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The Semiconductor Sustainability Summit at SEMICON Taiwan in September focused on three themes - Green Innovation of Zero Waste, Carbon Reduction, and Sustainable Innovation in Semiconductor Manufacturing - as the semiconductor industry drives toward net-zero carbon emissions.

SEMICON Europa, SEMICON West, SEMICON Japan, & SEMICON Taiwan welcome back exhibitors and visitors to show floors starting in mid-November as four of SEMI’s seven flagship events gather visionaries and industry leaders to explore the latest semiconductor trends and innovations by the end of 2021.

Over the next five years the Taiwan government plans to invest NT$1.546 billion to build the workforce direly needed for future semiconductor industry research and development. The largesse is a tribute to efforts by SEMI president and CEO Ajit Manocha to enhance the competitiveness of the semiconductor industry by stressing the importance of talent development during his annual visits with the Taiwan president. He has been instrumental in bringing together Taiwan government agencies and local industry representatives – two players in developing the talent pool of the future – to discuss workforce initiatives.As the talent gaps threatens to choke the long-term growth potential of the chip industry, Manocha has emerged as a passionate champion of workforce development. In a letter to more than 2,000 semiconductor companies worldwide, he urged to executives act together to build the workforce vital to industry growth. In 2018, he met with Taiwan President Tsai Ing-wen to discuss ideas for attracting and retaining skilled workers to help ensure Taiwan remains a top investment destination for high-tech multinationals.In early 2019, SEMI Taiwan established its SEMI Taiwan Workforce Development Council to promote talent and career development. Already, the group’s work is resonating in the global semiconductor industry. In September last year, Manocha joined executives from industry heavyweights ASE, MediaTek and TSMC in a visit to President Tsai to urge the government to pursue industry sustainability through talent development. President Tsai responded by instructing her staff to review government resources available for talent development, help drive public-private dialogue and partnerships, and form talent development projects involving the government, industry, academia and research institutes.To carry out comprehensive workforce initiatives, SEMI Taiwan continues to work with the National Security Council and the Executive Yuan (the cabinet). We also launched the Semiconductor Industry Development Council in partnership with leading high-tech companies in Taiwan including ASE, TSMC, MediaTek, PSMC, VIS, MXIC, Nanya, Etron and UMC. Focused on developing semiconductor talent and technology, localizing equipment sourcing, and improving cybersecurity, the council has formed the following seven initiatives: Make existing government talent development programs more flexible to better meet the industry’s workforce needs. Recruit outstanding scholars and leading experts in scientific research, and solicit world-class scientific research teams. Extend age restrictions and other requirements for the Einstein Program (established by the Taiwan MOST, Ministry of Science and Technology) to attract outstanding foreign scholars to Taiwan. Establish a domestic semiconductor research ecosystem and provide sufficient research funding to cultivate R D talent. Strengthen female education in STEM (science, technology, engineering, mathematics) and encourage women to re-join the workforce to help meet the industry’s workforce needs. Continue to promote MOST University-Industry Collaboration Projects (Large Alliance) to connect the upstream academic and research sector with downstream industries. Encourage cooperation between science and technology universities and the chip industry to develop the talent necessary for smart manufacturing to thrive. SEMI’s advocacy efforts with the Taiwan government, the industry and academia are clearly paying off. The Executive Yuan recently announced three major talent development strategies – expanding the talent development capabilities of higher education institutions, promoting industrial-academic cooperation and encouraging businesses to strengthen recruiting efforts and increase funding for semiconductor talent development.The building momentum includes plans by the Taiwan Ministry of Education plans to establish semiconductor technology research centers at several national universities. By passing the sandbox law and loosening regulations organizational personnel, finance and education, the government is freeing up more funding to support semiconductor industry talent development. The ministry also plans to gradually expand the number of students enrolled in STEM curriculum and continues to promote talent training programs and recruiting strategies to help close the workforce gaps and reduce related industry risks. A highly skilled workforce is indispensable to the development of the semiconductor industry and among the most strategic resources in any region. It’s only through long-term partnerships between the government, industry and academia that impactful and sustainable workforce development goals and initiatives can be developed to help the chip industry realize its full potential to innovate and solve some of the world’s greatest challenges. The programs are key to the ability of Taiwan’s semiconductor industry to sharpen its competitive edge. More importantly, they are also the center of gravity in the region’s pursuit of its position as the global semiconductor hub. Jo-Ann Su is senior director and Winnie Chang is marketing and public relations specialist at SEMI Taiwan.

