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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.
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Thanks to developments in science and technology, artificial intelligence (AI), cloud computing, big data and other technologies have been used to establish smart healthcare systems that helps societies respond more effectively to disease outbreaks. The spread of novel coronavirus starting in late 2019 has revealed how not only traditional medicine but also Smart MedTech applications can be instrumental on the anti-epidemic front lines.To give updates on the development of Smart MedTech and how it shines during the fight against COVID-19, SEMI invited Dr. Pei-Yuan Lee, Honorary Superintendent of Show Chwan Memorial Hospital, to share with MSIG (MEMS Sensors Industry Group) and Flex-Tech members how the international community and Taiwan are bringing their best in Smart MedTech to the table and how their collective efforts are helping tackle COVID-19 challenges.Taiwan’s COVID-19 rapid screening reagents and antibody testing help curb coronavirus transmissions Taiwan’s medical community has demonstrated its prowess in responding to the COVID-19 outbreak. Using its nucleic acid extraction reagent, Taiwan Advanced Nanotech Inc. tested 128 specimens from passengers aboard the SuperStar Aquarius cruise ship in only eight hours in early February. Taiwan’s leading research institute Academia Sinica successfully synthesized the first group of monoclonal antibodies capable of recognizing the new coronavirus protein on March 8, enabling testing to be completed in 15 minutes. The College of Medicine of National Taiwan University announced on March 27 that its 30-second screening device had helped identify asymptomatic carriers. The devices detect COVID-19 in people with no symptoms if they have pulmonary infiltration and edema. It took only 14 days for Academia Sinica to successfully synthesized the first group of monoclonal antibodies capable of recognizing the new coronavirus protein. On April 22, three biomedical companies in Taiwan launched a COVID-19 test that produces results from samples of patient mucus in less than 10 minutes to greatly enhance testing speed. Once the test method is approved by the Taiwan government, it will take Taiwan’s medical strategy against COVID-19 to the next level.Artificial Intelligence: the key to upgrading traditional healthcare practicesAI is a key enabler of the transition from traditional medical practice to Smart MedTech. To help fight the COVID-19 outbreak, a National Cheng Kung University medical team developed a 30-minute coronavirus testing procedure that uses AI to read pulmonary X-ray images and automate medical records. Taiwan AI Labs leveraged AI to simulate how drug molecules combine with viruses to reduce research time by three to four years. AI ​​diagnostic technology from the Alibaba DAMO Academy (Academy for Discovery, Adventure, Momentum and Outlook) and Alibaba Cloud interprets CT images of COVID-19 patients with 96 percent accuracy in 20 seconds. AI-powered algorithms improve diagnostic test accuracy, allowing clinicians to quickly analyze scans of pulmonary lesions and quantify the severity of lung damage.Startups have also joined the fight against COVID-19. Taiwan's Internet of Things (IoT) startup iWEECARE invented the world's smallest smart thermometer patch. Heroic-Faith Medical Science launched a device that uses IoT and AI to monitor lung sounds. With Smart MedTech expected to be fertile ground for future venture investments, enterprises must find their niches in establishing new technologies in a much more systemic way. Taiwan startup Health-Faith Medical Science developed a respiratory diagnostics device that uses IoT and AI technology to monitor chest sounds in real time. Anti-epidemic technology to help fulfill smart medtech vision Many AI and big data technologies previously deployed in hospitals and healthcare systems are helping regions around the world speed their pandemic response. The United States and China have started to develop facial mask recognition systems powered by AI, while a team in the Department of Bioinformatics and Medical Engineering at Asia University has devised a facial recognition system combining IoT and AI technology with infrared thermal imaging cameras. At Johns Hopkins University, the Center for Systems Science and Engineering is using AI to create big data models that track global cases, people and traffic flow, and other variables for real-time data analysis that enables epidemiologists to more accurately predict COVID-19 transmission paths. Graphen, Inc., a New York-based provider of next-generation AI platforms, launched the world's first AI COVID-19 genetic evolutionary path analysis systems to gauge the virus’s transmission route and accelerate pandemic response. Both the United States and China are also using robots and drones to improve epidemic research and patient treatment. For the first confirmed case in the United States, robots were used to assist with medical care. In China, robots facilitate deliveries of disinfectants to makeshift hospitals built to expand the nation’s capacity to treat COVID-19 patients. While Taiwan’s robots are traditionally used for hospitality, transportation and disinfection purposes, future robotics research and development will focus more on medical applications that shift more work from medical staff to technology. With abundant technological resources and expertise, Taiwan can join hands with the rest of the world to combat the COVID-19 pandemic. Emerging technologies are pointing the way toward a new paradigm for healthcare community. Biotech, artificial intelligence, and robotics have given rise to new applications that increase virus screening accuracy and efficiency. This growing wave of technological defenses against the pandemic will become a long-term force for stability and strength in healthcare systems across the world.To get involved in SEMI Taiwan Smart MedTech Community, please contact Helen Chen, Outreach Manager, at [email protected] Huang and Winnie Chang are marketing and public relations specialists at SEMI Taiwan.
