Tokyo Electron

Tokyo Electron has implemented various programs and initiatives aimed at helping veterans find meaningful employment opportunities and providing them with a supportive and inclusive work environment. TEL is a founding member of the SEMI Foundation’s VetWorks working group.

SEMI Korea’s efforts to recruit talent and increase diversity, equity, inclusion (DEI) to help meet the semiconductor industry’s current and future workforce needs are growing in importance as the industry presses ahead to recruit skilled workers.

Many SEMI members have long looked to the military as a rich source of talent, and many veterans and active reservists have been employed in the microelectronics sector for years. The April 2022 issue of GI Jobs featured an interview with West Point graduate and TEL President Larry Smith.

Today, AI algorithms are primarily run at large data centers-- in the cloud. For this intelligence to be used at the edge, data must be transmitted to the cloud, analyzed there, and the results transmitted back to the field of operation, such as a mobile phone, medical implant or autonomous vehicle.

The SEMI Smart Manufacturing Americas Chapter, a key driver of the Global Smart Manufacturing Initiative, accelerates awareness of digital and data-driven strategies and implementations to help speed adoption of smart manufacturing. In 2021, the Chapter will focus on expanding its work across the industry to include academic and research initiatives. The semiconductor industry saw an unprecedented focus on improving digital monitoring of manufacturing activity in 2020, partially due to COVID-19. The Americas Chapter shared case studies on new tools and techniques for social distancing in fabs, aides for remote maintenance, and tips for remote workers. The Chapter also introduced its three pillars of Sensing, Connecting and Predicting and offered related programs. The Global Smart Manufacturing Conference (GSMC) highlighted the significance of universities and research institutions in the development of smart manufacturing with their focus on joint research for broad dissemination. To help drive smart manufacturing advances, at GSMC several offered non-proprietary tutorials on topic including the following: Integrating sensors for acquisition – CEA-Leti Applying new AI and ML tools and strategies to manufacturing – Binghamton University Digital tools for planning, qualifying and management and scheduling in fabs – MINES Saint-Étienne. Adding AI tools to robot work in a smart factory – KAIST Institutes By continuously highlighting the activities of these and other institutions through presentations, interviews, articles and blog posts, we will draw more attention to what is on the horizon for smart manufacturing in 2021. The SEMI Smart Manufacturing Americas Chapter also plans to elevate activities important to the Outsourced Semiconductor Assembly and Test (OSAT), Surface-Mount Technology (SMT) and Printed Circuit Board Assembly (PCBA) segments of the industry including programs on inspection, traceability and the SEMI SMT-ELS Standard for SMT automation. Thurston Taylor, marketing expert at Tokyo Electron and Vice Chair of the Americas Chapter, notes that “With increasingly more demanding requirements for bump, assembly and test, smart manufacturing and applied data science are necessary to achieve back-end goals now and in the future.” Also, many companies are implementing smart manufacturing applications and assessing various strategies to increase their smart manufacturing capabilities. Members of the Americas Chapter plan to review and develop self-assessment documents and maturity models that apply to front-end wafer fabs all the way through packaging and assembly facilities. “Moving forward it is imperative for all of us to up the intensity on specific ROI vectors such as quality, cost, productivity, sustainability and safety leveraging our smart manufacturing SEMI framework of Sensing, Connecting and Predicting,” said noted Bobby Mitra, worldwide director of Smart Manufacturing at Texas Instruments and Americas Chapter Chair. “By offering special flagship events, invited talks, ROI case-studies and ROI criteria in maturity models, we’ll bring high value to the smart manufacturing industry.” Chapter members also will begin mapping the skills needed to implement and support increasingly digital manufacturing capabilities, including any new skill sets, to help companies develop their hiring, training and management strategies. The mapping effort aims to support companies in building a strong pipeline of employees who can efficiently manage and operate smart manufacturing facilities. For its part, the Americas Chapter’s Go Green Subcommittee will focus on applying smart manufacturing technology to reducing the electronic industry’s carbon footprint by accurately tracking energy waste improving overall fab efficiency. Stay tuned for details on activities planned for our chapters in Europe, China, Japan, Korea, Southeast Asia and Taiwan. To learn more about each chapter and how to get involved, please visit the SEMI Smart Manufacturing Hub and sign up for our newsletter. Ayo Kajopaiye is senior project coordinator, Collaborative Technology Platforms, at SEMI.

