AI

The proliferation of chips driven by artificial intelligence and automotive will spur a record $68 billion in sales of semiconductor equipment in 2019.Building the workforce of the future is at once a challenge and opportunity for the semiconductor industry, the key to continuing the rapid pace of innovation and growth. And tariffs levied against billions of dollars of Chinese imports by the Trump administration has profound implications for SEMI members and the chip industry as a whole.Jonathan Davis, Global Vice President of Industry Advocacy at SEMI, offers insights on these key semiconductor industry issues in this interview at SEMICON West 2018. Ariana Raftopoulos is a marketing manager at SEMI.

Standing-room only keynote speeches. A future awash in data amassed by transformative technologies and applications, with semiconductors at their core. Smart everything: Cars, medicine, manufacturing, workforce, you name it. The sheer numbers impressed as a record lineup of SEMICON West keynote speakers offered a glowing portrait of the future: The semiconductor industry stands on the cusp of a breakout expansion. Standing and seated shoulder-to-shoulder in the packed-to-gills opening keynote, the audience learned, indeed, that the best was yet to come: “This is the best SEMICON West, ever,” observed SEMI CEO Ajit Manocha. Here’s a glimpse of the keynotes by the numbers, starting with the luckiest of all. 7 – The number of keynotes – among the brightest lights in technology – sharing their visions of the future through the lens of breakthrough technologies that are nearly ready to make their indelible mark. Dozens of expert panelists also weighed in at SEMICON West, the annual U.S. flagship microelectronics gathering in San Francisco. 90 – The percentage of all data ever generated has been created in just the past two years as the cloud mushrooms with tweets, texts, emails, Facebook posts, YouTube videos, medical records and all manner of business information, noted Bill Bottoms, president and CEO of Third Millennium Test Solutions. In the years ahead, an almost unimaginable wealth of data will require analysis by artificial intelligence (AI) embedded in semiconductors to enable applications that go well beyond smart. 12-18 – That’s how many months it will take for data volume to double, predicted John Kelly III, IBM’s Senior VP, Cognitive Solutions. And it will double again and again, every 12-18 months. Kelly foresees a scale of growth “that will dwarf previous eras of computing … the number of opportunities is enormous.” Kelly’s four decades in computing gave considerable weight to his point that “in the industry, there has never been a more exciting point in time than today.” First – Technology is being re-born. Using baseball lingo, several speakers noted that we are just in “the first inning,” “the top half of the first inning” or “the beginning of the first inning” to make clear in the most emphatic terms the duration of prosperity that lies ahead for the industry. AI embedded in chips and demand for real-time analysis of AI data will be its fuel. As SEMI Americas president Dave Anderson observed with a smile, “We all know how long baseball games can go.” Third – That’s the current wave of machine learning the world is now experiencing, according to Sandia National Laboratories’ Principal Member Conrad James. Computers are now capable of solving many increasingly complex problems on their own, with no human intervention necessarily required, he said. 1000x – As spectacularly fast as computing power already is today, the industry will need to double that the rate of performance in the years ahead, predicted Applied Materials president and CEO Gary Dickerson. Demand for this herculean processing capacity will spur a “tremendous focus on innovation” among SEMI members, their customers and their customers’ customers. 5 to 15 – The remarkable amount of silicon that power today’s mobile devices will be overshadowed by the chips – equivalent in computing capacity to 5 to 15 cell phones – that will be the engine of self-driving and other features in future automobiles, predicted Pierre Ferragu, New Street Research Managing Partner, during the SEMI Bulls and Bears session. Automobiles with this souped-up computing capacity will sell in the millions worldwide in the years ahead, generating never-before-seen opportunities for the chip industry, he noted. 10,000 – It’s not just cars. Ten thousand is the number of sensors that will be built just into the wings of new Airbus A380-1000 aircraft, AMD CTO Mark Papermaster explained during his keynote. 10 terabits – The staggering amount of Facebook data uploaded daily in to the cloud, Papermaster noted. 1 Trillion – SEMI’s 2020 forecast that the industry will reach $500 billion in revenues by 2020 was eclipsed by one analyst, speaking at the SEMI Market Symposium on the first day of the event, predicted that the industry would top $1 trillion in the foreseeable future. SEMI’s Manocha later added that $1 trillion in industry revenue is possible by 2030, “maybe sooner.” 1 (sexy) coda – Coders are hip and software applications are the apple of the world’s eye. Even the most casual mobile device user knows that software apps makes it whirl. But “hardware is becoming sexy again,” said Applied Materials’ Dickerson, adding that equipment and other semiconductor hardware developed by SEMI members will enable the next great wave of global economic growth. Scott Stevens, SEMI