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It’s official.The first autonomous vehicle has been verified for operation on the open road in Asia with no traffic restrictions. And this is no corner case, flash-in-the-pan technology. The white 4-door minivan’s modular software can be integrated into all manner of vehicles including cars, trucks and buses. More promising still, the minivan – proven roadworthy after more than 1,300 miles of testing – will lead not only to an upgrade of Taiwan’s automobile electronics industry but to groundbreaking smart transportation service models.Imagine, for example, hopping a driverless shuttle to the hottest attractions in Hsinchu City, Taiwan such as Big City, Hsinchu Cheng Huang Temple, 19 Hectares Grassland, 17KM Coastline Scenic Area and Siangshan Wetland. The autonomous ride could become another transportation option sooner than you think.“We have every intent to make available self-driving sightseeing shuttle services soon,” said Chih-Chien Lin, mayor of Hsinchu City. “The services will be our first step to substantially improving the traffic flow, highlighting the unlimited applications associated with autonomous vehicles.”Bearing the license plate number Taiwan No.0001 – the first issued for an autonomous vehicle in Taiwan – the minivan is an early but important advance in the region’s autonomous-driving technologies under a new initiative led by the Industrial Technology Research Institute (ITRI), which developed the test vehicle’s software, and the Hsinchu City government. SEMI president and CEO Ajit Manocha joined Hsinchu City mayor Chih-Chien Lin and ITRI vice president Pei-Zen Chang to promote the initiative at SEMICON Taiwan 2019 in the run-up to its launch during an October 22nd press conference in Hsinchu City. Taiwan luminaries attending the press conference were (L-R in photo below) Terry Tsao, SEMI Chief Marketing Officer and SEMI Taiwan President; Jwu-Sheng Hu, Vice President and General Director, ITRI Mechanical and Mechatronics Systems Research Laboratories; Der-Sheng Lin, Deputy Director General, MOEA Department of Industrial Technology; Chih-Chien Lin, Mayor of Hsinchu City; Pei-Zen Chang, Vice President, ITRI. ITRI and Hsinchu City government officials kick off the next phase of Taiwan’s smart transportation initiative in an October press conference near Nanliao Fishing Harbor, Hsinchu City. “This milestone in self-driving technology is a shining example of public-private partnerships in action to advance smart mobility and dovetails with SEMI's work building communities consisting of the automotive and microelectronics industries, government, and academia for collaborative innovation,” said Terry Tsao, SEMI chief marketing officer and SEMI Taiwan President. “We are thrilled to have joined ITRI and the Taiwan government in promoting the extraordinary power of technology to make automobiles and cities smarter.”Emmy Yi is a marketing specialist at SEMI Taiwan.
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For many technologies, standards unshackle them from patents and enable their mass production – an idea close to the heart of Wendy Chen, associate vice president of the R D Center at King Yuan Electronics Corp. and vice chair of the SEMI Taiwan Test Committee. More importantly, standards are crucial to a product’s commercial success: Producing it in high volume reduces its price and helps drive widespread adoption.With standards part and parcel to the economies of manufacturing , SEMI has sought consensus over the years among key players in materials, equipment, and other manufacturing segments on the importance of standardization in a push to cut costs.Chen first set herself to work on SEMI standards development in 2010, when 74 percent of 3D IC patents were owned by IBM. At the time, SEMI saw the huge potential in 3D IC and believed the lack of technology standards might hamper the future of the semiconductor industry.Motivated by that conviction, SEMI established the 3DS-IC Standard Committee in the U.S. in July 2010 and the SEMI Taiwan 3DS-IC Standard Committee the following year, and before long the committees were working together to form standards targeting mass production at low cost. The Taiwan committee was co-chaired by Wendy Chen, Dr. Yi-shao Lai (Advanced Semiconductor Engineering), and Dr. Zhi-kun Gu (Industrial Technology Research Institute). The trio spearheaded 3DS-IC standard development efforts in Taiwan.In setting the 3DS-IC standards, SEMI put the needs of the manufacturing sector first, Chen says, to ensure their implementation throughout the supply chain. SEMI saw Taiwan’s development of 3D IC standards, coupled with its manufacturing prowess, as key to securing the region’s place in the global 3D IC market.Wide Range of Industries Prosper With SEMI StandardsOf course the influence of SEMI Standards extends well beyond 3D IC to include protocols for hardware and software communication, traceability, compound semiconductors, facilities, MEMS (micro-electromechanical systems), metrics, silicon wafers, carriers and automation systems. The standards are used in a broad range of manufacturing segments including panel display, photovoltaic, PCB and high brightness LED.As recently as last February, SEMI Taiwan formed a PCBECI (PCB equipment communication interface) equipment networking pilot team to build a solid foundation for smart PCB manufacturing in the region. The team combined the SECS (SEMI equipment communication standard) and GEM (generic equipment model) interfaces to create the PCBECI protocol.Security Standards Vital in Smart ManufacturingWith smart manufacturing’s aim to drive new efficiencies comes growing security concerns