SEMI spoke with Eyal Shekel, senior vice president of Service Strategy and Excellence at Tokyo Electron Limited, about the impact of artificial intelligence (AI) on smart manufacturing and how other fab solutions for smarter process tools are advancing semiconductor manufacturing.Eyal shared his views ahead of his presentation at the SEMI Fab Management Forum, 17 February, as part of the SEMI Technology Unites Global Summit, 15-19 February 2021, an online event. Join us to meet experts from Tokyo Electron and other key industry influencers. Registration is open. SEMI: AI technology is considered a key enabler for smart manufacturing. What are the latest trends? Shekel: The advent of advanced nodes and extreme complex 3D semiconductor geometry has lengthened time to market and increased costs in areas ranging from equipment development and large-scale metrology usage to monitoring yield inhibitors.AI is becoming a critical tool in the area of material informatics to determine suitable materials and processing techniques in order to meet the needs of future devices. Together with new materials and processes, the development and implementation of virtual metrology will enable accurate and almost absolute real-time monitoring of our customers’ device wafers at each stage of the manufacturing process.SEMI: What are the benefits of data analysis in the process from R D and Ramp-Up to High-Volume Manufacturing? Shekel: The new research field of materials informatics enabled by AI provides tools to guide the highly efficient discovery and optimization of production processes. For example, TEL has developed methodologies for co-optimizing processes and materials for etch rates.To monitor and manage the yield of semiconductor fabrication processes, direct metrology measurements are important. However, it is difficult to monitor all production wafers due to the time and cost involved. With deep learning AI, it is now becoming possible to predict every wafer’s metrology measurements based on production equipment data and previously processed wafer metrology variables. This enables total quality management and run-to-run control, while simultaneously reducing production costs and cycle time.SEMI: Can you tell us more about TEL Service Advantage?Shekel: TEL Service Advantage is a TEL global support organization that allows customers to select a service plan that fits their needs. Through TEL Service Advantage, we can quickly respond to customer requests and technical advancements. TEL Service Advantage provides various plans to maximize equipment maintenance efficiency for customers and productivity from equipment manufactured by TEL. TEL Service Advantage plans can be combined to meet customer needs and achieve maximum results.A key enabling element of TEL Service Advantage is TELeMetrics™. TEL analyzes equipment data from various sensors using a remote connection and, based on that analysis, provides solutions to customer-specific problems around equipment throughput and predictive maintenance.SEMI: How is AI helping during the pandemic? Can you share a success story? Shekel: The pandemic forced severe travel restrictions worldwide, making it very difficult or even impossible in many cases to visit our customers, as it is still the case today. Standard communication devices like smartphones and email helped at the beginning when TEL intensified the remote support by our Total Support Centre (TSC).TEL continued to develop its Service Advantage program quickly, and started using additional advanced tools and methodologies such as the following: Deployed AR (Augmented Reality) to remotely assist our customer and TEL engineers Secured remote connections into TEL tools to investigate parameters and logs, or to change set-up Used remote training courses that connects trainers via video conferencing systems and training tools in the factories to skill up engineers located in a different parts of the world Used AR glasses for tool start-up and troubleshooting Expanded TEL database global technology with multi-tool on languages search capabilities A key project at a customer site in Europe offers an excellent success story. Using all the approaches above, we collaborated with the local team to put a tool into production with no major delays. This was highly appreciated by the customer and very important for us.SEMI: What do you predict for the future? Shekel: Global technology infrastructure continues to develop and expand rapidly. Elements like 5G networks, IoT and advanced sensing capabilities will lead to what we call General AI, which will be based on neuro-like infrastructure. The auto learning will spread across domains and rely on internal logic and reasoning to automate many tasks that are manual today. In our industry in particular, General AI will enable workers to focus more on data analytics and future advanced R D rather than ongoing operations.SEMI: How can technology unite