Category Archives: Lithography

By Jay Chittooran, SEMI Public Policy

Following through on his 2016 campaign promise, President Trump is implementing trade policies that buck conventional wisdom in Washington, D.C. and among U.S. businesses. Stiff tariffs and the dismantling of longstanding trade agreements – cornerstones of these new actions – will ripple through the semiconductor industry with particularly damaging effect. China, a chief target of criticism from President Trump, has again found itself in the crosshairs of the administration, with trade tensions rising to a fever pitch.

The Trump Administration has long criticized China for what it considers unfair trade practices, often zeroing in on intellectual property. In August 2017, the Office of the U.S. Trade Representative (USTR), charged with developing and recommending U.S trade policy to the president, launched a Section 301 investigation into whether China’s practice of forced technology transfer has discriminated against U.S. firms. As the probe continues, it is becoming increasingly clear that the United States will impose tariffs on China based on its current findings. Reports suggest that the tariffs could come soon, hitting a range of products from consumer electronics to toys. Other measures could include tightening restrictions on the trade of dual-use goods – those with both commercial and military applications – curbing Chinese investment in the United States, and imposing strict limits on the number of visas issued to Chinese citizens.

With China a major and intensifying force in the semiconductor supply chain, raising tariffs hangs like the Sword of Damocles over the U.S. and global economies. A tariff-ignited trade war with China could stifle innovation, undermine the long-term health of the semiconductor industry, and lead to unintended consequences such as higher consumer prices, lower productivity, job losses and, on a global scale, a brake on economic growth.

Other recently announced U.S. trade actions could also cloud the future for semiconductor companies. The Trump administration, based on two separate Section 232 investigations claiming that overproduction of both steel and aluminum are a threat to U.S. national security, recently levied a series of tariffs and quotas on every country except Canada and Mexico. While these tariffs have yet to take effect, the mere prospect has angered U.S. trading partners – most notably Korea, the European Union and China. Several countries have threatened retaliatory action and others have taken their case to the World Trade Organization.

Trade is oxygen to the semiconductor industry, which grew by nearly 30 percent last year and is expected to be valued at an estimated $1 trillion by 2030. Make no mistake: SEMI fully supports efforts to buttress intellectual property protections. However, the Trump administration’s unfolding trade policy could antagonize U.S. trade partners.

For its part, SEMI is weighing in with USTR on these issues, underscoring the critical importance of trade to the semiconductor industry as we educate policymakers on trade barriers to industry growth and encourage unobstructed cross-border commerce to advance semiconductors and the emerging technologies they enable. On behalf of our members, we continue our work to increase global market access and lessen the regulatory burden on global trade. If you are interested in more information on trade, or how to be involved in SEMI’s public policy program, please contact Jay Chittooran, Public Policy Manager, at [email protected].

Originally published on the SEMI blog.

SEMICON West, the flagship U.S. event for connecting the electronics manufacturing supply chain, has opened registration for the July 10-12, 2018, exposition at the Moscone Center in San Francisco, California. Building on a year of record-breaking industry growth, SEMICON West 2018 will highlight the engines of future industry expansion including smart transportation, smart manufacturing, smart medtech, smart data, big data, artificial intelligence, blockchain and the Internet of Things (IoT). Click here to register.

Themed BEYOND SMART, SEMICON West 2018 sets it sights on the growing impact of cognitive learning technologies and other industry disruptors with programs and new Smart Pavilions including Smart Manufacturing and Smart Transportation to showcase interactive technologies for immersive, virtual experiences. Each Pavilion will feature a Meet the Experts Theater with an intimate setting for attendees to engage informally with industry thought leaders.

Smart Workforce Pavilion: Connecting Next-Generation Talent with the Microelectronics Industry

The SEMI Smart Workforce Pavilion at SEMICON West 2018 leverages the largest microelectronic manufacturing event in North America to draw the next generation of innovators. Reliant on a highly skilled workforce, the industry today is saddled with thousands of job openings and fierce competition for workers, bringing renewed focus to strengthening its talent pipeline. Educational and engaging, the Pavilion connects the microelectronics industry with college students and entry-level professionals interested in career opportunities.

In the Workforce Pavilion “Meet the Experts” Theater, industry engineers will share insights and inspiration about their personal working experiences and career advisors will offer best practices. Recruiters from top companies will be available for on-the-spot interviews, while career coaches offer mentoring, tips on cover letter and resume writing, job-search guidance, and more. Visitors will learn more about the industry’s vital role in technological innovation in today’s connected world.