Powerful winds of change are re-shaping the semiconductor industry as it flexes and re-positions to power a new wave of growth on the back of emerging applications. Today, the industry is thriving, with growth expected to continue through 2019 even as Moore’s Law – the trusty doubling of transistors roughly every two years – begins to pump the brakes. Product mix and production technology are shifting as the dominant smartphone and PC markets, having seen their growth peaks, start to give way to large markets with relatively low semiconductor penetration, such as automotive.What’s more, new potentially ubiquitous technologies and platforms such as AI, blockchain and smart manufacturing are redefining market dynamics and the semiconductor ecosystem that underlies them.Troublingly, the most significant threats to the continued growth of the semiconductor industry are not of its own making. Macroeconomic trends and trade policy disputes loom.These were some of the key takeaways from the SEMI Market Symposium kicking off SEMICON West in San Francisco this week. Following is a deeper look.Semiconductor MarketThe consensus view, reflected in forecasts presented by Clark Tseng of SEMI and Bob Johnson of Gartner, is that the semiconductor industry could top $500 billion in 2019 after reaching $400 billion in 2017. According to Gartner, smartphones and PCs will continue to account for large parts of the market, but will be displaced as major drivers of market growth by the emergence of industrial, automotive and, to a lesser extent, storage, from 2017 to 2022. Johnson noted that while communications and data processing applications drive logic device demand, average sales prices (ASPs) are a bigger contributor to revenue growth than unit growth.Leading-edge processors are a big part of the ASP picture, with equipment costs increasing ~20 percent per node. One challenge is that as Moore’s Law loses steam, leading logic producers are increasingly going their own way with new production technology. The volatile DRAM market – now in a “super cycle,” according to Tseng, and expected to peak in 2019 – has been stoking memory market growth.Initially, supply shortages fueled memory price increases as three of the four leading memory makers invested in flash rather than DRAM capacity. However, memory prices have been more recently been lifted by technology complexity, particularly as DRAM has moved to 3D architectures. The good news is that pricing, at long last, appears to be driven by value.Automotive MarketWith automotive accounting for less than 10 percent of semiconductor demand, there is room for growth. Rudy Burger of Woodside Partners noted that while the end market for automobiles is growing slowly, at 3 percent CAGR, the market size is nearing 100 million units. In market segments such as electric vehicles, the semiconductor content exceeds $1,000 but can be much higher.For example, the BMW i3 sports over $4,000 in semiconductor content. Burger said connectivity, autonomous driving and shared mobility services are also key opportunities for semiconductors to deepen their penetration in automobiles. For instance, the auto market for cameras, is expected to grow from $2 billion in 2017 to $6 billion in 2022.On average, high-end vehicles feature over $1,000 in semiconductor content, whereas low-end vehicles hover in the $400 range, said Anand Srinivasan of Bloomberg. Because the automotive market is segmented by function or subsystem, with different suppliers focusing on different areas, there is little supply concentration. Srinivasan also pointed out that because of significant differences in their objectives, automotive safety and automation systems should be developed separately.BlockchainThe chief benefit of blockchain is the trust it begets among all parties to a digital transaction through four fundamental features, said David Treat of Accenture: The tracking of provenance (knowing who has touched data, and what has happened to it) Tamper evidence (knowing if someone has tried to change the data) Control (which data elements to share with which parties) Security at the data element level While most of the hype over blockchain focuses on tokenized