us? What do you expect from your participation at SEMI Technology Unites Global Summit?Shekel: Technology united us in the last 150 years. The connectivity started with telegraph and telephone and was used to exchange information over wider distances. Nowadays, video conference capabilities, AR and improving communications technology makes it much easier to unite people who are geographically dispersed. This becomes obvious and valuable especially during this pandemic period. As a fact, we are able to continue to perform all our key activities – our tool support, training and customer relationships – even if we cannot be present in person.The SEMI Technology Unites Global Summit is a great chance to stay connected to people and customers that I would normally meet at the SEMICON exhibitions.It also offers the opportunity to network with many more people who I would not be able to meet otherwise. Moreover, I can watch speeches and presentations at any time! Normally I would miss some programs since exhibitions and events took place at the same time.Eyal Shekel, senior vice president of Service Strategy and Excellence at Tokyo Electron Europe Limited, is a 27-year semiconductor industry veteran. Upon his graduation as a Mechanical Engineer from the Technion (Israel leading technical institute), he joined Applied Materials. In 1997 he moved on to Tokyo Electron (TEL) in Europe, served as the Regional Service Manager of Israel and, soon after, was appointed the company’s General Manager. Since 2005 Eyal has been part of TEL Europe senior management. He oversaw the Service and Support Operations for TEL Europe as a senior vice president until 2019. In his current role, he co-leads TEL’s Global Service Committee in Japan.The SEMI SMART Manufacturing Initiative is a global effort to promote awareness of and interest in smart manufacturing with a focus on delivering industry-recognized best-in-class programs and services to enable members to maximize product quality and productivity while reducing costs. Activities are focused on building out core capabilities to enable smart manufacturing across the microelectronics supply chain. MADEin4 is a consortium of 47 partners from 10 countries connecting the full range of supply chain – from semiconductor equipment manufacturers and system-integrating metrology companies to RTOS and key applications such as the automotive industry. The MADEin4 Project develops next generation metrology tools, machine learning methods and applications in support of Industry 4.0 high-volume manufacturing in the semiconductor manufacturing industry. Serena Brischetto is senior manager of Marketing and Communications at SEMI Europe.

If you think the world is flooded with a mind-boggling volume of digital content, then you might be just a amazed to learn about the sheer wealth of information and business opportunities that will be uncovered at this year’s SEMICON Japan as the event goes full digital.To start, more than 160 companies will exhibit their semiconductor manufacturing gear and services on the virtual show floor of Japan’s premier event for the semiconductor manufacturing and design supply chain. Add to that over 80 presentations and panels that feature global industry executives, visionaries and experts offering insights into the latest microelectronics developments, trends and technologies, and it’s easy to see how SEMICON Japan 2020 Virtual is designed to help attendees grow their businesses and the industry drive the next wave of innovations that promise to address some of the world’s greatest challenges across healthcare, the environment, transportation and other industries.Best of all, it will all be available at your convenience from your office or home 24 hours a day, making it safe and easy for you and others from all over the world to attend. Following is what’s in store at SEMICON Japan 2020 Virtual to help lead you into the future.Leading Japanese Securities Analysts to Weigh in What’s Ahead for the Chip Equipment Sector in 2021 For the first time, SEMICON Japan will feature Bulls Bears as Japan’s’ five top securities analysts focus on the 2021 outlook for the global semiconductor equipment sector. The December 17th event will include discussions on the COVID-19 pandemic’s impact on the semiconductor industry, the continuing geopolitical tensions that are forcing the industry to reconfigure its supply chains, the fast-growing China market and cutting-edge applications that are powering industry growth. The perspectives from Japan’s investment community are sure to be compelling as the region supplies one-third of the global semiconductor industry’s chip manufacturing equipment.Moderated by Akira Minamikawa of OMDIA, the panel will include these experts:Three Visionaries to Explore the Digital TransformationPowered by semiconductors, the fourth industrial revolution is driving digitalization globally, remaking societies to bring more