semiconductor manufacturing

SEMI Korea is back on track. New confirmed COVID-19 cases in Korea now average about 50 per day – with more than half from abroad – after peaking in early March, setting the stage for the Seoul office’s first on-site program since the global coronavirus outbreak began.For four days in late July, SEMI Korea held the Semiconductor Process Technology Tutorial (SPT Tutorial) at COEX, home to SEMICON Korea. Nearly 180 university students and chip engineers gathered for two semiconductor manufacturing courses (beginner and intermediate) taught by professors from schools including Hongik and Sungkyunkwan Universities and senior engineers from major semiconductor makers. The beginner’s course covered the end-to-end chipmaking process and the intermediate class examined key phases of semiconductor manufacturing including silicon wafer preparation, cleaning and CMP, lithography, etch, metrology and inspection, implantation and diffusion, deposition and packaging.Social distancing, now part of daily life in Korea, and other protective measures implemented by SEMI Korea to ensure the safety and well-being of the attendees and lecturers made the event possible. SEMI Korea followed best COVID-19 practices including the following.Step 1. Site check of COVID-19 prevention systemCOEX is amply equipped with sanitizers and thermal imaging cameras, with medical staff available in case of an emergency. COEX also constantly monitors air quality at the entire facility while keeping it well-ventilated. Step 2. Screening of registrants Online medical questionnaire review: After attendees completed a SEMI Korea medical questionnaire and submitted it prior to registration, SEMI Korea checked the health status of each attendee and whether they had recently traveled overseas to a high-risk COVID-19 region. Registrant identification: Upon each registrant’s arrival at COEX, SEMI Korea confirmed that the identification of each attendees matched the registrant who completed the questionnaire. Temperature measurement and sanitizer use: SEMI Korea required all attendees to apply hand sanitizer before entering the classroom and measured the body temperature of each. Anyone running a temperature would have been denied entry. Mask Wearing: All attendees were required to wear mask socially distance during check-in and the lectures. Attendees line up for registration while social distancing. Step 3. Badge Distribution and Classroom Entry: Once attendees had passed through all the safety protocols, they were given badges and admitted to the lecture room. Each classroom table was equipped with acrylic desktop social distancing shields to contain the respiratory aerosols of the students. In addition, only one-way passage was allowed through entrances and exits to minimize contact among participants. Acrylic desktop shields helped with social distancing. "Thanks to SEMI's thorough COVID-19 prevention plan for COVID-19, both the speakers and attendees participated in the tutorial confident that the environment was safe,” said speaker Professor Taesung Kim of Sungkyunkwan University. “I look forward to seeing SEMI continue to take these precautions to help the semiconductor industry remain connected and grow.”SEMI Korea moves forward with nine on-site events in 2020Webinars will continue to serve as important forums for SEMI Korea to help members connect, collaborate and innovate while preventing the spread of COVID-19. But to help the industry grow and prosper, SEMI Korea’s on-site events – which have always and will continue to make safety the top priority – will remain robust.In 2020, SEMI Korea will host nine on-site events including the MEMS Sensor Forum and SMC Korea. We appreciate the industry’s support and cooperation as the world continues to battle COVID-19 and look forward to connecting with members in webinars and at on-site events again soon!Jaegwan Shim is a marketing specialist at SEMI Korea.

Emerging applications powered by 5G and artificial intelligence (AI) are expected to be a boon to the semiconductor industry, but only once chipmakers overcome a key challenge: Architecting chips that meet the exacting performance, power consumption, size and cost requirements of devices for mid- to high-end applications. One technology – heterogeneous integration – promises to meet these demands and help drive future leaps in semiconductor innovation in the post-Moore era. To help the industry better grasp the technology challenges and business opportunities associated with deploying highly integrated chip and packaging technologies, SEMI and AI on Chip Taiwan Alliance recently gathered industry leaders from organizations including ASE, Unimicron, Dialog Semiconductor, Cadence and AITA to discuss technology trends and the vital importance of building a cross-industry exchange platform to advance next-generation manufacturing processes critical to heterogeneous integration. Following are key takeaways from the forum, Heterogeneous Integration Enables 5G and AI. Overcoming Heterogeneous Integration Technology Challenges Key to Advances in Taiwan High-End Semiconductor