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MEMS

Humanity has survived almost unimaginable challenges over the past 5,000 years of documented human history. From war, famine and natural disasters to the first global pandemic in the last 100 years, more often than not, people have relied on one another to survive and thrive again. As the industry association representing the global microelectronics industry, SEMI has similarly made collaboration and community integral to the fabric of its organization. From helping members to succeed through the COVID-19 pandemic to facilitating member-driven industry standards around environmental health and safety, materials, and manufacturing capabilities, this approach shows members that standing together is better than standing alone.On the eve of the 50th annual SEMICON West (July 20-23, 2020) — the first virtual edition in SEMI’s history — I spoke with SEMI’s vice president of technology communities, Michael Ciesinski, about the role of SEMI in tackling big challenges through an active member community intent on solving problems through collaboration.SEMI: How long have you worked with SEMI and in what capacity?Ciesinski: In January 2016, I started my second tour at SEMI when FlexTech, the industry consortium I’d been leading, became SEMI’s first strategic partner. Nearly two years into that role, SEMI President CEO Ajit Manocha asked me to form Technology Communities to engage members with common interests. After FlexTech, we brought on the Fab Owners Alliance, then MEMS Sensors Industry Group (MSIG), and later the Electronic System Design Alliance (ESD Alliance).SEMI now has more than 20 communities in all, including Smart MedTech, Smart Data AI, Smart Manufacturing, Electronic Materials, and Integrated Packaging, Assembly and Test.SEMI: What is your role with Technology Communities — and how do members stand to benefit?Ciesinski: The leadership of Technology Communities ensures that SEMI’s benefits and services align to our members’ interests so we can provide member benefits that matter most. This spans forming communities where people hold common interests (e.g., advanced packaging) to facilitating standards that will promote intelligence in manufacturing (e.g., data standards for AI and machine learning) as well as providing R D funding.I’m especially proud that over the past three years, SEMI has brought more than $40 million in R D funding to our members, with most grants in the $500,000-$1 million range. We’ve been especially successful in securing funding in flexible hybrid electronics (FHE) through U.S. Army Research Laboratories (ARL), a model we first developed through FlexTech.Two recent recipients of FHE funding, GE Research and ITN Energy Systems, show how the grants are spawning partnership opportunities among commercial enterprises, R D organizations and universities. In developing lightweight, non-invasive wearables, including a human-performance sweat-monitoring patch that remotely analyzes sweat to detect hydration levels and other vital signs, GE Research is using key components such as sensors and lightweight batteries in its designs.ITN Energy Systems designed a flexible all-solid-state lithium battery that’s printed on light, flexible substrates to power small and incredibly thin applications.Universities are also benefiting by plugging into the SEMI ecosystem. In fact, 40-50 percent of funded projects are seeding commercialization by universities. This is another validation that SEMI’s collaborative, community approach to microelectronics is working.SEMI: Position, Timing and Navigation (PNT) is another hot area where SEMI has secured ARL funding. What makes this funding different and why is it important?Ciesinski: The PNT grant makes ARL funding available to the MEMS Sensors Industry Group (MSIG) members through SEMI for the first time. If you’ve ever lost GPS signal while coming out of a tunnel, you know how frustrating that is. For us, that’s an inconvenience, but for a healthcare worker in a remote location who’s waiting for a delivery of medication by drone, it could be life-critical. While that’s just one example of why we need PNT to operate when GPS isn’t available, I can imagine dozens of other important dual-use cases, including autonomous driving.SEMI: How else do Technology Communities benefit under SEMI?Ciesinski: Technology Communities need access to diverse resources to spur continuous innovation. Electronic Materials Group participants, for example, need to stay informed on regulations coming out of Asia, the U.S. and Europe that may affect their businesses. Where else other than SEMI can like-minded stakeholders congregate with people up and down the supply chain to determine whether industry-wide action is needed on regulation?SEMI: What is the importance of SEMI’s global footprint?Ciesinski: I’ve worked with many associations and managed major industry consortia. The clear advantage of SEMI is our global footprint. And that’s vital because microelectronics is a global industry involving a multitude of stakeholders that play essential roles in the supply chain.Let’s say you want to discuss EU regulations on hazardous chemicals. Rather than decipher these complexities alone, you can pick up the phone to speak with someone on SEMI’s European team to learn what’s critical.What if you’d like more information on the 20-plus new fabs that are going up in China? You can explore that question with our SEMI China or SEMI Industry Research and Statistics teams.SEMI: How has SEMI evolved over the years?Ciesinski: SEMI has a long history of providing what the industry cares about. We started in trade shows and pivoted to industry standards. We began with small silicon wafers and wafer carriers, and now within the span of 50 years we’re working on data-format standards that will support the application of AI and machine learning (ML) in the semiconductor industry.While highly varied today, data-format standards will help component manufacturers refine processes to create more efficient solutions. This ARL-funded program, which pairs SEMI members with the grant recipient, Cornell University, may offer dramatic gains in the productivity of semiconductor manufacturing.SEMI: How does SEMI’s approach to COVID-19 reflect core values of collaboration and community?Ciesinski: Together with Ajit Manocha, CMO Terry Tsao and other team members at SEMI, we pulled together a task force to help SEMI members navigate the pandemic.We tapped two existing groups, Environment, Health and Safety (EHS) and Information Technology Leadership (ITL) from the start, documenting their strategic and tactical approaches to help all members through the COVID-19 resource section of our website. 