Business and Markets

SEMI FabView update for calendar year Q3 2018 Global fab construction investment shows continuing strength, with 19 new fab projects expected to begin construction in 2019 and 2020, based on the latest data published in SEMI’s World Fab Forecast. Fab investment is just one indicator of how growing demand in areas such as high-performance computing, data storage, artificial intelligence (AI), cloud computing, and automotive are driving the fourth consecutive year of spending growth in the semiconductor industry. Below are a few highlights* from September’s SEMI FabView: Memory: Not fading Micron plans to invest $3 billion by 2030 in Manassas, Virginia – These investments, driven by strong demand for automotive applications, are contemplated in Micron's long-term model. The production ramp is anticipated to be in the first half of 2020. SK Hynix to build new DRAM fab in Icheon (Gyeonggi Province), Korea – The construction, to be completed by the end of 2020, will adopt 1znm node (probably EUV). Total investment is estimated to exceed $13 billion. Nanya Technology doubles 2018 capex plan – The increase is for additional DRAM capacity and more 20nm DRAM conversion (from 30nm). 200mm and below: Not leading edge, but continues to draw investment Vanguard changes fab investment strategy – Vanguard will focus on 200 mm and has scrapped its plan for 300mm expansion. Murata to invest into 150mm expansion – Murata announced a 5 billion Yen investment (US$44.6 million) in a new fab extension in Vantaa, Finland. Investment, M A in Analog, Logic, Power and Opto Segments Texas Instruments is looking to invest $3.2 billion in new fab construction in 2019 – Texas Instruments is eyeing Richardson, Texas and also considering sites outside Texas. Bosch 300mm fab in Dresden, Germany – Bosch held a groundbreaking ceremony on April 24. Equipment installation is expected in 2H19. Microchip completes acquisition of Microsemi – Microchip closed its $8.45 billion acquisition of Microsemi on May 29. Microsemi has five fabs in the U.S. with a wide range of semiconductor products and system solutions. New fabs in China keep on coming Shanghai Jita Semiconductor/Huada Semiconductor – Shanghai Jita Semiconductor, a subsidiary of Huada Semiconductor and China Electronics Corporation (CEC), announced plans earlier this month to build both 200 mm and 300 mm semiconductor fabs for analog and power semiconductors in Shanghai. The combined fab investment will total $5.18 billion. Hamamatsu Photonics building 200 mm fab – Hamamatsu announced that it is building a new facility Investment of 2.8 billion Yen (US$25 million) to boost opto semiconductor capacity. Production is anticipated to start in late 2019. * Actual FabView updates provide more detail 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 1,200 facilities, including over 60 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 if you want to experience SEMI FabView first hand. Christian G. Dieseldorff is senior principal analyst and Eugenia Liu is senior product marketing manager, Industry Research and Statistics, SEMI, Milpitas, California.