Manufacturing The introduction of the Heterogeneous Integration Roadmap (HIR) by the International Technology Roadmap for Semiconductors team in 2016 was an important first step, Dr. C.P. Hung, Vice President of ASE Group, noted in his opening remarks. The HIR is designed to stimulate pre-competitive collaboration to advance heterogeneous integration technology development and accelerate electronics innovation. The roadmap provides a long-term vision for the electronics industry, identifying future technology requirements and potential solutions. Today, the HIR working group focuses on high-performance computing (HPC), 5G and other leading-edge technologies.Dr. Hung predicted that heterogenous integration will reshape traditional collaborations between the semiconductor ecosystem and supply chain in order to clear I/O bottlenecks that hamstring high-performance applications. The retooled industry connections will also need to enable high I/O pin counts, ultra-thin devices, and high-frequency signal shields. In an important step forward, the chip industry today is developing a platform that enhances wafer-level advanced packaging services and deepens cooperation with Oversea Assembly and Testing (OSAT) and substrate supply chain partners. Overcoming the current limits of IC substrates – the connection between IC chips the PCB – is one key for heterogeneous integration technology to flourish, said Dr. Yu-Hua Chen, Vice President, Carrier SBU, RD Division of Unimicron. He noted that the industry must tackle limits to PCB thickness, substrate density, fine pitch and automation to meet the needs of high-end packaging customers. Another barrier the industry must be surmounted is to make the currently inscrutable confidentiality requirements for patents of foreign materials – key to improving chip yields – easier to access and understand for substrate engineers. Chen said partnerships across the entire industry will be necessary to break through this and other technology breakthroughs. Supply Chain and Cross-Border Ecosystem to Strengthen Partnerships for Further DevelopmentTaiwan has long invested heavily in advancing semiconductor manufacturing and application engineering technologies to become a top global chipmaking hub and, in the process, has been behind significant leaps in optimizing chip functionality, said Leroy Liu, General Manager, Asia Headquarters, of Dialog Semiconductor (Germany). With its semiconductor manufacturing prowess, Taiwan can also play a central role in maturing advanced heterogeneous integration packaging technology while managing development costs by partnering with its international supply chain community to overcome technical challenges more effectively, Liu said. The region can also help forge partnerships, even among competitors, to build the ecosystem essential for heterogeneous integration technology to shine.EDA tools will be critical in understanding and resolving heterogeneous integration technical issues since IC substrate, packaging and chip design all pose interdisciplinary engineering challenges, said Julian Sun, Product Marketing Director at Cadence. To help the industry navigate these challenges, Cadence has launched intelligent system design products – solutions that address a wide range of design problems with semiconductor nanometers, micrometers on packaging and testing, and PCB level micro/millimeters to Pin/Pitch, I/O models, and thermals and electricity. By supporting various technical designs, Cadence helps customers shorten the design cycle to strengthen design quality and reduce costs.Sun also pointed to the vital importance of overcoming the significant challenge of designing silicon interposers for heterogeneous integration. Today’s EDA tools are capable of optimizing the design of complex structures including 5GAiP and HBM and are instrumental in aiding Taiwan’s semiconductor ecosystem players to quickly adapt to shifts in the evolving heterogeneous integration market.Heterogeneous Integration Enables 5G and AI speakers (L-R): Julian Sun, Product Marketing Director at Cadence, Dr. Yu-Hua Chen, Vice President, Carrier SBU, RD Division of Unimicron, Dr. C.P. Hung, Vice President of ASE Group, Leroy Liu, General Manager, Asia Headquarters, of Dialog Semiconductor (Germany), Dr. Shih-Chieh Chang, AITA Executive Secretary Designing AI chips is particularly difficult as semiconductor makers struggle with high costs and low yields, said Dr. Shih-Chieh Chang, AITA’s Executive Secretary. That’s why the chip industry now uses FPGAs for small-volume production of AI chips, which makes it easier to improve manufacturing yield through redundant design. For its part, AITA has formed a special interest group (SIG) to help form connections among the chip industry, academia and research institutes. The association’s goal is to build a platform for mass production of AI chips.To get involved in SEMI Taiwan Heterogeneous Integration related events, please contact Ula Huang, outreach senior specialist, at [email protected] Fang is a coordinator and Ashley Huang is a specialist in marketing and public relations at SEMI Taiwan.

