ARM

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.

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

Augmented reality (AR) tyrannosauruses towered on-screen as I interacted with the creatures in a mix of prehistoric and cutting edge. Or, rather, my AR double was doing the playacting. Minutes later, virtual doppelgangers of a small lineup of chip industry executives cut the ceremonial ribbon. Seemingly sweeping away the winter chill, the opening of SEMICON Japan 2019 dazzled with smart technology and the promise of lives, cities and workplaces transformed, with uber-intelligent applications in full display at Tokyo Big Sight. But what resources does the industry need to harness to drive the next era of innovation? The semiconductor industry’s unwavering passion and young talent are key, said Hiroshi Imano, Chairperson of the SEMICON Japan Initiatives Committee, in his opening keynote. And hardly any region of the world is in a better position to help realize that future than Japan, Imano said. The region supplies one third of the equipment and more than half of all materials to the global semiconductor manufacturing industry.Talent was also top of mind for SEMICON Japan 2019 keynote speaker Makiko Eda, Japan's Chief Representative Officer at the World Economic Forum (WEF). Serving as a platform for public-private partnerships, the organization's mandate is to tackle global issues such as climate change and geopolitical strife in making world more resilient to risk and, by extension, more sustainable.Spanning ecology, economy, technology, society, geopolitics and industry, that mission includes reskilling and upskilling a billion people over the next decade, a high priority for WEF, which hosts a conference every January in Davos, Switzerland. The theme of this month's conference – Stakeholders for a Cohesive and Sustainable World – reflects the vital importance of building the international partnerships and global consensus necessary to achieving WEF's goals.One key to that sustainability will be technology and Arm, a global chip design company, will play a key role, with the company’s chips touching over 70 percent of the world’s population, Arm president Yuzuru Utsumi said in his keynote. Today, Arm is driving toward an ambitious goal: Ship 100 billion chips from 2017 to 2021 – the same number produced over the previous quarter century – by powering advances in mobile computing, server and networking infrastructures, and automotive applications.Arm’s innovation ecosystem of more than 1,000 partners will deliver these chips as they continue to work together to develop differentiated technology. Arm plans to increase investments not only in its primary processor business to accelerate market share gains but in the company’s new IoT business to create new revenue streams. The goal: Deliver long-term sustainable growth, Utsumi said. SEMICON Japan 2019 showcases SMART manufacturing and transportation Billed as a showcase of smart technologies, SEMICON Japan 2019 delivered with an array of eye-grabbing exhibitions in the popular SMART Applications Zone. In the SMART Transportation area, the automatic operation pavilion featured a car equipped with open-source software for autonomous driving. The exhibitor, Tier IV, aims to help lead the early commercialization of self-driving vehicles through the adoption of its software, Autoware, which makes it easier to develop self-driving vehicle prototypes using low-power platforms.Sony Semiconductor Solutions demonstrated a vision sensing processor designed to guide autonomous drones. Using two cameras, the processor measured the changing distance between visitors moving about the exhibit and stationary objects in real time, indicating proximity in hues of red (nearby) and blue (at a distance). Many visitors were wowed, describing the multichromatic display as futuristic.Others rode a simple wooden swing hanging by two ropes, but from dizzying heights thanks to Solidray’s Duo-Sight, a virtual reality (VR) system that projects 3D images stretching from wall to floor for immersive experiences. One visitor thrilled at how riding the swing, suspended only a few feet from the floor, felt like soaring on a flying trapeze. Target applications for the technology include virtual rides at amusement parks and presenting interior design options to homeowners.In the SMART Manufacturing area, one highlight was the demonstration by the National Institute of Advanced Industrial Science and Technology (AIST) of a remote-controlled Minimal Fab System designed for low-volume, high-mix chip production with little staffing. Designed to increase production efficiency, the system allows a circuit designer to manufacture a semiconductor by singlehandedly operating equipment up and down the production line. Controlling nearly 50 pieces of equipment, the Minimal Fab System on display manufactured chips that were verified for functional operation and exhibited afterwards.On the SMART Applications stage, exhibitors DENSO and Toyota Motor Corporation announced a new joint venture to conduct research and advanced development of the next-generation in-vehicle semiconductors critical to electric and autonomous vehicle innovation. The venture, operating as MIRISE Technologies, will combine Toyota’s mobility expertise with DENSO’s in-vehicle component prowess. The goal is to build a rapid, competitive development system by 2030, said Yoshifumi Kato, executive director of the DENSO Research and Development Center, and president and representative director of the venture. On track to begin work this year, MIRISE will span three fields of technology development: power electronics, sensing and SoC (System-on-a-Chip). The name MIRISE combines word the Japanese word "mirai" (future) with "rise."Business Continuity PlanningNatural disasters and other emergencies are an ongoing threat to uninterrupted business operations across the semiconductor manufacturing supply chain and particularly in earthquake-prone Japan. To better prepare for business disruptions and restore normal operations as soon as possible after disaster strikes, more companies are teaming on Business Continuity Planning (BCP).THK's Seismic Isolation Experience Car demonstrated one technology designed to help – a seismic isolation device. The car shakes like an earthquake to give people inside a taste of how a building heaves and sways during a quake with and without the device deployed. Visitors were struck by how much the isolator dampens tremors to prevent or minimize damage. In the BCP seminar, representatives from Sony Semiconductor Manufacturing, THK, DISCO and Team Engineering Consulting shared lessons learned from actual disasters and discussed the critical importance of daily disaster drills. Yukihide Keigo, Executive Engineer in charge of Products and Development at Sony Semiconductor Manufacturing, recounted how the company’s Kumamoto Prefecture plant struggled for 96 days to restore full operations after the facility sustained heavy damage in the 2016 earthquake. Keigo said the plant lacked the structural reinforcements necessary to withstand the impact and fell prey to poor planning and accountability. The Kumamoto plant has since implemented measures – structural and procedural improvements – that more accurately account for seismic risks to ensure full recovery within 56 days. The plant’s new procedures include emergency drills for staff including night-shift workers.Innovation abounds at six SuperTHEATER forumsSEMICON Japan 2019 was held in the West and South Halls of Tokyo Big Sight as organizers of the Tokyo Olympics occupied the East Hall, the exhibition's usual home at the venue, to prepare for the 2020 games. For the first time, the main stage, SuperTHEATER, was set up in the cavernous arena near the main entrance. The SuperTHEATER featured six forums over three days. Semiconductor Executive Forum – View by Top Two in the Era of Digitalization with thought leaders from IHS Markit and Sony Semiconductor Solutions SMART Connectivity Forum – Infinite World Brought by 5G Innovation with experts from Softbank and Nokia Solutions Networks SMART Transportation Forum I – Front-line of Automated Driving featuring speakers from Intel and DENSO SMART Transportation Forum II – Revolution of Sky Transportation, supported by the U.S. Commercial Service in Japan, with presenters from Ministry of Economy, Trade and Industry (METI), Subaru and Bell Helicopter Manufacturing Innovation Summit – Issues and Innovation: What will Drive Growth to 2030 featuring thought leaders from VLSI Research, Applied Materials, KLA, Nikon and Tokyo Electron Mirai Vision Forum – Future Relation of Technology and Body 2.0 with speakers from Leave a Nest, Ory Lab and Autonomous Control Systems Laboratory The Mirai Vision Forum highlighted advanced technologies that could lead to societal improvements. One presenter, Kentaro Yoshifuji, CEO at Ory Lab, recalled how, as a child, he once stayed home from school while recovering from an illness. His imagination in full flight, the youngster imagined having a clone that could attend school and be with his classmates. The experience eventually inspired him to develop OriHime, a robot that gives socially isolated people a way to communicate with friends or colleagues remotely. Originally developed for physically impaired people, OriHime today is used to help the able-bodied. The robot is situated with the companion and the user operates OriHime remotely. A camera and monitor in OriHime’s face provide the visual and audio connection and the user controls the device with a smartphone or tablet or, for those who are paralyzed, through eye movement. One potential application: With OriHime stationed at a business office, working mothers could use OriHime to telecommute to better balance their careers with their parenting responsibilities at home. The robot would be a mother’s go-between, enabling her to communicate directly with colleagues.The next generation of innovators also took the stage as five teams presented innovative business ideas in friendly competition. The top prize in The TECH CAMP Hackathon went to the group that hatched an ingenious plan to develop a jacket that trains users to move their bodies in preprogrammed ways. For example, legendary Japanese professional baseball player Shigeo Nagashima could wear the gear while batting to program the device, then give the jacket to someone who’s never swung a baseball bat. The jacket would help the user replicate Nagashima’s swing. Now comes the real work of any innovator – executing on the vision.And then came two soccer-playing artificial intelligence (AI) robots that squared off and ... Scored! The demonstration by the Toyota National College of Technology started as a research project by Toyota National College students in 2002. The young innovators designed and developed all the robotic hardware and software from scratch. Looking ahead to SEMICON Japan 2020!SEMICON Japan 2019 not only gathered leading Japanese semiconductor materials and manufacturing equipment providers to demonstrate their latest innovations. The premiere regional event also provided insights on key trends critical to the entire electronics manufacturing supply chain. This year’s event drew more than 51,000 visitors and 695 exhibitors from 15 regions filling more than 1,700 booths.SEMICON Japan 2020 returns to East Hall at Tokyo Big Sight in December 2020. I look forward to seeing you there!Jim Hamajima is president of SEMI Japan.