efficiencies and conveniences to our work and home lives and help more people prosper. But the flip side of those tremendous benefits is the risk that wealth will be concentrated in the hands of people in positions of power, companies and nations. Democratizing economic development remains a serious challenge worldwide.Addressing this pressing issue, the Opening Panel on December 11 will feature prominent visionaries from political, academic and industrial communities including the following:Sony’s Leading-Edge Electric Car and Nissan’s Driver Assistance System to Highlight Automotive InnovationsCars are becoming more like smartphones on wheels, rapidly filling with more and more semiconductor chips every year with electrification and electronic driver-assisted systems to key drivers of this growth. At the SMART Mobility 1 session on December 14, two pioneering companies – Sony and Nissan Motor – will focus on both areas of semiconductor innovation.Sony’s Vision-S concept car, exhibited at CES 2020, astonished many in the electronics ecosystem and the automotive industry. What is Sony’s vision behind the vehicle? Izumi Kawanishi, Senior Vice President, AI Robotics Business at Sony will share the latest on the initiative.Nissan, maker of the pioneering LEAF electric vehicle, is the first Japanese carmaker to equip a car – its new Skyline – with the ProPILOT 2.0 driver assistance system for hands-off highway driving. Nissan Executive Vice President Asako Hoshino will provide an update on the company’s driver assistance system strategy and plans.Quantum Computing Meets Chip Manufacturing for the First Time at SEMICON Japan In contrast with current computer systems that use bits (binary 0 or 1 state) for computing, quantum computers leverage quantum superposition (0 and 1 states exist at once) to quickly solve highly complex problems that might take traditional supercomputers hundreds or even thousands of years to tease out. American physicist Richard Feynman promoted quantum computer as early as 1982, but it wasn’t until nearly two decades later and long after his death that quantum bit circuits emerged for use in superconductive materials.With quantum circuits and devices requiring state-of-art semiconductor processing technology, The Era of Quantum session on December 15 at SEMICON Japan 2020 Virtual will discuss necessary advances in chip manufacturing technology to enable the next generation quantum computing. The session will be the first time SEMICON Japan connects the semiconductor manufacturing and quantum computing communities.The program will feature the following experts:Strategies for Sustainable Semiconductor Industry GrowthSemiconductors are giving rise to a hyper-connected world that is fueling demand for staggering volumes of chips, pressuring the electronics industry to uncover new ways to increase manufacturing efficiency while reducing power consumption in a bid to help combat climate change. The Grand Finale Panel composed of executives from Japan’s semiconductor supply chain and a supervising ministry will gather for the Grand Finale Panel on December 18 to discuss ways the industry can achieve sustainable growth through innovation with a focus on energy savings and an new process technologies such as extreme ultraviolet lithography (EUV), which promises to enable electronics devices that are more power powerful, cheaper and more energy-efficient.Panelists include the following:Register TodayThe SEMICON Japan 2020 Virtual All-In Pass provides online access to all 80 presentations and panels, which will be available on-demand for replay until January 15, 2021. What’s more, all eight keynote programs will feature English subtitles. For complete information of the exposition, programs and registration, visit the SEMICON Japan website.I look forward to seeing you virtually at the event!Jim Hamajima is president of SEMI Japan.

Tracking and quickly diagnosing COVID-19 infections, working from home and telemedicine recently came into sharp focus as technology executives and other subject matter experts from microelectronics heavyweights recently gathered for the first-ever virtual SEMI CTO Forum to explore how the microelectronics industry and their own companies can leverage future technology trends to drive growth. Themed Intelligent Medtech and Wearable Technologies, the forum drew CTOs from ARM, Babblelabs, Brewer Science, Dell, Dow/Dupont, E-Ink, Hewlett Packard Enterprise, Intel, Lam Research, KLA, Microchip, ON Semiconductor, Qualcomm, Tokyo Electron, Ulvac, Veeco and Xilinx. The event is designed as a strategic driver of pre-competitive innovation. Following are key takeaways from the forum. Microfluidics Promises to Speed COVID-19 Diagnosis More than 240 companies worldwide are developing microfluidics solutions to improve diagnosis and treatment of COVID-19 and other conditions, said forum speaker Dr. Kurt Petersen, a member of Band of Angels, Silicon