On June 20, President Trump signed an executive order (EO) suspending the issuance of H-1B, H-2B, J-1 and L visas for applicants residing outside of the United States without an active work permit. The order took effect today and will be in force through the end of 2020. The suspension of H-1B and L-1 visas, in particular, likely will impact negatively the ability of U.S. companies in the semiconductor manufacturing supply chain and the broader technology community to recruit and retain global talent and to temporarily transfer international engineers and executives to support critical operations in the U.S.According to the administration, the issuance of visas for skilled temporary workers into the U.S. poses a “significant threat to employment opportunities for Americans affected by the extraordinary economic disruptions caused by the COVID-19 outbreak.” Although SEMI fully supports administration efforts to address economic disruptions and job losses caused by the pandemic, we believe blanket restrictions on high-skilled immigration will be counterproductive to government and industry initiatives supporting a broad-based economic recovery. Semiconductors are the foundation of all electronics and information technology (IT), enabling innovation and growth in countless other industries including medical devices and the IT solutions that enable remote work and the connectivity desperately needed in current economic times. Access to global engineering talent and the worldwide mobility of technology executives are central to supporting the industry’s efforts to contribute to economic recovery in fields ranging from healthcare and telecommunications to transportation infrastructure.The EO authorizes the Secretaries of State, Homeland Security and Labor to establish criteria for exceptions to the blanket ban, including employment categories that: are critical to the defense, law enforcement, diplomacy, or national security in the U.S. provide medical care to currently hospitalized COVID-19 patients provide medical research at facilities to help the U.S. combat COVID-19 are necessary to facilitate the immediate and continued U.S. economic recovery The Department of Homeland Security’s Cybersecurity and Infrastructure Security Agency (CISA) has classified workers in the semiconductor supply chain as essential to the effective operation of critical economic activity as the nation addresses the economic fallout of COVID-19. In lieu of rescinding the total ban on visa applications, SEMI urges the Secretaries to incorporate the CISA guidelines for semiconductor supply chain workers as they assess categories for application exceptions. SEMI will continue to advocate for programs and policies that enhance U.S. economic competitiveness, including immigration rules that ensure the U.S. can attract and retain the highest skilled talent from around the world without compromising employment opportunities for U.S. workers. As Senate Judiciary Chairman Lindsey Graham noted following the issuance of the EO, “Legal immigration is a positive for the American economy, and visa programs allowing American companies to secure qualified, legal labor throughout the world have benefitted economic growth in the United States.”Karl Kailing is manager of Public Policy and Advocacy at SEMI.

As the fight against COVID-19 presses ahead, many healthcare workers, especially those on the front lines, are being pushed to their limits and beyond to ensure our health and safety. To help doctors and nurses combat the virus, SEMI Taiwan mobilized six leading Taiwan semiconductor companies last month to donate personal protective equipment (PPE) designed for industrial operation to medical staff. The gear included powered air purifying respirators (PAPR), half facepiece respirators, head tops, protective coveralls, and air filter canisters.On behalf of the semiconductor industry, SEMI Taiwan worked closely with industry leaders and the government to deploy the direly needed resources to support the domestic medical community. The Taiwan Association of Medical Technologists accepted the donations in the ceremony attended by Taiwan CDC Deputy Director-General Chuang Jen-hsiang. The largesse is the result of public-private partnership to provide medical supplies to 35 hospitals and medical laboratories across Taiwan. Terry Tsao, Global Chief Marketing Officer and President of SEMI Taiwan, and six Taiwan semiconductor companies stepped up to help combat the coronavirus pandemic. TSMC Charity Foundation responded with PPE giveaways in March in a first wave of protective equipment donations to medical personnel. Before long, Vanguard International Semiconductor Corporation (VIS), ​​​​​​​​​​​Macronix, Micron, United Microelectronics Corporation (UMC), and 3M Taiwan also answered the call for more medical equipment for COVID-19 frontliners. Extending the Taiwan semiconductor industry’s rich tradition of making charitable contributions in the region, including financial assistance for emergency relief efforts, the companies donated more than 1,000 pieces of PPE after balancing the giveaway with inventory needs in their fabs. Fab workers responsible for machinery, raw materials, and other goods and gear used in semiconductor manufacturing wear the protective devices. One piece of equipment, powered air purifying respirators (PAPR), features a battery-powered that sends filtered air flowing into a hood or head top covering the wearer’s head or face to protect against respiratory hazards. In healthcare, PAPRs protect medical staff as they test blood and tissue samples for traces of COVID-19. Dr. N.S. Tsai, CEO of TSMC Charity Foundation, notes that respiratory protection equipment can offer integrated protection against multiple hazards and is comfortable for medical technologists working long shifts to wear. Medical facilities across Taiwan quickly depleted PPE supplies after the rapid response to the January outbreak by healthcare providers across the region led to quick containment. The PPE donations were critical in minimizing exposure risks to medical staff. The chip industry’s protective clothing and equipment offered another benefit: Medical technologists found the gear – designed to be worn over long periods in semiconductor manufacturing facilities – comfortable as they worked marathon shifts early in the COVID-19 outbreak. “Coronavirus testing requires a much higher level of protection than is needed in many healthcare settings,” said Chuang Jen-hsiang, the Deputy Director for the Taiwanese Centre for Disease Control (CDC) and the spokesperson of Taiwan Central Epidemic Command Center. “Medical technologists must work in a poorly ventilated labs for more than eight hours a day, causing sweating and damp heat. The high-performance PPEs provided by the industry help healthcare workers breathe more naturally without wearing a mask while greatly reducing infection risk in hot, humid environments.”For their COVID-19 response, Taiwan’s government and well-trained medical workers drew lessons from the SARS outbreak in 2003 to quickly activate emergency management structures to fend off the emerging threat – one that put the Taiwan semiconductor industry and its round-the-clock operations at risk.“Taiwan’s swift response to the COVID-19 was vital in preserving the business continuity that is the lifeblood of the semiconductor manufacturing,” said Terry Tsao, Global Chief Marketing Officer and President of SEMI Taiwan. “We are honored to do our part to support the heroes of this fight – the medical technologists on the front lines – as an expression of our great respect and gratitude for their extraordinary work.”SEMI Taiwan has long partnered with TSMC Charity Foundation to care for people in need, drive positive environmental and social changes, and support emergency aid in Taiwan. The goal our joint corporate social responsibility efforts is to warm the hearts of our people and build a better society.Irene Huang is a public relations and marketing specialist at SEMI Taiwan.