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.

Would you buy your next hotdog in parts, from un-coordinated suppliers? For example: Get the bun from a baker, the sausage from a butcher, mustard and/or ketchup and veggies from the nearest supermarket? If yes, you may find the sausage being too small, the veggies too big for the bun, and, when you finally finished adding mustard/ketchup and start eating, you may “enjoy” a cold sausage on a soggy bun!This “hotdog example” is just a very simple way to highlight the advantages of a well-coordinated semiconductor supply chain. What may be a few dollars and cents wasted in this hotdog purchase, can become millions of dollars lost to delays and inefficiencies during the roll-out of a new electronic system.Complexity is Increasing the ChallengeThe very innovative semiconductor industry is continuing to develop more complete and complex building blocks for electronic system solutions, with the intent of making our customers’ lives easier. However, every new technology takes increasingly more time for technical and business interfaces to mature before all the semiconductor supply chain members can serve customers in a smooth, efficient and cost-effective manner. In particular, coordination between design and manufacturing has always turned out to be in the critical path.SEMI, the manufacturers’ trade organization, and the Electronic System Design (ESD) Alliance, representing electronic design automation (EDA) tools vendors, developers of intellectual property (IP = ready-made building blocks for ICs) and IC design service providers, both recognized these challenges. Late in 2018, these two industry organizations decided to jointly address this painful, costly and often a very frustrating, yet critical path and became Strategic Association Partners, The goal is to establish a well-coordinated semiconductor supply chain.To make the value propositions of this partnership highly visible and demonstrate the first joint accomplishments, SEMI’s well-known SEMICON West conference and, in its first year, ES Design West, will be conveniently co-located in San Francisco’s Moscone Center from July 9 to 11, 2019. The synchronized schedules and geographic proximity of these events not only outlines the multi-faceted interdependence of manufacturing and design but encourages and enables conference attendees to do, what previously would have been viewed as “forming cross-border relationships.” It’s a new word now — please join the path to success and expand your network!Navigating SEMICON West and ES Design WestJust in case you are not yet planning to come to San Francisco early July, please check the Agendas-at-a-Glance for SEMICON West and ES Design West, to see how broad and valuable these parallel conferences are for your business. In addition, every customer, partner and semiconductor industry supplier can, from July 9 –11, walk from one conference section to the other, arrange face-to-face meetings, in dedicated meeting rooms, with representatives from both camps and discuss, from the first project planning step to the final production ramp-up, the many topics that need to be coordinated across parts or the entire supply chain to minimize delays and/or cost over-runs.Who Will Lead the Discussions?Conference attendees can, in addition to meeting many important supply chain partners face-to-face, hear about the latest technologies and market trends from key executives in our industry. Featured speakers are: David Pellerin, Head of Global Business Development, Amazon Web Services Lisa Su, President, and CEO, AMD Gary Dickerson, President, and CEO, Applied Materials Laurent Le Faucheur, Principal Engineer, Digital Signal Processing and Machine Learning, Arm, Ltd. Renee St. Amant, Ph.D., Research Engineer in Emerging Technologies and US Innovator of the Year, ARM Dean Kamen, President DEKA Research Development, Founder First and First Global Jeffrey Welser, Ph.D., Vice President and Lab Director, IBM Research-Almaden Dean Drako, President and CEO, IC Manage, Inc. Oreste Donzella, Sr. VP Chief Marketing Officer, KLA Corporation Prakash Narain, President, and CEO, Real Intent, Inc. Aart de Geus, Chairman, and Co-CEO, Synopsys, Inc. Manish Pandy, Fellow, Synopsys, Inc. Nate Baxter, General Manager, Development and Production Group, TEL US Like in previous years, SEMICON West and ES Design West offer a range of special features, addressing Smart Manufacturing, Smart Transportation, Smart MedTech and Smart Workforce development in dedicated pavilions as well as an AI Design Forum. Also, the many exhibitors from both camps will give conference attendees convenient opportunities to get to know new supply chain partners and/or refresh long-term business relationships. Search for the exhibitors you want to meet early July here. Questions to Ask for a Well-Coordinated Semiconductor Supply ChainIf I may, I would like to ask my many friends in the manufacturing camp to spend some time in the ES Design West section and ask the exhibitors a few questions, like: What can you do to get me to profit faster? To reduce development and unit cost? To improve yield, product quality, and reliability? When can you visit my team to discuss how your company can contribute to our goals?Vice versa, I would like to encourage my friends in the design camp to spend time in the SEMICON West section and ask exhibitors what their companies offer. When talking to manufacturers of IC, passive components or circuit boards, assembly and test houses, please ask very specific questions like: How can we help you reduce iterations between you and your customers? How can we help to improve IC test programs? How can we increase the throughput of your manufacturing equipment? How can we apply machine learning (ML) and Artificial Intelligence (AI) to minimize equipment downtime, improve yields and/or shorten production ramp-up?I can assure you that you’ll not only win great friends “across the border” but will be very impressed by the expertise you’ll find in the other camp and the willingness for and benefits of cross-border cooperation.I look forward to meeting you at SEMICON West and ES Design West. Also, if your schedule allows, mark your calendars for the June 12 MEPTEC Luncheon at SEMI in Milpitas, June 18 for the GSA’s Silicon Summit in Santa Clara and June 25 to 27 for the IMAPS SiP Conference in Monterey, CA. Hope to see you at one or all of these important events!Article originally published in 3D InCites. Herb Reiter is president of eda 2 asic Consulting.