Valley's oldest angel investment group, with an illustrious background1 in technology. And their innovations are bearing fruit. Cepheid, a company founded by Dr. Petersen, has developed a disposable microfluidic cartridge, Xpert Xpress SARS-CoV-2, used by doctors to swab the inside of a patient’s mouth. Highlighting the vital role of MEMS in medical electronics, the tiny powerful devices are behind a test that can detect COVID-19 infection in under 40 minutes. Dr. Petersen also cited a few examples of implantables and injectables under development, including: In vivo chemical sensing: Profusa developed a continuous glucose monitoring sensor via an optical patch. Glaucoma pressure monitors: Injectsense built a silicon chip the size of a grain of rice that is embedded in the eye to measure eye pressure. Retinal implants: Second Sight implanted a 60-electrode array chip that projects images onto the retina to improve vision. Microelectronics Takes Aim at Battling COVID-19 The event’s CTO roundtable, a platform for discussing societal and technology issues, revealed microelectronics technology will likely give rise to solutions for combatting pandemics and new business opportunities both in the short and long run. Areas of the greatest interest included: Tracking and Security: Infection tracking accuracy is key to limiting the spread of viruses yet comes with inherent privacy and security challenges. The consensus view of the executives was that developing trusted hardware capabilities is critical for adoption of accurate infection-tracking technologies. Remote Operation: Executives expect working from home or the use of telehealth to continue building momentum long after pandemic. To give staying power to the remote communications at the heart of these trends, microelectronics ecosystems will need to boost compute performance, both at the edge and in the cloud, while increasing bandwidth to enable applications such as augmented reality/virtual reality (AR/VR), artificial intelligence (AI), machine learning and advanced data analytics. Edge intelligence: The challenge of remote communications spans both people and the Internet of Things (IoT). Questions persist about how hundreds of billions of sensors will connect to the cloud and how much power they will consume. The need to push computing to where data is generated – at the edge – is rising and the necessary underlying technologies will only come by combining various forms of distributed computing and analytics. The microelectronics industry’s ability to seize these opportunities will only be possible with huge strides in innovation, raising concerns among the CTOs about the financial viability of cutting-edge devices because of increasing device complexity and R D costs. Technology partnerships and collaborations – an area where SEMI is contributing and will continue to expand its efforts as it works with the CTO community – will be critical to containing R D costs. SEMI will help the executives identify and mobilize the resources key to future innovation. Improving Home, Work Productivity and Experiences Key to AR Adoption Smart wearables also offer great promise. In just over a decade, AR and VR have grown from science fiction to practical uses such as AR applications for smart contact lenses, said Dr. Mike Wiemer, Co-Founder and CTO of Mojo Vision2. Dr. Wiemer said that while many AR applications remain under development, the technology will only see widespread adoption once it starts to improve productivity and efficiency at home and work and the quality of other experiences. The smart augmented reality contact lens developed by Mojo Vision is a step in that direction. The product’s built-in display gives users timely information about everything they see while remaining invisible by packing 70,000 pixels into a space smaller than a half a millimeter across, making it the smallest and densest dynamic display ever made. The contact lens is powered by an ARM-based processor, with later versions adding an image sensor, eye-tracking sensors and a communications chip. SEMI thanks EMD Performance Materials and Telit for sponsoring the CTO Forum. For more information on the CTO Forum and SEMI’s Smart Data-AI initiative, please sign up on our webpage. 1 Dr. Kurt Petersen is a member of the National Academy of Engineering, an IEEE Medal of Honor winner, and a Life Fellow of the IEEE for his contributions to the commercialization of MEMS technology. 2 Dr. Wiemer also co-founded Solar Junction, where he led technical teams to two world records in solar cell efficiency (43.5% and 44%). He also has patents and papers in Semiconductor Devices Applications, Silicon Photonics, Materials Integration, Lasers, Solar Cells, Solar Systems, and Analog Circuits. Tom Salmon is Vice President of Collaborative Technology Platforms at SEMI. Pushkar P. Apte, Ph.D., is Strategic Technology Advisor for the Smart Data AI Initiative at SEMI.