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.Our EHS leadership team, which includes Entegris, Axcelis, Versum, and Intel, immediately started sharing best practices for sanitizing facilities. As a result of team meetings, SEMI EHS shared best practices on keeping the workforce remote and guidelines for returning people to work safely. From securing PPE and safeguarding employees and visitors by performing thermal scanning to outlining communications around potential employee exposures, EHS has provided meaningful resources for the benefit of all members.SEMI also took immediate steps in the area of advocacy. Our advocacy team in Washington, D.C., together with regional SEMI presidents around the world, have ensured that semiconductor facilities were and still are considered essential businesses in the U.S., Europe and Asia. That’s because microelectronics are foundational to fighting the pandemic.Microfluidics are critical to the Reverse Transcription (RT) Polymerase Chain Reaction (PCR) tests most commonly used for COVID-19. Sensors are embedded in the pulse oximeters that allow patients and healthcare professionals to monitor a vital rubric: oxygen saturation level. If oxygen saturation level drops into the low 90 percentiles or below, it may be time to go to the hospital for treatment.Microcontroller units are essential components in a wide range of hospital equipment, including the ventilators that may make the difference between life and death in the most seriously ill patients.SEMI: How can the ingenuity realized through microelectronics continue to help us tackle other big problems? Ciesinski: We have MEMS and sensors to thank for distributed intelligence, giving us the ability to put sensors anywhere, locally based in the field or in the packaging house.Food production is a prime example. Leveraging miniaturized wirelessly connected sensors, we can trace food through the entire production lifecycle, from the seed in the ground to the food in the warehouse and, ultimately, to the product that lands on the table.From larger enterprise such as IBM Food Trust to small startups, we’re using MEMS and sensors to improve crop yields so we can feed a human population that’s growing each year.There’s a sustainability piece as well. We’re using MEMS and sensors to reduce the amount of fertilizer or other nutrients or chemicals in the soil. That’s good for the environment and for the agricultural workers who labor in the fields.MEMS and sensors can also condense the time it takes to perform a specific task, conserving human resources.SEMI: Where do you think SEMI will go in the next decade?Ciesinski: Ten years from now, I believe we will still have our global footprint in place. I expect it will expand, particularly in Asia.We may also expand into new areas such as Latin America and Central America, which would provide at least two major benefits: People working in microelectronics would, I hope, have access to better quality of life. And diversifying the supply chain would allow nations and regions to have more control over the products they need, from PPE to medications, which may help us to better manage through the next pandemic.I am also hopeful that SEMI will be on the leading edge of helping our members communicate in much different fashion from what we have today. We’re already expanding beyond the paradigm of in-person meetings for standards meetings and conferences. As we move forward, I think we’ll see a hybrid solution to doing business, combining in-person meetings with virtual conferences and digital content that’s available 24/7.Whatever changes we see in SEMI, I’m confident that we will continue to see a global footprint in an industry association that prioritizes connections among members.Engage in the SEMI experience at upcoming SEMICON WestRegister today to hear from keynote speakers such as environmental advocate and former U.S. Vice President Al Gore, futurist and author Steve Brown, and IBM Research senior vice president and director Dr. John E. Kelly III, and Lea Gabrielle, special envoy of the Global Engagement Center for the U.S. State Department, at SEMICON West , July 20-23, 2020. Content will be live streamed and available on-demand. Michael Ciesinski is vice president of Technology Communities for SEMI, the global microelectronics industry association, appointed in August 2018. At SEMI, he directs activity for more than 20 industry groups, oversees the association’s R D funding program, and develops new technology initiatives to serve SEMI’s 2,400 members. Prior to re-joining SEMI, Ciesinski was president/CEO of FlexTech Alliance, an industry consortium focused on new methods of creating electronics. From 1995-2008, Ciesinski served in a similar role at the U.S. Display Consortium (USDC), a private/public partnership chartered with building the infrastructure for electronic display and flexible electronics manufacturing. Both FlexTech and USDC annually sponsor multimillion dollar technology development programs and provide industry technical, financial and market services. Ciesinski is a graduate of the University of Albany, NY, and a former member of the Dean’s Advisory Committee at California Polytechnic State University.Maria Vetrano is a PR consultant at SEMI.