On Monday, SEMI led a statement from a coalition of industry groups calling on governments worldwide to harmonize their policies to safely allow essential international travel by essential workers. Cross-border mobility in the semiconductor and microelectronics industry is vital to maintaining manufacturing critical to the production of semiconductor devices that are the foundation of our modern economy, countless economic sectors and each nation’s response to the COVID-19 pandemic. Uniform cross-border travel rules impacting essential businesses in the electronics supply chain are crucial for semiconductor business infrastructure and supply chains to maintain effective operations.To that end, SEMI is urging governments around the world to permit international travel by semiconductor supply chain engineers, technicians and executives with minimal disruption to ensure any fast-tracked procedures apply directly to the semiconductor industry and that any agreements negotiated among countries harmonize global travel procedures and processes. Global supply chains require cross-border travel by key technical personnel and business continuity decision-makers to ensure that essential industry manufacturing and business operations remain efficient, effective and uninterrupted. While the industry continues to implement safety protocols and minimize non-essential travel to stem the spread of COVID-19, highly sophisticated equipment sets and materials usage from multiple nations will at times require specialized expertise that is not present in-country.For example, technicians from a semiconductor manufacturing equipment company typically must travel to semiconductor factories in other countries to install or repair specialized tools in situations that are beyond the expertise of the local field office and too complicated to handle by video conference. Similarly, at times semiconductor-based solutions, such as cloud computing, must be implemented or optimized on-site for the equipment to achieve full capacity. After months of remote access to their overseas operations, it also is critical that executives are able to visit their facilities to evaluate and manage their ongoing operations. In the past month, several countries central to the global electronics supply chain have engaged in both formal and informal talks to ease travel restrictions on personnel from essential industries. China, for example, is negotiating fast-track travel protocols with countries throughout Asia and Europe. On May 1, China and South Korea formalized an agreement that has made significant accommodations for semiconductor industry personnel to travel between the two countries. Last week, China and Singapore reached a similar deal – planned to take effect in early June – prioritizing travel for both executives and technicians.Beyond China, several ad-hoc negotiations are underway involving countries as varied as Taiwan, Vietnam, South Korea, Thailand, Canada, Australia and New Zealand. Multilateral discussions are also afoot with the aim of setting up bubble travel zones featuring standard health and travel protocols within the country blocs. As these disparate agreements between individual countries or small blocs of countries take shape, however, they are likely to create divergent standards that may complicate efforts of global businesses to effectively service their operations and customers, even if such travel is and has been deemed essential.In March, when U.S. states and many governments around the world began implementing stay-at-home orders and closing non-essential business operations, SEMI immediately took a lead role advocating to ensure that that the entire microelectronics supply chain was deemed essential and able to continue operations. In the U.S., nearly every state followed SEMI’s recommendation to adhere to the Department of Homeland Security’s Cybersecurity and Infrastructure Security Agency (CISA) guidelines that included semiconductor manufacturing and its supply chain as essential, or specifically highlighted semiconductor supply chains as essential. Overseas, SEMI advocacy worked to ensure the semiconductor supply chain was deemed essential in every key jurisdiction.The mobility of essential workers is critical to essential business operations in the electronics supply chain. Just as SEMI led the effort to ensure that critical electronics supply chain operations were deemed essential as economies were closing down, SEMI will continue to advocate for uniform essential travel guidelines for critical infrastructure workers as economies reopen. Karl Kailing is manager of Public Policy and Advocacy at SEMI.