Once an unpopular career destination for university graduates in Korea, the semiconductor industry has been a plum target since the rise of Samsung Electronics and SK Hynix as global leaders and key growth engines for the Korean economy. The industry’s outsize role in innovation of cutting-edge technologies and applications such as artificial intelligence (AI), Internet of Things (IoT), 5G and autonomous driving has added to the appeal.The draw of a career in chip manufacturing is even stronger when new graduates from Korean universities consider the semiconductor industry’s rapid growth of 22.2% in 2017 and 15.5% in 2018, according to VLSI Research. Yet, even before earning their degrees, many students are unclear about steps they need to take to prepare for a career in the industry and the type of work available to them.These questions and concerns were on the top of the minds of 250 students who gathered at COEX in Seoul in mid-November for SEMI Campus Outreach, a half day of career insights from global chip companies including Lam Research, Applied Materials, Tokyo Electron, and KLA along with leading semiconductor companies in Korea such as SEMES, EO technics, JUSUNG ENGINEERING, DONGJIN SEMICHEM, PSK and Wonik IPS. Keynote - Inhak Harry Suh, CEO, Lam Research Korea 250 students gathered at Campus Outreach Campus Outreach keynote speaker Inhak Harry Suh, CEO of Lam Research Korea, stressed that talented new graduates hold the key to leading the semiconductor industry into the Industry 4.0 era and the next phase of growth. He urged the students to look for a company that treats its employees with respect and fairness and to enjoy their work. Joining the executives in inspiring the students, field and service engineers highlighted the semiconductor industry’s strong growth potential, described their job responsibilities and the skills students need to develop to thrive, and offered guidance on subjects to study in school to best prepare students for jobs in the industry. On the recruiting side, human resources representatives at the event provided overviews of their companies and skills they’re looking for as they court talent. Campus Outreach sponsors At SEMICON Korea 2020 – Feb. 5-7 at COEX in Seoul – SEMI will continue to cultivate industry talent at the Workforce Development Pavilion. To help the industry solve its critical talent shortage, the pavilion will offer university students interviews with industry experts and tutorials on semiconductor production as the students explore career paths and are mentored by engineers during the Meet the Experts program. And with a diverse workforce recognized as a competitive advantage, the Women-in-Technology session will gather leaders to discuss how the industry can improve diversity.Jaegwan Shim is a marketing specialist at SEMI Korea.

Famous for its warmth and hospitality, Japan always welcomes visitors from around the world with a gracious embrace. But when is the best season to visit? It depends on the interest of each visitor of course. For Instagrammers, the April cherry blossoms or November autumn leaves – a masterpiece of art with their rainbow gold, red and yellow hues – are ideal for snapping memorable pictures. For foodies, winter delights with tuna, toro sushi and other seafood at their tastiest. Wagyu peaks in richness, too, when the cold weather sets in. For anime and manga enthusiasts, August is definitely the time to visit. That’s when COMIKET, the world’s largest comic market – drawing more than a half million people – takes place in Tokyo. But for people in the electronics value chain, the perfect time to pack their bags and hop a flight to Tokyo is December, when SEMICON Japan – December 11-13 at Tokyo Big Sight – opens its doors with its own form of hospitality.Why should you attend? Here are the five top reasons.Reason 1: Japan is home to leading electronics industry suppliersAccording to VLSI Technology, seven of the top 15 semiconductor equipment suppliers in 2018 are headquartered in Japan, and many Japanese companies also lead backend equipment segments. For decades, Japanese companies have supplied about one third of the equipment for the global semiconductor equipment industry, according to SEMI and the Semiconductor Equipment Association of Japan (SEAJ). Most of these companies typically set up a booth on the SEMICON Japan show floor to welcome your visit.True, many Japanese suppliers also exhibit at SEMICON shows outside of Japan to meet with customers. But you will find many more engineers, managers and executives of equipment suppliers on their home ground at SEMICON Japan, where suppliers typically debut new equipment. Their booths are also ideal locations for visitors to meet with suppliers to ask questions, exchange opinions and negotiate new business deals.Japanese materials suppliers enjoy an even larger market share, providing about half the materials for the global semiconductor industry. These suppliers dominate in silicon wafers, photomasks, photoresists, sputtering targets, packaging substrates, bonding wires, leadframes, mold compounds and wafer level packaging dielectrics. Unlike equipment