assets and ledgers (bitcoin and other cryptocurrencies), the fundamental application in the semiconductor industry is sharing trusted access to reference data at the data element level. This ability to provide shared trust can reduce costs throughout the supply chain and across enterprises. For example, future blockchain implementations will offer a full ecosystem view to any supply chain participant. While blockchain has typically been deployed through centralized control or platforms, peer consortia, such as SEMI, could help weave the benefits of blockchain through various ecosystems by enabling equipment and material suppliers, device manufacturers, designers and system integrators to share business and technical information securely and, if desired, anonymously.Global and Macroeconomic TrendsThe biggest threats to the continued growth of the semiconductor industry are exogenous. After a decade of steady recovery since the financial crisis, the global economy appears to be heading for a slowdown. Duncan Meldrum of Hilltop Economics made the case that the global economy is at or just past the peak of the business cycle, and semiconductor equipment is past the peak.A key indicator of a looming recessionary is the movement toward an inverted yield curve, in which long-term interest rates fall below short-term rates – a phenomena that could materialize this year or next.The increasingly heated trade climate, marked by high-stakes confrontations between the U.S. and China, threatens complex supply chain arrangements, though mercurial policy statements could do even more harm than stiffer trade tariffs. Underscoring competing interests between the U.S. and China and the unpredictability of their relations, Robert Maire of Semiconductor Advisors pointed out that, in 2019, 60 percent of all semiconductors are expected to be used in China, deepening the dependency of several U.S. semiconductor companies on China.Paul Semenza, for SEMI Industry Research and Statistics

Device manufacturers continue to invest. Spending in cloud data center (compute, networking and storage), automotive (content per car increases), industrial (on content, factory automation, and positive macro trends), and consumer (gaming) end-markets is particularly strong. We see capital expenditure growth in 2018 and early indications pointing to sustainable spending into 2019. We also expect 14 percent increase (YoY) for fab equipment spending in 2018, up from the February forecast of 9 percent, and expect 9 percent increase in 2019, adjusted from the February forecast of 5 percent. 92 future facilities/lines with various probabilities are scheduled to start production in 2018 or later. Fab investment is just one indicator of how growing demand in areas such as from Artificial Intelligence (AI), cloud/data storage, automotive and Internet of Things (IoT) is driving unprecedented spending in the semiconductor industry. Below are a few highlights* of recent SEMI FabView insights. Details of each project can be found in FabView online 24/7 or World Fab Forecast report (Excel format). Infineon’s new 300mm Fab in Austria - Infineon is planning a new 300mm thin wafer Fab for Power Devices in Villach, Austria. Rumors on Toshiba’s new Fab plans - More 3D NAND fabs in the future at Toshiba are feasible. The timing will depend on market conditions, and our forecast will adjust accordingly. Vanguard's possible 300mm foundry fab - Vanguard's management said it might buy or build a 300mm fab in the near future as all 200mm fabs are essentially full. Powerchip plans to build new memory fab in Taiwan - Powerchip is investing more in expansions since Memory pricing is holding up. Rohm announced to build a new SiC fab in Fukuoka Japan - Rohm announced its plans to build a new SiC fab. Micron is building a new fab in Singapore - Micron broke ground in a ceremony for a new fab in Singapore on April 4, 2018. Bosch had groundbreaking ceremony of their 300mm fab in Dresden end April 2018 - Investment of 1 billion Euro. This is the biggest single investment in Bosch’s 130-year history. SEMI FabView, a mobile-friendly, interactive version of SEMI’s popular World Fab Forecast, delivers on-demand fab information such as fab spending and capacity for over 1,100 facilities, including over 82 planned facilities worldwide, across a wide range of product segments including Power, GPU, Memory, Foundry, MEMS and Sensors fabs. Fab data include region, start of construction, operation, construction and equipment spending, capacity, wafer sizes, product types and geometries. SEMI FabView subscribers receive forecast model updates through SEMI’s World Fab Database. Click here for a trial to experience SEMI FabView first hand. *Actual updates provide more detail Christian G. Dieseldorff and Clark Tseng, Industry Research Statistics Group, SEMI.