in the global microelectronics industry. Improving communication within a manufacturing facility, and between that facility and trusted suppliers or partners, is central to the success of smart manufacturing. To improve communications, the conduits for the flow of information must first be secure. SEMI Taiwan is answering this critical need by creating a task force to promote information security standards – an effort that will give Taiwan a powerful voice in the development of global standards.For Taiwan, SEMI Standards is the backbone of a thriving semiconductor manufacturing industry. As many as 25 SEMI Standards are cited in a purchase order for a piece of semiconductor processing equipment, and standards helped propel Taiwan’s rise as global semiconductor manufacturing power. The region has produced a staggering 2.2 billion wafers and 1.8 trillion IC devices.Taiwan on Track to Become World’s Largest Equipment MarketTaiwan’s semiconductor industry continues to gather strength. According to the SEMI 2019 Mid-Year Total Equipment Forecast, Taiwan will dethrone Korea as the largest equipment market and lead the world with 21.1 percent growth this year.Since Wendy Chen started her work on standards in 2010, SEMI has published about 200 protocols. As part of the SEMI Taiwan Test Committee, she joined the celebration for another milestone – the publication of the 1,000th SEMI International Standard in July. The corks of the champagne bottles popped nearly a half century after SEMI began developing standards to accelerate innovation and help power what today is the $2 trillion global electronics industry.And with Taiwan’s rise to the top of equipment market, it has good reason to cheer too. Emmy Yi is a marketing specialist at SEMI Taiwan.
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Post-Conference Report: SEMI Heterogeneous Integration SummitDemand for high-performance computing (HPC) chips is exploding. These super-speedy chips are critical for data centers and cloud computing infrastructures to support new performance-hungry technologies such as artificial intelligence (AI) and 5G. The challenge is for the devices and their multi-core architectures to couple high bandwidth density with low latency and high energy efficiency. Heterogenous integration offers a potential answer as an advanced packaging technology designed to meet these skyrocketing performance demands on HPC chips and open the door to a whole new world of 3D integrated circuits (ICs).So important are 3D ICs that Intel and TSMC representatives speaking at the recent Heterogeneous Integration Summit hosted by SEMI Taiwan in Taipei declared that the packaging technology will all but dictate the future of the industry. All told, 12 speakers from government, academia and a broad range of leading international companies from sectors including advanced packaging, design, manufacturing, silicon photonics, equipment and materials shared forward-looking strategies, the latest technologies and potential heterogeneous integration market opportunities. Koushik Banerjee, vice president, TMG, Assembly, and Test Technology Integration, at Intel pointed out that using heterogeneous integration for a single SiP (system-in-package) will deliver what the industry has long wanted by enabling multiple process nodes, more diverse silicon IP (intellectual property) and chip functionality, and chips that pair low energy with high frequency. Intel plans to announce its first Forveros 3D packaging product combining a 10nm HPC chiplet with a low-energy 22nm base die and stacked with memory on top. When asked about the future of advanced packaging technology, Banerjee said it will be very much about the combination of Foveros and its very own Embedded Multi-Die Interconnect Bridge (EMIB).For its part, TSMC, will continue to upgrade its CoWoS (Chip-on-Wafer-on-Substrate), InFO (Integrated Fan-out) and other 2.5D IC production solutions while developing 3D chip stacking technology such as SoIC and WoW (wafer-on-wafer). TSMC is ushering in a new age of 3D IC packaging, said Marvin Liao, Vice President, Backend Technology and Service Division, at TSMC. The company’s SoIC is based on Chip-on-Wafer concept, with the flexibility to support one-to-many or different process nodes, whereas its WoW integrates two wafers with solid yields that could be used for products of the same size or manufactured with mature process technology.Speakers also included representatives from ATOTECH, Lam Research, SPIL, Sigurd, Cadence, Grand Process Technology, ITRI (Industrial Technology Research Institute), Industrial Development Bureau, and Lee San-Liang, Distinguished Professor, Department of Electronic and Computer Engineering at National Taiwan University of Science and Technology all shared their perspectives on equipment, materials, and testing and how different industry value chains might contribute to the development of heterogeneous integration technology.Expected to be a key driver of the next wave of semiconductors, heterogeneous integration and related technologies – including 3D IC, FOWLP (Fan-out wafer-level packaging) / FOPLP (Fan-out panel-level packaging), silicon photonics, Micro LED, compound semiconductor, automated optical inspection and SLT (system level testing) – will be a key focus at SEMICON Taiwan 2019, September 18 to 20 in Taipei. The Heterogeneous Integration Innovation Zone – along with featured international programs such as SiP Global Summit, Strategic Materials Conference, the Smart Data Summit and the Smart Automotive Summit – will gather key industry players to reveal the latest technology breakthroughs and market trends.Emmy Yi is a senior marketing specialist at SEMI Taiwan.