SEMI Releases latest update to World Fab Forecast with adjusted semiconductor revenue consensus for second-half 2018 and 2019 Global semiconductor revenue in 2018 is now expected to reach $473.8 billion and clock a growth rate of 15 percent, a significant upward revision from the 7.5 percent expansion (to $442.9 billion) forecast at the start of the year by six research and investment forecasts tracked by SEMI Industry Research and Statistics (SEMI IR S). Data center growth will remain robust in the coming quarters, fueling demand for memory devices. In addition, cloud computing will continue to spur strong CPU, GPU, networking, ASIC, and DRAM and NAND demand through 2019, driving a consensus 3.63 percent year-to-year growth to reach the semiconductor revenue of $491 billion in 2019. Fab equipment spending (new and used) for 2018 is expected to increase by 14 percent to a record high of $63 billion, according to the last data from the SEMI World Fab Forecast, published by SEMI IR S. For 2019, fab equipment spending (new and used) is expected to increase 8 percent to another record of just under $68 billion. Memory continues to be the biggest swing factor in fab spending in 2018 and is expected to lead growth into 2020. 3D NAND will see the most capacity added in 2018 and 2019 with growth of 41 percent in 2018 and 27 percent in 2019, according to the SEMI World Fab Forecast. DRAM investment will see even stronger growth in 2018 and 2019 driven by new capacity addition as well as the continued technology shrink towards 1y/1z nm. For the first half of 2018, global spending for semiconductor fab equipment continues its growth momentum from 2017. Though we expect some softness in the second half of 2018, the outlook for 2019 remains robust with a fourth consecutive year of growth – the first such run since the 1990s. This prolonged growth cycle has been propelled by memory and will be extended by significant investment in China in 2019. Although a potential slowdown in 2020 is a concern, the overall outlook for semiconductor demand remains solid due to broad-based growth trends in data center, artificial intelligence (AI)/machine learning (ML), automotive, and industrial segments. Following are other SEMI forecasts for fab spending. Installed Capacity 3D NAND will see the most capacity added in both 2018 and 2019 with growth of 41 percent in 2018 and 27 percent in 2019. Foundry capacity growth is steady at 3 percent in 2018 and 6 percent in 2019, driven by both leading-edge and trailing-edge capacity buildup. 200mm fab capacity will increase 4 percent in 2018 and 3 percent in 2019, fueled by demand for MCU, sensors, PMIC, MOSFET and Driver IC. New Facilities / Construction Spending In 2018, there are 72 construction projects with investments totaling $15 billion, a year-over-year increase of 23 percent. Construction spending will reach all-time highs with China continuing its lead at US$7 billion in 2018, shattering its own record of $6.3 billion investment in 2017. Most construction spending in 2018 will be for Memory (just under $9 billion), primarily for 3D NAND followed by DRAM. Foundry will log second place in construction spending at just under $5 billion. Fab Equipment Spending Fab equipment spending (new and used) for 2018 is expected to jump 14 percent to a record high of US$63 billion, flat from the forecast issued in June 2018. Equipment spending (new and used) for 2019 is expected to increase 8 percent to another record of just under US$68 billion, a downward adjustment from +9 percent published in June 2018. We believe equipment spending will remain healthy, driven by solid, broad-based demand and predictable technology investments on top of constructive SEMICAP equipment fundamentals. Activity Report The August report features 1,265 records including about 300 Opto- and LED-related facilities. We have made 223 changes related to 216 fabs/lines. The modifications include the addition of new records, changes to existing records, the deletion of records since the February 2018 World Fab Forecast report. We are tracking 103 future facilities/lines with various probabilities that will start volume production in 2018 or later. Download a sample report Not a subscriber? Please review SEMI fab databases listed below. Our databases deliver the latest forecast and a complete analysis of front-end fabs and foundries worldwide. They are ideal resources to empower your market research. Eugenia Liu is a Senior Product Marketing Manager at SEMI.