During the COVID-19 pandemic, the SEMI Global Advocacy team has been working tirelessly to ensure the microelectronics manufacturing and design supply chain is classified as an “essential business” in the United States and for similar designations in several other countries so that SEMI member companies can maintain operations. Their efforts have included direct lobbying and letters to the governors of 16 states in the U.S., 23 European countries and several European Union officials across the continent, as well as government officials in Japan, Mexico and Malaysia. The bedrock of these efforts, and the reason they have been highly effective, is that our industry enables both modern digital infrastructure and technology critical in the fight against the virus.SEMI takes immense pride in highlighting the role of our industry in providing the building blocks for innovations that improve social and economic prosperity the world over. It is never more apparent that necessity is the mother of invention than during a crisis, and the pandemic has created a diverse range of demands for technological advancements to address the myriad of challenges it presents. Our SEMI Tech Spotlight blog series highlights some of the many ways that our industry and member companies are enabling technology employed on the front lines of this fight – and that we strongly believe will ultimately help to win it. Our first piece in this series focuses on platforms enabled by big data and artificial intelligence.Fighting the Pandemic with Big Data-AI Enabled PlatformsThe COVID-19 pandemic is testing humanity in unprecedented ways, but it is also uniting us to fight this crisis with the best weapons we have. Big data and Artificial Intelligence (AI) technologies – built with microelectronic chips and systems that generate, transmit, store and analyze data – are making a profound contribution to our arsenal for this protracted war. Big data-AI technologies are enabling platforms such as data analytics, robotics, augmented/virtual reality (AR/VR), 3D printing, and others that are already being applied to address many facets of this crisis.Big Data and Analytics Inform Policy In the fight against COVID-19, data analytics platforms are being used first and foremost to slow the rapid spread and to inform policy decisions. This requires analysis of massive amounts of data about public health and travel, often using AI algorithms. The state of California, for example, is partnering with companies such as BlueDot, Esri and Facebook to build a software platform that uses smartphones and location intelligence to track people’s movement and predict hospital needs. Taiwan owes its considerable success in limiting the spread of the virus to the extensive use of big data analytics for identifying and tracking carriers. Google and Apple are driving a joint effort that connects Bluetooth with their popular iOS and Android platforms to trace contacts of infected people. India has developed Aarogya Setu, a mobile app based on Bluetooth and location-mapping platforms, designed to alert citizens if they have crossed paths with another app user who has tested positive for the virus. This app was launched in 11 languages, and despite being entirely voluntary, it was downloaded by 50 million people in 13 days, making it the world’s fastest-ever to reach that number. Such contact-tracing apps, now being rolled out in at least 26 countries, carry inherent privacy and security challenges due to the sensitive data they access. While mitigation strategies like strict data anonymity and opt-in protocols are being implemented, these will need to be refined over time.Robotics Protect Frontline SoldiersToday’s robust robotics platforms are enabled by huge amounts of data from sensors and guidance from predictive AI algorithms. These robots can learn on the job, adapt to the environment, and work safely with humans. In this pandemic, they are perfect for minimizing human interaction with infectious environments. Companies around the world such as Boston Dynamics, Akara Robotics, UBTECH Robotics and CloudMinds have already deployed robots on the front lines of this war to assess patient health, disinfect hospital surfaces, and help health workers with Personal Protective Equipment (PPE).Robot drones are also delivering blood and other lab samples. For example, WakeMed hospitals in North Carolina launched the first drone delivery program approved by the U.S. Federal Aviation Administration with Matternet drones operated by UPS; while Terra Drone from Japan executed similar tasks in the hard-hit Wuhan province of China.3D Printing Speeds ManufacturingBig data-AI technologies enable 3D printing platforms by providing accurate 3D models for optimized designs and defect-free manufacturing. Low-cost, fast-cycle-time 3D printing has helped to alleviate at least some of the medical equipment shortages. For example, the U.S. Food and Drug Administration (FDA) has approved the first 3D-printed “Stopgap Face Mask” for liquid barrier protection from the SARS-CoV-2 coronavirus for healthcare workers. The U.S. Veterans Health Administration has developed this in collaboration with America Makes using an open-source database – the 3D Print Exchange from the National Institutes of Health. In another example, Formlabs worked with Northwell Health, New York’s largest healthcare provider, and University of South Florida (USF) Health to develop and test a nasal swab prototype over just one weekend, and it is now producing up to 150,000 test swabs daily. Prisma Health in South Carolina received emergency FDA authorization for VESper, a 3D printed device that allows a single ventilator to support two patients, and possibly up to four.Telehealth Becomes a “New Normal”Telehealth is not a new concept but is much enhanced by today’s microelectronics platforms that can collect and transmit rich datasets with very low latency. Further, rapid data analysis is increasingly supported by AI systems. The requirement for social distancing makes telehealth a perfect solution for many healthcare consultations. U.S. government data indicates that the daily average of telehealth claims from private insurance for upper respiratory infections increased nearly 12 times over the previous month from March 14 to April 1. Similarly, Teladoc Health coordinated 100,000 patient “televisits” in the week of March 8 – a 50 percent spike over the previous week, taking pressure off the healthcare system. The next generation of telehealth is likely to use AR/VR platforms, which use even richer datasets and AI to improve the accuracy and predictive capability of their underlying models. Consequently, these