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Smart car technology is on the fast track. According to a forecast by the Consumer Technology Association, revenue for North American technology will reach $398 billion in 2019, with sales of emerging technologies related to automotive electronics alone expected to hit $17 billion, a 9 percent increase over 2018. Growth of automotive electronics in the semiconductor application market is on pace to exceed 10 percent for the first time, with a 11.9 percent annual compound growth rate from 2017 to 2022, said Peng Maorong, research manager of ITRI Industrial International. Today, automotive electronics trails only personal computers and mobile devices in driving semiconductor market revenue. For its part, Automotive World 2019, the world's largest exhibition for advanced automotive technologies, has drawn even more attention in recent years. The event consists of six exhibitions, including automotive electronics technology, auto parts, drive systems, lightweight materials, autopilot technology and car networking, and featured demonstrations of compelling technologies including an AI deep learning module (Xilinx) and high-speed car intranet technology (Israeli manufacturer Valens). Toyota is also on the cutting edge of automotive electronics with the rapid maturity of its semiconductors, AI technology and materials, and complete network technology. The carmaker is no longer just a pure-play automotive manufacturer. Instead, the automotive giant is positioning itself as a car service provider (mobility service provider) and plans to team with ride-sharing providers such as UBER and Didi and other automotive technology providers in the future.Taiwan, with its strong semiconductor industry chain and a complete ecosystem of information communication, will be a key force in the automotive market as the region looks to cross-industry and cross-border cooperation to help power the market. To help the automotive electronics industry seize the market promise of smart cars, SEMI established the Global Automotive Electronics Advisory Committee (GAAC), with members including Audi, Bosch, Denso, Ford, Honda, Nissan, Volkswagen, Amkor, Infineon, NXP, Synopsys and Wanghong. More than 30 international companies, spanning Europe, the United States, Japan and other regions are represented on the committee. The committee met for the first time this month in Taiwan to help leverage the prowess of Taiwan's microelectronics supply chain in advancing international automotive electronics, better link Taiwan to international trends, and give Taiwan a bigger voice in the emerging smart car market, and create more opportunities for resource integration across borders. To learn more about GAAC, contact Helen Chen Chen Huiyu | Email: [email protected] | Phone: (03) 560-1777 #112.Extended reading: smart car Baihua Qi will be the next wave of killer applications (on)Emmy Yi is a marketing specialist at SEMI Taiwan.