The China IC Ecosystem Report, a comprehensive report for the IC manufacturing supply chain, reveals that front-end fab capacity in China will grow to account for 16 percent of the world's semiconductor fab capacity this year, a share that will increase to 20 percent by the end of 2020. With the rapid growth, China will top the rest of the world in fab investment in 2020 with more than $20 billion in spending, driven by memory and foundry projects funded by both multinational and domestic companies, according to the new report released today by SEMI.The report also shows that IC Design remained the largest semiconductor sector in China for the second year in a row with $31.9 billion in revenue in 2017, widening its lead over the long-dominant IC Packaging and Test sector. The ascent of China’s IC Design sector comes as the region’s equipment market is expected to claim the top spot in 2020 for the first time on the strength of the continuing development of its domestic manufacturing capability. China’s maturing domestic fab sector is also benefiting domestic equipment and materials suppliers. Both groups continue to see gains in their product offerings and capabilities, particularly in silicon wafer production. The China IC Ecosystem Report is produced by SEMI, the global industry association and provider of independent electronics market research.The more than RMB140 billion (US$21.5 billion) accumulated by the National IC Fund, a critical component of the 2014 National Guideline to address China’s semiconductor trade deficit, has spurred rapid gains throughout the region’s IC supply chain. Semiconductors are China’s largest import by revenue. Phase 2 of funding aims to raise another RMB150-200 billion ($23.0-$30.0 billion).Encouraged by the National Guideline and favorable policies, skilled overseas talent is returning to China, triggering an explosion of domestic IC Design start-ups that are benefiting from access to investment and favorable policies, the report shows.Other highlights from The China IC Ecosystem Report include: Currently 25 new fab construction projects are underway or planned in China. 17 - 300 mm fabs are being tracked as part of this investment and expansion activity. Foundry, DRAM and 3D NAND are the leading segments for fab investment and new capacity in China. China’s IC Packaging and Test industry is also moving up the value chain by enhancing its technology offerings through mergers and acquisitions and building advanced capabilities to entice international integrated device manufacturers. China’s IC materials market, currently dominated by Packaging materials, became the second largest regional market for materials in 2016, a position it solidified in 2017. China’s materials market is expected to grow at a 10 percent CAGR from 2015 to 2019, driven primarily by the region’s new fab capacity ramp in the coming years. Fab capacity will expand at a 14 percent CAGR during that period. The China IC Ecosystem Report covers the latest semiconductor supply chain and market developments including the rise of China’s IC industry, national and local government policies, public and private funding, and their implications for China's IC supply chain. The report also compares key domestic companies and their international peers segment by segment. To learn more and get a sample of the report, visit http://www.semi.org/en/china-ic-ecosystem-report.Eugenia is a Senior Product Marketing Manager at SEMI.

2Q’18 Electronic Supply Chain Growth Update Chart 1 is a preliminary estimate of global growth of the electronic supply chain by sector for 2Q’18 vs 2Q’17. Note the strong performance of semiconductors, SEMI capital equipment and passive components. Chart 2 gives preliminary 2Q’18 world electronic equipment growth by type. Global electronic equipment sales rose an estimated 9%+ when consolidated into US dollars in the second quarter of this year compared to the same quarter in 2017. Based on this, data global electronic equipment sales growth appears to have now peaked on a 3/12 growth basis for this present business cycle (Chart 3). As a caution these charts are based on a combination of actual company financial reports and estimates for companies that have not yet reported their calendar second quarter financial results. A number of large companies have yet to report but these early estimates have historically been close to final growth values. We will update Chart 1 next month.Semiconductor Capital Equipment Business Cycle Semiconductor capital equipment sales are historically very volatile, with their growth fluctuating MUCH MORE than electronic equipment (Chart 4). However, both series appear to have peaked on a 3/12 basis for this current cycle. Semiconductors, SEMI capital equipment and Taiwan chip foundry sales all are seeing slower growth. 3/12 values 1 still indicate an expansion but slower growth is indicated. Supply chain performance in the second half of this year bears careful watching!Walt Custer of Custer Consulting Group is an analyst focused on the global electronics industry.

Tracking toward even stronger growth than forecast last year, 200mm fabs worldwide are gearing up to add more than 600,000 wafers per month from 2017 through 2022, an 11 percent growth rate that will lead to a new high of 6 million wafers per month by the end of 2022, according to the SEMI Industry Research and Statistics group in its fourth update of the Global 200mm Fab Outlook report. See chart below. All told, 56 older and newer facilities will add capacity, with the MEMS, power, logic and foundry segments contributing the most. To help meet rising demand, new fabs are under construction. Only six facilities plan to reduce capacity. The global 200mm fab count will increase from the 2017 level of the 194 fabs covered in the report to 203 by 2022. See chart. During the five-year forecast period, China, at 44 percent, is expected to account for the greatest growth, followed by Southeast Asia (19 percent), Taiwan (10 percent) and the Americas (8 percent). However, with strong demand for new 200mm fab equipment, the used 200mm fab equipment market has pretty much dried up. What’s more, the availability of key tools and spare parts has become a primary concern for many device makers. These headwinds notwithstanding, many companies remain bullish with plans to add more capacity. The forecast growth of 600,000 wafers per month may ultimately be a conservative estimate. SEMI’s Global 200mm Fab Outlook report lists more than 300 facilities and lines managed by more than 150 companies, providing details on product type, investment, technology and capacity plans by companies and fabs. The fourth update of the Global 200mm Fab Outlook report covers data and predictions from 2011 through the end of 2022, including milestones, detailed investments by quarter, product types, technology nodes and capacities down to fab and project level. Click here for the Global 200mm Fab Outlook Sample Report. Learn more about other SEMI fab databases at www.semi.org/en/MarketInfo/FabDatabase. Christian G. Dieseldorff is director of Industry Research and Statistics, SEMI, Milpitas, California.

