2.3 billion) and YMTC (USD 2 billion). In 2018, Samsung’s equipment spending is expected to drop slightly, to USD 24 billion, while investments by Intel and TSMC will be remain roughly equal. China’s equipment spending will continue to grow in 2018, with SMIC and YMTC maintaining investment levels similar to last year’s and other China semiconductor manufacturers starting to ramp up investments. In 2018, China is expected to surpass Taiwan in equipment spending to claim the number two position after Korea. SIIP China dedicated to international connection and cooperation The huge investments in China’s semiconductor industry need to be supported by robust business strategies, greater international cooperation, deeper expertise in advanced technologies, and more skilled workers. China lags the global industry in all of these areas. The rapid rise of China’s semiconductor industry has raised concerns among many countries over China’s growing influence, with some, most notably the United States, going so far as to implement containment measures. Other regions including Japan, Korea and Taiwan followed suit. The continued growth of China’s semiconductor industry hinges on technological innovation enabled by international cooperation, as well as strong international communication to allay concerns and misunderstandings over the rising prominence of China’s chip sector. China must overcome these obstacles. One partial solution is for China to convince the rest of the world that its need a thriving semiconductor industry if only to meet enormous demand for electronics products within its own borders. As the largest international semiconductor industry association, SEMI enjoys a unique ability to strengthen the connection between China’s semiconductor sector and its international counterparts. SEMI is well-known for its vital support of the traditional semiconductor equipment and materials markets, but SEMI’s work also spans IC design, manufacturing, packaging and testing. What’s more, SEMI has expanded into innovative market vertical applications such as AI, smart manufacturing, smart transportation and smart automotive as it aims to bring together supply chains across these growth areas. For its part, SEMI China remains dedicated to improving communications and cooperation between the Chinese and global semiconductor industries. SEMI China will also continue to encourage deeper collaboration among individual enterprises and government institutions in the interest of industry growth while making full use of SEMI’s international, professional and localization platform to promote the development of China’s semiconductor industry. Last year, we established SEMI Innovation Investment Platform (SIIP) China to help grow China’s pool of skilled workers, promote advanced technology, generate industry capital, and expand China’s semiconductor industry while developing stronger connections with chip sectors in other regions. SIIP China is focused on the following: Promoting sustainable development of the Chinese semiconductor industry Establishing stronger connections to help take advantage of global technology and investment opportunities Providing a platform for open communications between the Chinese and global semiconductor industries Promoting greater coordination between China and its global partners Helping newly enterprises secure funds for expansion Encouraging greater cooperation with foreign semiconductor manufacturers in the interest of openness and mutual benefit will be the best way for China to overcome obstacles to the development of its semiconductor industry. Meanwhile, China will continue to strive to merge into the global semiconductor industry and become a key partner. SEMICON China has witnessed the development of Chinese semiconductor industry SEMICON China marked its 30th anniversary this year. Over the past three decades, China’s semiconductor industry has seen remarkable growth. This year’s SEMICON China was the largest ever. SEMICON China and FPD China 2018 numbered 3,628 booths, covered 74,000 square meters of exhibition space and attracted 1,116 exhibitors from 21 countries and regions and 91,252 professional attendees from 58 countries and regions. Most of China’s top device makers and global leading packaging houses, together with their equipment and materials suppliers, exhibited at SEMICON China and FPD China 2018, representing the global IC manufacturing ecosystem. The number of SEMICON China and FPD China 2018 visitors jumped 32.3 percent from last year, with representation by professionals from the design, manufacturing, assembly and test, equipment and materials sectors. Lung Chu is President of SEMI China.