platforms can provide more realistic experiences and improved outcomes. At least 11 states in the U.S. are already working with AR/VR companies such as XRHealth and AppliedVR for primary care and many medical specialties. Accelerating the Search for a Vaccine or TreatmentThe way out of this pandemic depends on swiftly finding a vaccine and a treatment, ideally by fast-tracking the traditionally slow drug development process. Big data-AI technologies are at the forefront of such efforts globally, often using the most powerful supercomputers available. For example, researchers at the University of California, San Diego (UCSD) are using the Frontera supercomputer to build a complete model of the SARS-CoV-2 coronavirus envelope – a formidable task, requiring analysis of data from 200 million atoms and interactions between them. Researchers at Argonne National Laboratory are combining AI with physics-based models to search for a molecule that might disrupt the activity of the virus, a precursor to finding a treatment. Also, several companies around the globe such as BenevolentAI (UK), Gero (Singapore), Innoplexus (Germany-India), and Insilico Medicine (US-Hong Kong) are using AI platforms to accelerate the search for a solution. ConclusionUltimately, the success of technology is not measured by the number of bits and bytes or by the speed of algorithms. It is measured by every janitor who did not have to clean a hazardous surface because a robot did, by every doctor and nurse protected by a 3D-printed mask, and by every person whose life may be saved by the accelerated discovery of a vaccine or treatment. Big data-AI technologies, and the platforms they enable, are just coming of age – they give us hope that as they evolve in the future, we can use them to build a more resilient society and economy.Note/Disclaimer: The examples cited above are purely for illustration – they are neither comprehensive, nor intended to endorse any particular product or solution.The SEMI Smart Data AI initiative helps members realize full value in the intelligent future enabled by Big Data and Artificial Intelligence – including the large revenue upside, and the transformational potential for operational and supply-chain efficiency. For more information on the initiative, contact Pushkar Apte at [email protected] Manocha is President and CEO of SEMI. Pushkar P. Apte, Ph.D., is the Strategic Technology Advisor for the Smart Data AI Initiative at SEMI.

Japan’s Prime Minister Shinzo Abe declared a state of emergency for Tokyo, Osaka and five other prefectures[1] on April 7 in response to a startling increase of COVID-19 infections in the region’s cities in an uneasy moment for its domestic semiconductor industry. The declaration, effective through May 6, authorized the six prefectural governors to strengthen curbs on the spread of the virus and included guidance for citizens to stay home and restrictions on operations of non-essential businesses.With Japan supplying some 40 percent of the world’s chip production equipment and materials, the declaration stirred fears among semiconductor manufacturers that their uninterrupted operations – critical to sustaining the global industry – might be at risk. Japan Government Designates Semiconductor Industry as EssentialIn April 7 and 11 revisions to its Basic Policies for Novel Coronavirus Disease Control, the Japanese government allayed those concerns by designating semiconductor manufacturers essential businesses – a stark acknowledgment of the chipmakers’ vital role in combatting the novel coronavirus. The policy stated:“Among medical and manufacturing industries, we request the continuation of the following business operators in consideration of infection prevention: operators who are difficult to stop production line due to the characteristics of the equipment (such as blast furnaces and semiconductor factories); and operators who produce essentials (including important items in supply chains) for protection of the people who need medical care and support, as well as for maintenance of social infrastructure. We also request the continuation of the business operators who sustain medical care, the lives of the people, and maintenance of the national economy.”[2]SEMI Japan Reaches Out to Prefectures to Urge Essential Business Designation Equipment and materials shortages can halt production of an entire fab line and ripple through intricately connected global supply chains to stifle the production of end devices including the electronics critical to COVID-19 treatments. Electronic devices also play a central role in containing the virus’s spread by enabling artificial intelligence (AI), data analytics, digital communications, telemedicine, robotics, remote health monitoring, telecommuting, online shopping and other digital services.The essential business designation was explicit recognition that Japan’s semiconductor supply chain is integral to the global chip production ecosystem and worthy of the same protections the government has implemented for semiconductor companies. With SEMI members operating in Japan’s 47 prefectures, I sent letters to all prefectural governors three days after the second policy revision, urging them to apply the same designation, and the SEMI Japan team is following up to secure their support.SEMI Japan Encourages Government to Exempt Members from Travel Restrictions The Japan Foreign Ministry on March 31 raised to level 3 its travel advisory for 49 regions including the U.S., China, Taiwan and South Korea, encouraging Japanese citizens to avoid travel regardless of purpose to blunt the international spread of the coronavirus. SEMI Japan is working with the Semiconductor Equipment Association of Japan to urge the government to exempt semiconductor supply chain companies from the level 3 travel restrictions if they implement measures to prevent domestic infections and contagion in the visited regions. The exemptions would allow supply chain companies to install and service equipment at fabs – one key to maintaining smooth, uninterrupted operations.SEMI Supports Members with COVID-19 ResourcesSEMI international headquarters and regional offices are here to help you, our members. For more information on our webinars, surveys, best practices and other information designed to help you meet the challenges of the pandemic, please visit the SEMI Coronavirus Updates Resources page.[1] The six prefectures are Tokyo, Kanagawa, Chiba, Saitama, Osaka, Hyogo and Fukuoka.[2] Provisional translation by Ministry of Health, Labour and Welfare. Full document is available at https://www.mhlw.go.jp/content/10900000/000620733.pdf.Jim Hamajima is president of SEMI Japan.