Forecast SummariesCharts 1 and 2 are the recent world growth forecasts for this year and next for GDP (World Bank), Electronic Equipment and Printed Wiring Boards (Custer Consulting Group), Semiconductors (SIA/WSTSI and new Semiconductor Capital Equipment (SEMI). The semiconductor-related sectors are clearly outgrowing the rest of the supply chain. These forecasts require regular review considering the current global political uncertainty and potential industry output and trade disruptions.Updates to these forecasts are regularly available.Taiwan Wafer Fab SalesComposite sales of 14 Taiwan-listed wafer fabs including TSMC and UMC dipped sharply in June. This sales composite has been historically a useful leading indicator for global semiconductor shipments (Chart 3). If wafer fab sales remain weak, they may signal an imminent chip slowdown. These data are updated monthly.Wafer Fab, Semiconductor and SEMI Capital Equipment Business CyclesChart 4 compares the 3/12 growth of global semiconductor and semiconductor capital equipment to Taiwan-listed wafer fabs. Watch this information over the next few months to see if the wafer fab dip is temporary or leads semiconductor and SEMI equipment down to slower growth. Walt Custer of Custer Consulting Group is an analyst focused on the global electronics [email protected]

Driven by the adoption of evermore electronic components in end products, the semiconductor industry is facing a new era in which device scaling and cost reduction will no longer continue on the path followed for the past few decades. Advanced nodes no longer bring the desired cost benefit, and R D investments in new lithography solutions and devices below 10nm nodes are rising substantially. In order to satisfy market demands, the industry is looking for technology solutions to bridge the gap and improve cost/performance while at the same time adding more functionality through integration.More than-Moore devices (including MEMS and sensors, CMOS Image Sensors, power electronic, along with RF devices) represent this new functional diversification of technologies, combining performance, integration and cost not limited to CMOS scaling, and their importance will become more and more preponderant.In 2017, wafer demand for More than Moore devices1 reached almost 45 million 8-inch eq. wafers. This figure is expected to reach more than 66 million 8-inch eq wafers by 2023, showing an almost 10 percent growth during this period.This increase is supported by the famous megatrends detailed in the new analysis, Wafer Starts for More Than Moore Applications2, performed by Yole Développement (Yole). This analysis is relevant to the following markets: 5G with wireless infrastructure and mobile segments, mobile including additional functionalities, voice processing, smart automotive and electrification, AR/VR3, and AI4.For the first time, the market research and strategy consulting company presents a dedicated technology and market analysis focused on the overall wafer demand for More than Moore devices. The aim of this report is to give an overview of wafer shipments for More than Moore devices, from wafer size to semiconductor material substrate type including silicon, glass, SOI5, SiC6, SiGe7, GaN8, InP9, GaAs10, sapphire and ceramic, and thus identify business opportunities in the More than Moore industry.For over 20 years, Yole has been analyzing the industry evolution, discussing with leading companies to understand market challenges, and identifying technical breakthroughs. The Wafer Starts for More Than Moore Applications report is the result of this 20-year research. Yole’s analysts combine technical and market expertise to describe the More than Moore world. Market size (volume and value), substrate sizes and formats, value chain, technology processes and market drivers, business opportunities and competitive landscape are all part of Yole’s analysis.The various research teams at Yole, encompassing power electronics, imaging and sensing, RF and semiconductor manufacturing, collaborate to present an in-depth understanding of the current market evolution, taking into account innovations and emerging businesses. This methodology allows Yole to cover the overall megatrends and illustrate