suppliers, not all materials companies exhibit. Instead, many participate as speakers and attend to connect with customers.Reason 2: Get ready for the next semiconductor industry upturnA year ago, in late 2018, we expected chip inventory to stabilize by mid-2019, yet the industry still struggles with high inventory overall and low average selling price for memory. The SEMI 2019 equipment billing forecast was lowered accordingly from -4.0 percent growth (2018 year-end forecast) to -18.4 percent (2019 mid-year forecast). However, the two forecasts still predict positive growth in 2020. As SEMICON Japan 2019 is underway, we should be at the beginning of the next upturn.The chart below shows that more wafer process fabs will start construction in 2020 than this year. (Please see article: Nearly $50 Billion in Fabs to Start Construction in 2020.) Custer Consulting Group also pointed to “a resumption in semiconductor chip and capital equipment growth in late 2019 or early 2020.” (Please see article: Semiconductor Industry Upturn by Early 2020?.)With better times ahead, SEMICON Japan 2019 will be an opportune time to exchange opinions with key players across the supply chain and start negotiations for the coming robust recovery of the equipment, components and materials markets.Reason 3: Glimpse the future at SuperTHEATERSEMICON Japan SuperTHEATER will feature industry and technology insights from global visionaries. Asako Eda, Japan’s chief representative officer of the World Economic Forum and the former president of Intel Japan, will open the SuperTHEATER with her keynote on how we live in an era where the fourth industrial revolution, climate change, disparity and geopolitical risks are affecting our lives and with the speed we have never experienced. She will explore the growing role of innovation and social responsibility and how the World Economic Forum is addressing associated challenges. The opening keynote session will also feature Nandan Nayampally, vice president and general manager of the Immersive Experience group at Arm.In all, the SuperTHEATER will host seven keynote forums over three days at SEMICON Japan including: Semiconductor Executive Forum – Terushi Shimizu, representative director and president of Sony Semiconductor Solutions, and Atsuyoshi Koike, president of Western Digital Japan, will discuss their business strategies and prospects. Manufacturing Innovation Summit – Executives from Applied Materials, KLA, Nikon and Tokyo Electron will discuss business and technology issues as well as innovations that will drive growth to 2030. All seven SuperTHEATER programs will be simultaneously translated to English for international audiences.Reason 4: Connect to application communitiesCollaboration across the value chain has never been more important to industry innovation and growth – the very reason SEMI has expanded its reach beyond the semiconductor manufacturing supply chain (equipment and materials) to include design, systems and products.The SEMICON Japan show and conferences will connect you to key application segments of the value chain. The SuperTHEATER will host two SMART transportation forums highlighting the latest developments in autonomous driving and sky transportation (flying cars). In the SMART Applications Zone on the show floor, you’ll find electronics products and technologies showcased for automotive and manufacturing automation as the autonomous driving pavilion highlights emerging technologies that are driving semiconductor innovation opportunities. Reason 5: Learn from disaster and recovery experiencesJapan has taken important disaster recovery lessons from devastating earthquakes over the past three decades, most notably the Kumamoto quake in 2016, the Tohoku temblor in 2011 and the Kobe rattler in 1995. So has the Japan electronics supply chain, including SEMI members. In the Business Continuity Plan (BCP) area at SEMICON Japan 2019, exhibitors including DISCO, Murata Machinery and THK will highlight technologies that can strengthen your preparedness for a disaster and aid in the recovery.On December 12 at the BCP seminar at Japan 2019, Sony Semiconductor Manufacturing, DISCO and Team Engineering Consulting will share their experiences and expertise in mitigating the disaster impacts. (Sony and Disco will present in Japanese.)To get the feel for the magnitude of a major earthquake and how seismic isolation protects against structural damage, be sure to take advantage of THK’s earthquake experience car. Seismic isolation installs isolators – rubber bearings, friction bearings, ball bearings, spring systems or other devices – beneath a building to buffer earthquake vibrations transmitted to structures.More reasons to attend SEMICON JapanAnd of course your visit to Tokyo for SEMICON Japan 2019 wouldn’t be complete without exploring Tokyo and other regions to experience Japan’s exotic culture, cityscapes and cuisine! Here are some resources to give you even more reasons to book a flight to Tokyo: Japan National Tourism Organization Go Tokyo Kyoto Tourism I look forward to seeing you at SEMICON Japan in December!Jim Hamajima is president of SEMI Japan.