The growth of China’s semiconductor industry outstripped sector expansion in many other regions in 2017 thanks in part to heavy government investments and supportive state policies. But China’s chip industry also struggled under the weight of overheated investment, inconsistent project quality, insufficient investment in research and development, a poor ability to innovate, and barriers to international cooperation. To overcome these headwinds to growth, China must identify global trends in the development of global semiconductor industry and better understand the forces it needs to mobilize to further expand its own semiconductor sector. AI and 5G fuel global semiconductor industry growthIn 2017, global semiconductor industry revenue reached a seven-year peak, expanding 22 percent to nearly USD 420 billion, and entered a new growth phase with artificial intelligence (AI), 5G and other new technologies leading the surge with greater market segmentation, diversification and decentralization. The emergence of smart automobiles, smart cities, smart medicine, AR/VR and other new markets headed the list of new applications. In the next three to five years, semiconductor industry growth is expected to remain stable, with no marked declines. In 2018, the growth rate is expected to fall to between 5 percent and 8 percent, with the expansion more comprehensive and balanced. The memory market, in particular, will find it hard to match its 2017 blistering growth rate. The market’s expected growth of 10 percent to 20 percent will be chiefly driven by DRAM and 3D NAND Flash. In 2019, NAND growth will continue but DRAM shipments could decline. Emphasis on both innovation and investment key to sustainable growth of Chinese IC Under the China government’s Guidelines to Promote National IC Industry Development, designed to provide key policy guidance and capital support for the development of China’s IC industry, the Chinese semiconductor industry is seeing particularly rapid growth that is expected to be a key contributor to continuing global industry expansion. In IC design, HiSilicon and Unigroup Spreadtrum RDA ranked among the top 10 in the world. In wafer fabrication, Chinese IC manufacturing accounted for 13 percent to 15 percent of global market capacity despite SMIC and Huahong Group lagging international competition in advanced processing. In packaging and testing – China’s strongest segment – JCET, NFME and Huatian Technology also ranked in the global top 10. The Guidelines to Promote National IC Industry Development has fueled a boom in capital investments. However, investments must go well beyond fab construction to add new capacity for China’s semiconductor industry to flourish. A strategy for sustainable, long-term chip industry growth must focus more on technology innovation while continuing heavy capital investments, though it takes time for innovation to lead to higher capacity demand and GPD growth and more jobs. Despite large investments by the 02 Special Project in semiconductor equipment and materials, China trails other regions of the world in advanced technologies. Global spending on semiconductor equipment reached a record-breaking USD 56 billion in 2017, with Korea a major driver. In 2017, Samsung alone invested USD 25 billion in semiconductor equipment, followed by TSMC (USD 10.8 billion), Intel (USD 11.5 billion), Hynix (USD 8.5 billion), Micron (USD 0.5 billion), SMIC (USD 2.3 billion) and YMTC (USD 2 billion). In 2018, Samsung’s equipment spending is expected to drop slightly, to USD 24 billion, while investments by Intel and TSMC will be remain roughly equal. China’s equipment spending will continue to grow in 2018, with SMIC and YMTC maintaining investment levels similar to last year’s and other China semiconductor manufacturers starting to ramp up investments. In 2018, China is expected to surpass Taiwan in equipment spending to claim the number two position after Korea. SIIP China dedicated to international connection and cooperation The huge investments in China’s semiconductor industry need to be supported by robust business strategies, greater international cooperation, deeper expertise in advanced technologies, and more skilled workers. China lags the global industry in all of these areas. The rapid rise of China’s semiconductor industry has raised concerns among many countries over China’s growing influence, with some, most notably the United States, going so far as to implement containment measures. Other regions including Japan, Korea and Taiwan followed suit. The continued growth of China’s semiconductor industry hinges on technological innovation enabled by international cooperation, as well as strong international communication to allay concerns and misunderstandings over the rising prominence of China’s chip sector. China must overcome these obstacles. One partial solution is for China to convince the rest of the world that its need a thriving semiconductor industry if only to meet enormous demand for electronics products within its own borders. As the largest international semiconductor industry association, SEMI enjoys a unique ability to strengthen the connection between China’s semiconductor sector and its international counterparts. SEMI is well-known for its vital support of the traditional semiconductor equipment and materials markets, but SEMI’s work also spans IC design, manufacturing, packaging and testing. What’s more, SEMI has expanded into innovative market vertical applications such as AI, smart manufacturing, smart transportation and smart automotive as it aims to bring together supply chains across these growth areas. For its part, SEMI China remains dedicated to improving communications and cooperation between the Chinese and global semiconductor industries. SEMI China will also continue to encourage deeper collaboration among individual enterprises and government institutions in the interest of industry growth while making full use of SEMI’s international, professional and localization platform to promote the development of China’s semiconductor industry. Last year, we established SEMI Innovation Investment Platform (SIIP) China to help grow China’s pool of skilled workers, promote advanced technology, generate industry capital, and expand China’s semiconductor industry while developing stronger connections with chip sectors in other regions. SIIP China is focused on the following: Promoting sustainable development of the Chinese semiconductor industry Establishing stronger connections to help take advantage of global technology and investment opportunities Providing a platform for open communications between the Chinese and global semiconductor industries Promoting greater coordination between China and its global partners Helping newly enterprises secure funds for expansion Encouraging greater cooperation with foreign semiconductor manufacturers in the interest of openness and mutual benefit will be the best way for China to overcome obstacles to the development of its semiconductor industry. Meanwhile, China will continue to strive to merge into the global semiconductor industry and become a key partner. SEMICON China has witnessed the development of Chinese semiconductor industry SEMICON China marked its 30th anniversary this year. Over the past three decades, China’s semiconductor industry has seen remarkable growth. This year’s SEMICON China was the largest ever. SEMICON China and FPD China 2018 numbered 3,628 booths, covered 74,000 square meters of exhibition space and attracted 1,116 exhibitors from 21 countries and regions and 91,252 professional attendees from 58 countries and regions. Most of China’s top device makers and global leading packaging houses, together with their equipment and materials suppliers, exhibited at SEMICON China and FPD China 2018, representing the global IC manufacturing ecosystem. The number of SEMICON China and FPD China 2018 visitors jumped 32.3 percent from last year, with representation by professionals from the design, manufacturing, assembly and test, equipment and materials sectors. Lung Chu is President of SEMI China.