the links between wafer substrate, device, module, sub-system, system and high-end product.Under this dynamic ecosystem, the deployment of renewable energy sources and industrial motor drives as well as the electrification of the automotive industry are good examples of the impact of megatrends on the semiconductor industry development. They are directly impacting the power devices’ wafer market, resulting in an expected 13 percent CAGR between 2017 and 2023. Already in 2017, this market represented more than 60 percent of the overall wafer market for More than Moore devices, and is currently still dominating the More than Moore industry.5G is one megatrend driving wafer demand. 5G is leading the More than Moore evolution, bringing any service to any user, anywhere. Antennas and filtering functionalities are two of the key innovations of this evolution.Without doubt, the stringent requirements of 5G are driving increasing demand for RF components like RF filters, power amplifiers (PAs), and low-noise amplifiers (LNAs) to ensure access to tomorrow’s radio network.This year, Corning and Menlo Micro announced a major agreement to develop a DMS[11] product platform. Both partners propose an innovative approach based on TGV12 packaging technology. According to both partners, this technical choice allows them to cover operation of frequencies beyond 50GHz. Amongst the numerous megatrends, mobility is not far behind 5G. Demand for advanced mobile applications integrating more and more functionality is growing. In order to compete companies are developing smart combinations of devices such as fingerprint sensors, ambient light sensors, 3D sensing, microphones, and inertial MEMS devices. As an example, impressive developments focused on SOI-based NIR sensors have been released by SOITEC for front-side imager applications including advanced 3D image sensors. This technical evolution will clearly contribute, in the near future, to strong growth of the wafer market for MEMS and sensors. Additionally, the automotive industry, with the development of smart cars, has reached a new level of complexity requiring the development and integration of new sensors. In this context, many companies are aiming to extend their capabilities in ADAS13 and autonomous driving. Recently the leading company On Semiconductor acquired SensL Technologies, the leader in SPAD and LiDAR sensing products for automotive. This acquisition is one sign among many highlighting the evolution of this historic industry, searching for new expertise and welcoming new players, more aware of consumer habits and needs.Yole’s analysts expect smart automobiles to drive consistent growth of CIS14 and sensor wafer production over the next five years. It is fueled by the increasing integration of high-value sensing modules like RADAR, imaging, LiDAR and more. Although automotive will be mainly supported by these growth areas, historic MEMS and sensors such as MEMS pressure sensors and inertial MEMS will continue growing at a reasonable rate, supporting the standard automotive world.Yole Group of Companies including Yole, System Plus Consulting, KnowMade, PISEO and Blumorpho follows and analyzes the industry continuously. The Group has developed in-depth expertise and knowledge focused on the semiconductor manufacturing process and markets. Companies of the Group work together to understand the technical issues, identify business opportunities and propose valuable analyses.Yole invites you to an overview of the Wafer Starts for More Than Moore Applications report during the exclusive online event, titled “Wafer Starts for More than Moore Applications – Webcast”. This hourlong webcast takes place on June 28 at 5:00 PM CEST. The market research company will present key results of this report including megatrends, wafer market evolution and technical trends. Moderated by David Jourdan, Sales Coordination Customer Service at Yole, it welcomes the two leading companies, SPTS (an Orbotech Company) and Corning Precision Glass Solutions: "Trends in Wafer Processing Technologies for RF MEMS" – Speaker David Butler, Executive Vice President and General Manager at SPTS Technologies "Benefits of Through Glass Vias for RF applications" – Speaker: Ravij Parmar, New Product Development Manager for Corning Precision Glass Solutions These results will be also presented by the Semiconductor Software team at SEMICON West (Booth #1320), SEMICON Taiwan and SEMICON Europa (Booth #A-4667). Make sure to meet Yole’s analysts and get a valuable overview of the More than Moore industry. Agenda and more information are available on i-micronew.com. Stay tuned!About the authors:Amandine Pizzagalli is a Technology Market Analyst, Equipment Materials - Semiconductor Manufacturing - at Yole Développement (Yole). Amandine is part of the development of the Semiconductor Software division of Yole with the production of reports and custom consulting projects. She is in charge of comprehensive analyses focused on semiconductor equipment, materials and manufacturing processes. Emilie Jolivet is Director of the Semiconductor Software Division at Yole Développement, part of Yole Group of Companies, where her specific interests cover package assembly, semiconductor manufacturing, memory and software computing fields. 1 Including: MEMS sensors, CIS, and power, photonics and RF devices2 Yole Développement, March 20183 AR/VR : Augmented Reality/Virtual Reality4 AI : Artificial Intelligence.5 SOI : Silicon On Insulator6 SiC : Silicon Carbid7 SiGe: Silicon Germanium8 GaN: Gallium Nitride9 InP: Indium Phosphide10 GaAs : Gallium Arsenide111 DMS : Digital-Micro-Switch12 TGV : Through Glass Via13 ADAS : Autonomous Driving Assistance Service14 CIS : CMOS Image Sensor

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.

Updated Global GDP ForecastThe World Bank just updated its multiyear forecast for GDP growth both globally and by country (Chart 1).It noted: “Despite recent softening, global economic growth will remain robust at 3.1 percent in 2018 before slowing gradually over the next two years, as advanced-economy growth decelerates and the recovery in major commodity-exporting emerging market and developing economies levels off.“This outlook is subject to considerable downside risks. The possibility of disorderly financial market volatility has increased, and the vulnerability of some emerging market and developing economies to such disruption has risen. Trade protectionist sentiment has also mounted, while policy uncertainty and geopolitical risks remain elevated.”www.worldbank.orgSemiconductor Growth Outlook Strong (Chart 2)The WSTS updated its world semiconductor shipment forecast. This new forecast (endorsed by SIA) projects worldwide semiconductor sales will be a record $463 billion in 2018, a 12.4 percent increase from 2017. WSTS projects year-to-year increases across all regional markets for 2018.This revised semiconductor forecast coupled with very robust global semiconductor capital equipment sales (Chart 3) paint a positive outlook for 2018.www.semiconductors.orgwww.semi.orgVery Strong End Market Growth in First Quarter (Chart 4)Based upon the combined 1Q’18 financial reports of 213 large, global OEMs, electronic equipment sales (consolidated into U.S. dollars) increased globally an estimated (and very robust) 10.6 percent in 1Q’18 vs. 1Q’17. While this world growth result is very heartening it was significantly inflated by exchange rate effects as stronger non-dollar currencies were converted into weaker dollars. Looking at world electronic equipment sales consolidated into both dollars and euros, 1Q’18 growth rates are MUCH different (Chart 5). 1Q’18 vs.1Q’17 electronic equipment sales grew 10.6 percent in dollars but declined 4.3 percent in euros! Certainly the first quarter was strong globally but the currency chosen for analysis can have a BIG effect.U.S. Supply Chain Expansion ContinuesLooking at the U.S. market (in dollars - therefore not distorted by exchange rates) domestic electronic equipment orders rose 6.7 percent in February-April 2018 versus the same three-month period in 2017. The U.S. electronic industry is doing reasonably well at present.www.census.gov/manufacturing/m3/Expect the recent exchange rate based amplification of dollar denominated global growth to taper off quickly.Keep a careful watch on the geopolitical situation.Walt Custer of Custer Consulting Group is an analyst focused on the global electronics [email protected]