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

Technologies promising huge growth such as Artificial intelligence (AI), 5G, machine learning, high-performance computing, and telematics are ratcheting up pressure on semiconductor manufacturers in the race among product makers to accelerate time to market and capture share. To support rapidly evolving end markets for these and other technologies that are key drivers of industry growth, chipmakers are boosting semiconductor performance, producing more wafer sizes and improving manufacturing efficiency.At the same time, chip manufacturers must enable unprecedented end-product reliability for exploding markets such as automotive and healthcare markets where, with lives at stake, products can’t afford even the slightest lapse in reliability. In response, chip suppliers are retooling their manufacturing processes to support 3D stacking, package-level integration and miniaturization. But they must do more. Bringing high efficiency to all phases of manufacturing including design and materials is the new imperative. The key to quality management is not in the traditional post-production testing and damage control but in prevention. Delivering the highest quality and reliability must start in the earliest stages of production with manufacturing and testing design – an approach that reduces not only the cost of downstream testing but minimizes product defects that can damage a supplier’s credibility and lead to lost business.To that end, SEMI has launched its Quality Assurance Special Interest Group (SIG) consisting of representatives from industry leaders such as Infineon, NXP, TSMC, UMC, ASE, Unimicron, and GCE. The group's goal is to establish quality requirements spanning the supply chain to meet new, higher reliability standards and help safeguard Taiwan’s competitive edge in the global microelectronics industry. Meeting for the first time earlier this month, the companies exchanged ideas for improving quality management in semiconductor manufacturing and ultimately deliver the reliability the market needs.The company representatives unanimously agreed that the first step is to ensure a QA-friendly environment with quality requirements for various stages of chipmaking ranging from design, manufacturing, packaging and testing to even PCB and CCL production. The SEMI Quality Assurance SIG this year plans to build on its current membership by enlisting companies from various fields to address critical areas of reliability including statistical process control, surface-mount-technology-based board level reliability control, and 0 dppm quality control for automotive chips. SEMI Quality Assurance Special Interest Group consists of leading companies in the industry, including Infineon, NXP, TSMC, UMC, ASE, Unimicron, and GCE. “SEMI’s comprehensive platform of exhibitions, programs, forums, trade meetings and matchmaking events is instrumental in bringing together key industry players to enhance quality management practices and meet the growing reliability requirements of the end markets we serve,” said Terry Tsao, chief marketing officer at SEMI and president of SEMI Taiwan. “The Quality Assurance Special Interest Group is a shining example of how SEMI continues to support the crucial role of Taiwan’s semiconductor industry in the international community.”For more information about the SEMI Quality Assurance Special Interest Group or to become a member, please contact Emmy Yi at [email protected] Yi is a marketing specialist at SEMI Taiwan.