The microelectronics industry entered 2020 with high hopes after a mixed 2019 that saw global semiconductor revenue fall 11 percent while innovators continued to drive impressive advances in 5G, IoT, artificial intelligence, quantum computing and other leading-edge technologies. Equipment sales were rebounding as the industry started to regain momentum. And then COVID-19 sent disruptions rippling throughout the global supply chain. Semiconductor manufacturing facilities scaled back operations. Parts shortages became a problem. Logistical challenges emerged. And, all the while, many workers retreated to their homes under lockdown.The virus forced the industry, en masse, to pivot like never before to ride out the pandemic. This is the most challenging situation that I have experienced in my nearly 40-year career. All of us in the microelectronics industry have dedicated ourselves to rise to the occasion and help others. Among our efforts, we are providing resources to support SEMI members and the industry. Today, we can take heart that manufacturing firms in China are restoring normal operations. SEMI hosted a webinar on March 26 where our colleagues at McKinsey Company shared insights on China as it begins its recovery as well as the broader impact of the pandemic on the microelectronics manufacturing and design supply chain. You can read about McKinsey’s insights in a recent SEMI blog.In my closing remarks at last month’s webinar, I asked the industry to donate masks, gloves and additional personal protective equipment (PPE) to support our overwhelmed healthcare systems. The battle against the virus rages on around the globe. These donations will help people, businesses and whole economies to heal and recover.I am proud of how generously the microelectronics industry has donated these supplies that, in ordinary times, contribute to the meticulously controlled environments of our industry’s manufacturing facilities, but today can help save lives and bring the pandemic to heel. I ask companies across the supply chain to please explore how you can contribute to this effort. Donation information is available on our Coronavirus Resources webpage under Medical Needs Supply Matching Sites. It’s great to see SEMI members help combat COVID-19, and we are highlighting some of their efforts in news stories and blogs on our Coronavirus News and Blog webpage. We encourage you to submit your story.We know our members are hungry for more COVID-19 insights to help guide their way as uncertainty persists. SEMI is offering a follow-up webinar with McKinsey Company – The Way Forward from COVID-19 – on Thursday, April 23rd from 7:30am to 8:45am Pacific Time. Then, on Thursday, April 30th from 8:30am to 10:30am Pacific Time, the SEMI Americas team will host the virtual forum Semiconductor Outlook—Navigating through Turbulent Times. Bank of America Merrill Lynch will provide an update on semiconductor stocks, IHS Markit a market outlook, and VLSI Research the latest on COVID-19’s impact on the semiconductor industry. The goal of these events is to help you, our members, make more informed business decisions. We look forward to your participation and ask that you please submit questions so that the events are more meaningful for you.We have also added more resources to our SEMI Responds webpage, which lists best practices for company policies, public communications and telecommuting from our Environment, Health and Safety (EHS) and Information Technology Leadership (ITL) groups. The page now includes member survey insights from our Fab Owners Alliance (FOA) and Electronic Materials Group (EMG) on COVID-19 impacts to those communities, along with steps members are taking to maintain business continuity and ensure that their facilities remain safe. A big thanks to members of these groups for participating and sharing learnings with the industry at large. Sustaining operations across the industry has been the focus of work by the SEMI Global Advocacy team the past few weeks. It has continued to lobby for the microelectronics industry to be classified as an essential business in the United States and for similar designations in other countries. Those efforts included a SEMI Americas request for the government of Mexico to designate the semiconductor manufacturing supply chain an essential business, consistent with U.S. guidelines, to help avoid disruptions to the North American semiconductor industry. SEMI Europe sent 22 letters to officials across the continent, three of them to the European Commission, urging governments to allow continuous operations of the semiconductor industry. SEMI Japan has been closely engaged with the central government and sent letters to many Japanese prefectures stressing the critical importance of continuing operations.I am truly proud of how the SEMI team has stepped up around the globe to proactively communicate and support our members with relevant information and best practices related to the pandemic. The outcome of our letters to governments around the globe to seek essential business status has generally been very positive.SEMI also continues to oppose unilateral U.S. export controls that will compromise the ability of the U.S. to export semiconductor manufacturing equipment and materials, as highlighted in a recent Reuters article.SEMI advocacy efforts epitomize our overarching approach to the pandemic: We remain squarely focused on supporting our members during these turbulent times while continuing to lay the groundwork for the industry’s prosperity. Ajit Manocha is President and CEO of SEMI.