This year, SEMI will also host High Tech U (HTU) in conjunction with the SEMICON West Smart Workforce Pavilion. The highly-interactive program supported by Advantest, Edwards, KLA-Tencor and TEL exposes high school students to STEM education pathways and stimulates excitement about careers in the industry.

Free registration with three-day access and shuttle service to SEMICON West are available to all college students. Students are encouraged to register for the mentor program, attend keynotes and tour the exposition hall to see everything the industry has to offer.  To learn more, visit Smart Workforce Pavilion and College Track to preview how students can enter to win a $500 hiring bonus!

Three Ways to Experience the Expo

Attendees can tailor their SEMICON West experience to meet their specific interests. The All-In pass covers every program and event, while the Thought-Leadership and Expo-Only packages offer scaled pricing and program options. Attendees can also purchase select events and programs à la carte, including exclusive IEEE-sponsored sessions, the SEMI Market Symposium, and the STEM Rocks After-hours Party, a fundraising event to support the SEMI Foundation.

The ConFab — an executive invitation-only conference now in its 14th year — brings together influential decision-makers from all parts of the semiconductor supply chain for three days of thought-provoking talks and panel discussions, networking events and select, pre-arranged breakout business meetings.

In the 2018 program, we will take a close look at the new applications driving the semiconductor industry, the technology that will be required at the device and process level to meet new demands, and the kind of strategic collaboration that will be required. It is this combination of business, technology and social interactions that make the conference so unique and so valuable. Browse this slideshow for a look at this year’s speakers, keynotes, panel discussions, and special guests.

Visit The ConFab’s website for a look at the full, three-day agenda for this year’s event.

KEYNOTE: How AI is Driving the New Semiconductor Era

Rama Divakaruni_June_2014presented by Rama Divakaruni, Advanced Process Technology Research Lead, IBM

The exciting results of AI have been fueled by the exponential growth in data, the widespread availability of increased compute power, and advances in algorithms. Continued progress in AI – now in its infancy – will require major innovation across the computing stack, dramatically affecting logic, memory, storage, and communication. Already the influence of AI is apparent at the system-level by trends such as heterogeneous processing with GPUs and accelerators, and memories with very high bandwidth connectivity to the processor. The next stages will involve elements which exploit characteristics that benefit AI workloads, such as reduced precision and in-memory computation. Further in time, analog devices that can combine memory and computation, and thus minimize the latency and energy expenditure of data movement, offer the promise of orders of magnitude power-performance improvements for AI workloads. Thus, the future of AI will depend instrumentally on advances in devices and packaging, which in turn will rely fundamentally on materials innovations.

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IC Insights’ latest market, unit, and average selling price forecasts for 33 major IC product segments for 2018 through 2022 is included in the March Update to the 2018 McClean Report (MR18).  The Update also includes an analysis of the major semiconductor suppliers’ capital spending plans for this year.

The biggest adjustments to the original MR18 IC market forecasts were to the memory market; specifically the DRAM and NAND flash segments.  The DRAM and NAND flash memory market growth forecasts for 2018 have been adjusted upward to 37% for DRAM (13% shown in MR18) and 17% for NAND flash (10% shown in MR18).

The big increase in the DRAM market forecast for 2018 is primarily due to a much stronger ASP expected for this year than was originally forecast.  IC Insights now forecasts that the DRAM ASP will register a 36% jump in 2018 as compared to 2017, when the DRAM ASP surged by an amazing 81%.  Moreover, the NAND flash ASP is forecast to increase 10% this year, after jumping by 45% in 2017.  In contrast to strong DRAM and NAND flash ASP increases, 2018 unit volume growth for these product segments is expected to be up only 1% and 6%, respectively.

At $99.6 billion, the DRAM market is forecast to be by far the largest single product category in the IC industry in 2018, exceeding the expected NAND flash market ($62.1 billion) by $37.5 billion.  Figure 1 shows that the DRAM market has provided a significant tailwind or headwind for total worldwide IC market growth in four out of the last five years.

The DRAM market dropped by 8% in 2016, spurred by a 12% decline in ASP, and the DRAM segment became a headwind to worldwide IC market growth that year instead of the tailwind it had been in 2013 and 2014.  As shown, the DRAM market shaved two percentage points off of total IC industry growth in 2016.  In contrast, the DRAM segment boosted total IC market growth last year by nine percentage points. For 2018, the expected five point positive impact of the DRAM market on total IC market growth is forecast to be much less significant than it was in 2017.