Since 2010, 474 companies worldwide have poured $51 billion into developing artificial intelligence (AI) devices, with the bulk of these investments targeting autonomous driving and in-vehicle experiences, according to a McKinsey Company report. With the extraordinary growth potential of AI and automotive electronics, it’s no surprise that IHS Market predicts the Advance Driver Assistance Systems (ADAS) market will reach $67.43 billion by 2025. By 2040, the market research firm expects 33 million autonomous vehicles enabled by AI to be on the road worldwide. Lured by the immense business opportunity, more semiconductor manufacturers are jumping into the automotive market knowing that autonomous driving ICs will face far more stringent reliability requirements than traditional devices. Testing, then, will be crucial for level 5 autonomous driving to materialize since a fully autonomous system will need to rival the behind-the-wheel performance of a human driver even in extreme road conditions like snow and iceWith testing vital to the development of chips for autonomous driving, SEMI Taiwan recently convened experts from IC design and testing-related fields to facilitate cross-discipline collaboration and help inspire innovative solutions to current testing challenges. The early February AI IC and Automotive IC Test Seminar is part of a series of SEMI Taiwan events focused on hot topics including like AI, IoT, smart automotive, smart data and smart MedTech. Following are a key takeaways from the seminar.Paradigm Shift Needed in Automotive Electronics Testing StrategiesDesigners of automotive electronics need to transform their test strategies to match the technical rigors of autonomous driving. The traditional process of build, test, and then fix-for-compliance must change in the era of self-driving vehicles. Adding AI to already electronically complex automotive systems will dramatically increase the number of ICs and sensors in vehicles. Traditional component testing for points of failure is far less rigorous than vetting devices under the countless driving scenarios where they could fail. Testing, therefore, must be holistic. Starting in the development phase of their own electronics systems, automotive electronics designers must work closely with component and other technology suppliers to ensure that designs are tightly integrated and exhaustively tested for interoperability and points of failure under any conditions a human driver would face. Wafer-level Test is A TrendThe cost and time for IC testing have steadily increased to meet the relentless scaling requirements of highly integrated advanced technologies, placing immense pressure on current wafer-level packaging and testing methodologies to maintain cost efficiencies, chip yields and time-to-market speed. The challenges will intensify with the multiple-component parallel testing required for autonomous vehicles. Demands on automotive electronics manufacturers to maintain DDPM quality levels key to smart functionalities, powertrain operation, safety and reliability will also complicate current IC testing methodologies. Nearly 300 professionals from IC design and related fields gathered at the SEMI Taiwan forum to tackle the challenges of autonomous vehicle testing Beyond TechnologyTo fulfill the promise of autonomous automobiles and other AI applications, industry, academia, and government in Taiwan must work together to solve underlying technical challenges, create profitable business models and develop a strong programming and system integration workforce. Taiwan's strong semiconductor manufacturing industry and advanced IC testing capabilities put it in the pole position to help drive the development of advanced automotive electronics essential for autonomous vehicles.Emmy Yi is a senior marketing specialist at SEMI Taiwan.