The march to greater precision, efficiency and safety – the lifeblood of high-technology manufacturing facilities – has taken on a new urgency as emerging applications such artificial intelligence (AI), the Internet of Things (IoT) and Industry 4.0 give new meaning to smart factories. Facing fiercer competition and ever more sophisticated fabrication processes, semiconductor fabs are under intense pressure to keep pace with new technologies as they work to upgrade. Nowhere are the stakes higher than in Taiwan, where high-tech manufacturing contributes mightily to the region’s GDP growth. To help Taiwan fabs confront the challenges and opportunities of designing smarter factories, SEMI and its High-Tech Facility Committee hosted the High-Tech Facility Workshop in June. SEMICON Taiwan 2018 High-Tech Facility Pavilion exhibitors gathered to explore how they can build smarter factories by deploying smart surveillance and disaster prevention technologies along with smart communications systems that better use manufacturing data to drive new safety and product quality efficiencies.During the workshop, SEMI High-Tech Facility Committee representatives shared strides it has made upgrading overseas facilities and developing standards to help establish smart factories in Taiwan.SEMICON Taiwan – 5-7 September at Taipei’s Nangang Exhibition Center – is also an important event for advancing smart manufacturing in Taiwan. Nearly 30 leading global manufacturers will exhibit at the SEMICON Taiwan High-Tech Facility Pavilion. The venue covers operational aspects of semiconductor manufacturing vital to becoming smarter including energy savings, nano-contamination control, facility information modeling, precision instrumentation and control, fire protection, mechatronics, and automation control. The pavilion will also feature a series of theme events offering a comprehensive overview of topics including the latest practices for integrating smart facility capabilities from the perspective of an advanced fab designer.At the TechXPOT stage, High-Tech Facility Pavilion exhibitors will also demonstrate the latest technology breakthroughs and cutting-edge smart factor solutions.The September 6th High-Tech Facility International Forum at SEMICON Taiwan will again gather factory experts and thought leaders from industry and academia to examine “Effective Ways to Make a Facility Smart.“ Experts from industry heavyweights in the fields of wafer foundry, LCD, memory and semiconductor packaging including TSMC, UMC, Innolux, ASE, Micron Taiwan, Winbond and VIS will offer insights into key areas of high-tech facilities including facility electricity, machinery, water management, vaporization and automation systems. On the same day as the forum, the High-Tech Facility Get-Together and High-Tech Facility VIP Dinner will bring together industry elites, academic professionals, and government officials to explore partnership opportunities. SEMI Taiwan and the High-Tech Facility Committee share HTF market trends information, technology updates and standards with SEMI members and exhibitors. Founded in 2013, the High-Tech Facility Committee now has 85 corporate members. Dedicated to accelerating industry collaboration through the integration of Taiwan industrial, government and academic resources, the committee each year holds several group meetings focusing on topics including energy savings, earthquake and fire protection, nano-contamination control, and precision instrumentation and control to advance critical technologies and facilitate standardization. The committee also aims to help the industry become more competitive faster by promoting technology standards that boost productivity and reduce production costs.Please visit www.semi.org and www.semicontaiwan.org for more information about SEMI’s high-tech facility initiatives.Iris Tsou is a marketing specialist at SEMI Taiwan.

The fast-growing automotive semiconductor market means big change for the IC supply chain. Beyond the obvious demands for reliability and traceability, the sector is moving towards simpler and lower-cost solutions while facing the daunting challenge of automating driving in a complex world. The need for simpler and cheaper automotive intelligence will likely drive acquisitions to build complete platform solutions that are easier to integrate. This demand has already spawned a market for pre-configured test cars to save developers time and money, and is driving LiDAR (Light Detection And RADAR) towards lower-cost, solid state solutions. “The growth of the automotive electronics market provides a great opportunity for the IC supply chain to differentiate on specialty processes and quality for the high-volume automotive business with its long design cycles,” says Scott Jones, principal, strategy, at KPMG, who will speak in the automotive program at SEMICON West. “This differentiation is a chance to reduce chip suppliers’ dependence on scaling volume for the mobile phone world with its short-cycle volatility of winning and losing sockets.” He notes that increasing demand for automotive ICs is