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As a top semiconductor manufacturing hub, Korea is poised to lead the world in fab construction spending in 2019 and 2020, accounting for 27 percent of the total market. Little wonder that Korea’s prowess in the semiconductor industry has meant steady membership growth for SEMI Korea, with HD Cho, president of SEMI Korea, putting the average annual jump at about 7 percent.But HD Cho’s focus as he returned to COEX in Seoul, home to SEMICON Korea, in late August was not on membership growth over the years but the future. Cho hosted about 400 SEMI members gathered at SEMI Korea Members Day for insights into the state of the world economy, semiconductor industry outlooks, and perspectives on how South Korean and European microelectronics companies can form stronger ties. Setting the stage with look at macroeconomics, Byung-yeon Kim, team manager of NH Investment and Securities, predicted that, as the global economy continues to falter, 25 of the 58 major countries this year will cut interest rates in a bid to boost prospects for growth. Historically, the global composite leading indicator (CLI), a bellwether for turning points in the economy, has rebounded after 20 months of decline, he said. While the CLI downtrend is now past the 20-month mark, Kim struck a bullish note, predicting that the global economy will bounce back before long.Soo-kyoum Kim, vice president at IDC, referring to the semiconductor industry’s own soft patch, said that total revenue is expected to drop from $475 billion in 2018 to $440 billion this year but should rebound to a new high of $500 billion in 2023. The memory market will be especially hard-hit, dropping more than 29 percent in 2019 and another 14 percent next year before bottoming and then staging a recovery in the second half of 2020. The strength of the rebound will hinge on server market demand, he added.Next year will also see rebounds in semiconductor equipment and materials revenue, with growth of 12 percent and 3 percent, respectively, said Clark Tseng, director of Industry Research and Statistics at SEMI. The increases will follow a 2019 equipment market drop of 18 percent to $53 billion from the previous year while materials this year is expected to remain flat at $52 billion. The semiconductor industry will expand at a modest 2.4 percent this year, jumping to 7.6 percent in 2020, Tseng reported, citing the average growth rate based on data from Gartner, WSTC, IC Insights, VLSI Research and other industry analyst firms. Despite current weak market demand and the ongoing trade war, the long-term outlook for the semiconductor industry remains upbeat, he added.In Europe, semiconductor industry growth continues on the strength of the region’s high strategic importance in the global electronics supply chain, said Laith Altimime, president of SEMI Europe. Fab construction spending in Europe continued to grow in 2018, reaching $300 million, and is expected to hit $1.2 billion in 2019 and $1.6 billion in 2020, with equipment, parts and components driving the surges.To help build stronger ties between European and Korean chip industries, Altimime introduced the SEMI Korea members to SEMI Europe business platforms including SEMICON Europe, the 3D System Summit, ISS Europe, and the MEMS Imaging Sensor Summit. He also encouraged the formation of more business partnerships between companies in the two regions by familiarizing SEMI Korea members with European players in areas such as foundry, MEMS, sensors and wafer manufacturing.And it will be MEMS and sensors that help drive the 4th Industrial Revolution, said Sung-hyuk Kim, a team leader at LG Electronics' Sensor Solution Research Institute. In his presentation Architecting Sensor Solutions for the Next Revolution, he noted that sensors are finding their way into devices where they have never been used before. In household refrigerators, gas sensors help deodorize the inside while distance sensors detect the approach of people. Air conditioners equipped with a camera sensor can pinpoint the location of humans and steer the airflow in their direction. Of course, all these smarts will come in form of data-devouring artificial intelligence (AI), and that data will be generated in massive amounts by MEMS and sensors – placing them at the epicenter of the 4th Industrial Revolution.Jaegwan Shim is a marketing specialist at SEMI Korea.