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.

Hello SEMI members:First and foremost, I hope this finds you all healthy and safe. With new developments emerging every day on the COVID-19 coronavirus outbreak, we want to make sure you’re aware of the resources that SEMI is making available to your business, and many others in the electronics manufacturing and design supply chain, to help you navigate through these tumultuous times. Our SEMI Responds webpage lists best practices for company policies, communications and working from home, based on recent calls with members led by our Environmental Health and Safety (EHS) and Information Technology Leadership (ITL) groups. The EHS section provides tips on facilities and meetings, employee policies, business travel and communications, while the ITL section lists insights on computing hardware for staff, licensing, networks, security and employee policies. SEMI greatly appreciates the invaluable member input. Our goal is to help our member companies make informed business decisions during these highly challenging and uncertain conditions, and your contributions to this effort will benefit the industry as a whole. I am pleased to announce that SEMI has partnered with McKinsey Company to provide an additional source of information: a joint-webinar – COVID-19 Insights: Microelectronics Industry Impact and Best Practices – on Thursday, March 26 at 4pm PT. We will present insights gathered through SEMI member surveys and other industry outreach along with the latest expert data from McKinsey Company to help guide your business continuity plans. Click here to register.The SEMI Global Advocacy team has been evaluating how government responses to the outbreak will impact the industry. In the U.S., the team sent letters to 16 state governors last week to request the classification of the semiconductor industry as an “essential business” so that operations can continue if states institute “shelter-in-place” orders. The letters note that SEMI members are “employing all measures necessary to maintain the health and safety of their employees as they maintain continuous operations critical to the industry” based on the input of participating companies.As for SEMI events, I want to reassure you that SEMI continues to make the safety of our members, exhibitors, visitors and employees our top priority. We continue to track COVID-19 developments worldwide and advisories from the World Health Organization (WHO) and the U.S. Centers for Disease Control and Prevention (CDC). We are also working with our regional offices to engage with industry contacts for inputs, and SEMI has postponed or cancelled several of our major events including: Canceling SEMICON Korea 2020, which was scheduled for February 5-7 Postponing SEMICON China 2020 from March 18-20 to June 27-29 Postponing ISS Europe 2020 from April 1-3 to September 1-3 Postponing ASMC 2020 from May 4-7 to the week of August 23 (still finalizing) Postponing SEMICON Southeast Asia from May 12-14 to August 11-13 If plans for any other upcoming events change, SEMI will immediately notify event exhibitors, visitors and speakers. You can find the latest information on changes to our event schedule on our Coronavirus Status Updates webpage. SEMI is working to help our members continue to connect and do business in the interim. For example, our Standards team is hosting virtual meetings for task forces, and we are exploring other virtual events and ways to keep the lines of communication open. I have challenged the SEMI team to think outside the box and will keep you posted as we make new services available.In the meantime, SEMI continues preparations for later events with laser-sharp focus and determined intent to help spark the industry to reignite business growth and meet pent-up demand. The first major rescheduled event is our largest, SEMICON China in Shanghai. You have probably heard news on some of the positive signs coming out of China. You can read about some of these developments in this blog post from the SEMI China team, which has been in close contact with key exhibitors, domestic suppliers and large multi-national corporations that have confirmed that they will participate in SEMICON China based on the current outlook. We are determined to help the industry return to growth. For the first time we will feature an IC Design Pavilion at SEMICON China to help our traditional semiconductor manufacturing members form more connections across the microelectronics supply chain.In the U.S., this year is proving how quickly everything can change. While the immediate future is steeped in uncertainty, we are diligently assessing current conditions while planning for SEMICON West 2020 in San Francisco from July 20-23, though the event dates are subject to change. SEMI is monitoring the COVID-19 containment efforts closely, and we will keep you informed of any changes in plans.In closing, I want to provide a brief reminder that SEMI members should be proud of the roles your companies have played in enabling the technology that will beat the COVID-19 coronavirus. The most powerful supercomputers in the world are helping in the push to develop a vaccine, and these machines would not exist without countless innovations from SEMI members over our 50-year history. The team at SEMI is proud to serve you all and is absolutely committed to doing all that we can to help the industry rise to meet this newest challenge. Sincerely yours,Ajit ManochaPresident and CEO, SEMI