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New SEMI Taiwan Testing Committee to strengthen the last line of defense to ensure the reliability of advanced semiconductor applications.Mobile, high-performance computing (HPC), automotive, and IoT – the four future growth drivers of semiconductor industry, plus the additional boost from artificial intelligence (AI) and 5G – will spur exponential demand for multi-function and high-performance chips. Today, a 3D IC semiconductor structure is beginning to integrate multiple chips to extend functionality and performance, making heterogeneous integration an irreversible trend. As the number of chips integrated in a single package increases, the structural complexity also rises. Not only will this make identifying chip defects harder, but the compatibility and interconnection between components will also introduce uncertainties that can undermine the reliability of the final ICs. Add to these challenges the need for tight cost control and a faster time to market, and it’s clear that semiconductor testing requires disruptive, innovative change. Traditional final-product testing focusing on finished components is now giving way to wafer- and system-level testing.In addition, the traditional notion of design for testing, an approach that enhances testing controllability and observability, is now coupled with the imperative to test for design, which emphasizes drawing analytics insights from collected test data to help reduce design errors and shorten development cycles. Going forward, the relationship among design, manufacturing, packaging, and testing will no longer be un-directional. Instead, it will be a cycle of continuous improvement.This paradigm shift in semiconductor testing, however, will also create a need for new industry standards and regulations, elevate visibility and security levels for shared data, require the optimization of testing time and costs, and lead to a shortage of testing professionals. Solving all these issues will require a joint effort by the industry and academia. "With leading technologies and $4.7 billion in market value, Taiwan still holds the top spot in global semiconductor testing market," said Terry Tsao, President of SEMI Taiwan. "When testing extends beyond the manufacturing process, it can play a critical role in ensuring quality throughout the entire life cycle from design and manufacturing to system integration while maintaining effective controls on development costs and schedules. Taiwan's semiconductor industry is in dire need of a common testing platform to enable the cross-disciplinary collaboration necessary for technical breakthroughs."The SEMI Taiwan Testing Committee was formed to meet that need, gathering testing experts and academics from MediaTek, Intel, NXP Semiconductors, TSMC, UMC, ASE Technology, SPIL, KYEC, Teradyne, Advantest, FormFactor, MJC, Synopsys, Cadence, Mentor, and National Tsing Hua University to collaborate in building a complete testing ecosystem. The committee addresses common technical challenges faced by the industry and cultivates next-generation testing professionals to enable Taiwan to maintain its global leadership in semiconductor testing.The SEMI Taiwan Testing Platform spans communities, expositions, programs, events, networking, business matching, advocacy, and market and technology insights. For more information about the SEMI Taiwan Testing platform, please contact Elaine Lee ([email protected]) or Ana Li ([email protected]). Emmy Yi is a marketing specialist at SEMI Taiwan.
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4 Key Takeaways from SEMI Taiwan Member ForumThe rapid development of artificial intelligence (AI) has accelerated the digital transformation in various industries and has now fused with Internet of Things (IoT) to exploit the value of both technologies in reshaping the electronics industry value chain. As it emerges from the shadows of its parent technologies, AIoT is giving rise to new opportunities in manufacturing, healthcare, transportation, and even energy. AIoT is fast rising in prominence as an enabler of key electronics manufacturing process improvements and the creation of add-on value to existing products – both critical to the success of many businesses.SEMI and the SEMI MEMS Sensors Industry Group (SEMI-MSIG) held a technical forum on smart sensing and its applications in AI and AIoT, inviting renowned experts in sensors and edge computing to share in-depth insights into the latest AIoT technologies and applications with more than 100 industry professionals in research and development, marketing and sales. Here are four key takeaways from the SEMI Taiwan member forum.1. Steady Growth for Global Sensors MarketThe global sensors market’s steady growth is expected to expand at a CAGR of 6.6 percent from 2017 to 2023, with Asia driving the biggest gains and automotive leading the segments – including healthcare and education – with the strongest growth. Automotive alone is expected to reach US$34 billion in 2023.2. Integration Critical to MEMS Sensors DesignsWith AI booming, MEMS sensor designs need to drive toward greater integration —not only integrating data collection with sensors, but also streamlining data processing on the backend – making 3D models of today’s MEMS mechanical designs critical. The differences between 3D and entrenched 2D models are dramatic, elevating the importance of specifying manufacturing steps in MEMS designs. As new sensors and applications continue to emerge, companies that develop the most powerful integrated designs will win. 3. Growth of Smart Voice-Control Applications to ExplodeAIoT is also accelerating the development of smart voice-control applications and the rise of new related business opportunities. Just 50 million voice-controlled devices shipped worldwide in 2017, a number predicted to swell to 436 million in 2021 with smart home devices such as set-top boxes and smart TVs the major growth drivers.4. AIoT Eyed to Make Human-Robot Collaboration SafeSafety is an essential feature for human-robot collaboration. Tactile sensing technologies give robots a layer of “skin” with capabilities rivaling human touch. To ensure humans and robots work together safely in work environments, sensors on this layer of skin are concentrated – less than 8mm apart, equivalent to the width of a human finger, with a response time of less than 5ms on contact. More than 4 million robots worldwide are expected to be upgraded with these sensing technologies and are on track for deployment in pilot plants in the next three years.SEMI-MSIG is committed to strengthening connections across all sectors in the MEMS and sensors supply chain, working closely with the industry to accelerate the development of related technologies and applications in both mature and emerging markets. In addition, SEMI-MSIG hosts regular events to inspire business opportunities and technology exchange for innovative applications, while enhancing the visibility of members among global customers and partners to help them forge new partnerships. To join the group, contact SEMI Taiwan’s Helen Chen at [email protected] Yi is a marketing specialist at SEMI Taiwan.
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