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On June 1st, 2018, Toshiba sold Toshiba Memory, Toshiba’s memory business, to an investment group led by Bain Capital. Toshiba Memory was then owned by a consortium of American, Japanese and Korean companies.After the long and tough negotiations, Toshiba Memory moved forward at full throttle, holding a groundbreaking ceremony for its new 3D NAND fab (100,000 WPM) in Kitakami in July and, in September, celebrating the opening of Fab 6 Phase 1 (50,000 WPM). To be sure, NAND memory is a key feature of Japan’s semiconductor industry. But the sector’s reach extends well beyond memory with its rich and versatile product portfolio nourished by active investment.Born in the early 1950s, Japan’s semiconductor industry today boasts more than 30 companies with fabs. Many feature 200mm and smaller wafer lines with legacy technologies, form factors that account for the bulk of the world’s semiconductors and are the oxygen of Japan’s chip industry. Clearly, the world is not built only with the state-of-art 7nm processed chips on the latest generation 300mm lines. Japanese chipmakers are flourishing.Automotive SemiconductorsRenesas Electronics remains a giant in microcontrollers (MCU) and system on chip (SoC) devices for automotive applications. According to IHS Markit, Renesas automotive semiconductor revenue in 2017 reached $3.6 billion while Inineon Technologies and NXP Semiconductors revenues were $3.4 billion and $3.7 billion, respectively. The three companies dominate the global automotive MCU global market. The company recently acquired Integrated Device Technology (IDT), a U.S. fabless company specializing in analog/mixed signal chips, to strengthen its automotive semiconductor portfolio. Renesas operates four volume production fabs, according to the latest World Fab Forecast from SEMI. Renesas’s microcontrollers for automotive applications (Source: Renesas Electronics) Power SemiconductorsWith power semiconductors the chips of choice for boosting the efficiency and performance of motors and batteries used in equipment, demand for the devices is rapidly growing, especially for automotive applications. Power semiconductor companies in Japan are legion and include Denso, Fuji Electric, Fujitsu Semiconductor, Hitachi, Kyocera, Mitsubishi Electric, New Japan Radio, Origin Electric, Phenitec Semiconductor, Renesas, Rohm, Sanken Electric, Sansha Electric Manufacturing, Seiko NPC, Shindengen Electric Manufacturing, Sumitomo Electric Device Innovations, Toshiba and Toyota Industries. The companies account for 26% of global power semiconductor capacity and will spend $317 million for construction and equipping in 2018.CMOS SensorsSony dominates the CMOS image sensors market with 42% share in 2016, according to Yole Développment. To meet growing demand for high-end CMOS image sensors, Sony has acquired several legacy 300mm wafer fabs and retooled them for CMOS sensor manufacturing. What’s more, Sony’s May announcement of its mid-term corporate strategy includes a 1 trillion Japanese yen investment in CMOS image sensors targeted to automotive applications by March 2021.Sony’s 7.42 effective megapixel stacked CMOS image sensor for automotive cameras (Source: Sony Corporation) MEMSMEMS is perhaps the most wide-ranging device market: Every application requires different capabilities and functions. The latest World Fab Forecast report lists 17 MEMS companies in Japan, though three makers of fast-growing RF MEMS, typically known as surface acoustic wave (SAW) or bulk acoustic wave (BAW) filters, are coming to the attention of semiconductor manufacturers. All are familiar passive electronic components suppliers – Murata Manufacturing, Taiyo Yuden and TDK – and all acquired legacy semiconductor fabs to manufacture RF MEMS.Their high-performance radio wave filters make mobile phones usable around the world. Research companies like Yole expect the introduction of 5G cellular mobile communication systems to fuel another wave of growth of the RF MEMS market. Murata Manufacturing’s SAW filters for smart phones (source Murata Manufacturing) Japanese Supply Chain Meets All Different NeedsJapan’s semiconductor supply chain provides one third of the world’s semiconductor manufacturing equipment and more than half of the industry’s materials. But Japanese suppliers also work with small and midsize makers of highly versatile chips critical to enabling the explosion of smart applications.Meet these versatile Japanese suppliers at SEMICON Japan to find solutions to your unique needs and help the world get smarter. Themed “Dreams Start Here,” SEMICON Japan 2018 reflects the promise of AI (artificial intelligence), Internet of Things (IoT) and Smart technologies. Featuring more than 750 exhibitors from around the world, the event is the gathering place to connect the people, technologies and business across the electronics manufacturing supply chain, from semiconductor manufacturing to autonomous cars, robotics and other smart applications. For more information about SEMICON Japan, visit www.semiconjapan.org.Yoichiro Ando is a marketing director at SEMI Japan.
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