also reinvigorating the eight-inch supply chain and spurring opportunity for specialty products such as compound semiconductor devices for power efficiency. Supplying the automotive market also means addressing automotive reliability requirements, which can be 10 times more stringent than for consumer devices. At the same time, the industry must sustain fast-paced development cycles required for the volume and diversity of low-cost IoT devices, manage the segmented supply chain for both those markets, and still spread development costs. Another big challenge for the supply chain will be to automate testing and update vast amounts of embedded software in these automotive devices. “The more complete solution a company can put together, the more the automakers will gravitate to it. They want simplicity,” Jones suggests. Smaller players will need to differentiate with IP and acquire other IP provider to build a broader platform, or be acquired and folded into an all-in-one solution.AutonomouStuff helps accelerate and simplify development of autonomous driving solutionsAutonomouStuff is helping to speed development of these platforms. The company has grown from a sensor distributor into a supplier in the emerging niche of vehicles preconfigured with key interfaces for sensors and controls. These interfaces can then be customized by integrating different components for developers to test their applications. AutonomouStuff offers developers a lineup of vehicle models pre-configured with the interfaces needed to add desired chips, sensors and software to develop their autonomous vehicle systems. Source: AutonomouStuff.“Whether they’re major chipmakers or AI software startups, they don’t have a year to build their own vehicle platforms themselves for developing autonomous vehicle systems,” says Wolfgang Juchmann, VP sales and business development at AutonomouStuff. Juchmann, a SEMICON West speaker, will bring a demonstration vehicle to the show. “In four to six weeks we can prepare a custom test car with selected sensors, enabling users to start testing their computer platforms and software. It’s faster and more cost-effective for us to supply the car with the needed interfaces.” He notes that developers are using some 300 AutonomouStuff vehicles in the field. AutonomouStuff customers are starting to transition from testing on a single car or two to testing on mini-fleets with 50 to 100 vehicles. Beyond sensors and pre-configured vehicles, the next step will be to add more data intelligence services to help with capabilities like tagging the data for training, Juchmann says. AutonomouStuff already offers hardware to support Baidu’s Apollo open-source software stack and data set. The company was recently acquired by the Swedish holding company Hexagon to help support expansion.CMOS silicon LiDAR nears automotive qualificationInnovations in the hyper-competitive LiDAR market, where burgeoning demand is driving the race to develop various types of solid-state devices, may also help reduce the cost of autonomous vehicles. Among the roughly 40 LiDAR suppliers, at least one – Quanergy – is taking advantage of 45nm and 32nm foundry CMOS volume production. The company uses voltage through the semiconductor stack to change the refractive index, controlling the phases of optical beams and the resulting interference patterns of light exiting the chip to quickly steer the laser beam without the need for moving parts, much like the phased array radar its team developed earlier. Solid state LiDAR image with object recognition software. Source: QuanergySo far, most of the small LiDAR units have shipped to the security, industrial automation, drone, robots and 3D mapping markets. However, Quanergy CEO Louay Eldada, another SEMICON speaker, says the company is also winning automotive designs and expects automotive shipments to take off early next year, once automotive certification testing is completed. “We can get design wins because standard CMOS production at TSMC makes us a known entity,” says Eldada. To prevent component misalignment, the company produces its own specialized packaging to secure the laser, phase control ASIC, optical phased-array emitter, detector array, and receiver readout ASIC at its plant in Silicon Valley or the facility of its automotive partner Sensata. Through its software business, Quanergy offers an artificial intelligence (AI) perception program for object recognition and LiDAR tracking. The solution uses the people-tracker software the company acquired from Raytheon.SEMICON West this year expands to three full days of automotive electronics programming and features a Smart Transportation Pavilion. Other companies with experts who will speak as part of the program include XPT/NIO, Infineon, McKinsey, Voyage, GM Cruise, Bosch, Deepen AI, Airbus A3, Nvidia, Excelfore, Byton, Macronix, SK Hynix, SAP, Xilinx, Achronics, California Fuel Cell Partnership, Velodyne, Lam Research, KLA-Tencor, SCREEN, Rockwell, Versum Materials, TechSearch International, Entegris, ASE, Amazon, Continental and Wind River. www.semiconwest.orgPaul Doe, SEMI