Figure 1

Figure 1

Thermo Fisher Scientific, the world leader in serving science, announces new products that improve quality control and yield in semiconductor manufacturing. These new products will be showcased at SEMICON China (Hall N5 #5619), Shanghai, March 14-16, 2018.

“Thermo Fisher has deep roots in the advanced analytical technologies used to control manufacturing processes and diagnose the root causes of process and product failures in semiconductor and display manufacturing,” said Rob Krueger, vice president and general manager, semiconductor, Thermo Fisher. “This week, we are introducing new products that help propel the rapid pace of innovation and continuing expansion of semiconductor manufacturing capacity in Asia, and particularly, in China.”

Verios G4 Extreme High-Resolution SEM

The Thermo Scientific Verios G4 extreme high-resolution (XHR) scanning electron microscope (SEM) delivers the capability and flexibility needed to determine root cause defects, yield losses, and process and product failures.

“The Verios G4 is an SEM-only solution derived from our widely successful Helios family of DualBeam (focused ion beam/SEM) instruments,” said Krueger. “It offers industry leading performance across a wide range of conditions, especially at the low voltages required for beam-sensitive materials used in advanced processes.”

Hyperion II Fast & Efficient Nanoprober

Nanoprobers make direct electrical measurements of individual transistors. The new Thermo Scientific Hyperion II, the only commercially available nanoprober based on an atomic force microscope (AFM), eliminates the vacuum requirements and e-beam/sample interactions of SEM-based nanoprobers. The Hyperion II’s automated operation and imaging modes are designed for speed and ease of use. In addition, its ability to precisely localize electrical faults may improve the speed and efficiency of subsequent DualBeam or TEM analysis.

iCAP TQs ICP-MS for Fast and Reliable Chemical Monitoring

The Thermo Scientific iCAP TQs inductively coupled plasma-mass spectrometer (ICP-MS) is a dedicated semiconductor version of the well-established iCAP TQ ICP-MS. It provides the fast, reliable and reproducible measurement of low-level contaminants in ultra-high purity (UHP) chemicals required to support automated at-line monitoring and statistical process control for advanced semiconductor manufacturing processes. The iCAP TQs ICP-MS provides new levels of ultra-low detection and simplicity in a single high-performance solution. Moving chemical analysis from the lab to the fab is now possible with this new system and allows at-line control of chemical baths, which optimizes response times.

EV Group (EVG), a supplier of wafer bonding and lithography equipment for the MEMS, nanotechnology and semiconductor markets, and IBM (NYSE: IBM) today announced that the companies agreed to sign a license agreement on laser debonding technology. EVG plans to integrate IBM’s patented Hybrid Laser Release process into EVG’s advanced, field-proven temporary bonding and debonding equipment solutions, which can provide high-volume manufacturers with greater flexibility to implement optimized temporary bonding and debonding process flows. Thanks to the added process variants from IBM that will be supported by EVG’s equipment portfolio, customers can choose from a wide range of bonding, cleaning and metrology process options to help address their temporary bonding and debonding requirements and applications.

The result, which is an advanced laser debonding solution based on EVG’s combination of the technology licensed from IBM with EVG’s know-how, encompasses methods and designs for UV and IR laser debonding (designed to enable the use of glass or silicon carriers) as well as inspection of the bond interfaces. The technologies contributed by IBM help EVG implement designs that address the industry’s critical requirements for temporary bonding and debonding, including high throughput, low wafer stress for high yield, and low cost of ownership of the laser equipment, processing and consumables. The advanced EVG solution encompasses techniques to help protect chips from heat and laser damage, as well as chemical clean technologies for device and carrier wafers.

The latest update to the SEMI World Fab Forecast report, published on February 28, 2018, reveals fab equipment spending will increase at 5 percent in 2019 for a remarkable fourth consecutive year of growth as shown in figure 1. China is expected to be the main driver of fab equipment spending growth in 2018 and 2019 absent a major change in its plans. The industry had not seen three consecutive years of growth since the mid-1990s.

Figure 1

Figure 1

SEMI predicts Samsung will lead in fab equipment spending both in 2018 and 2019, with Samsung investing less each year than in 2017.  By contrast, China will dramatically increase year-over-year fab equipment spending by 57 percent in 2018 and 60 percent in 2019 to support fab projects from both multinationals and domestic companies. The China spending surge is forecast to accelerate it past Korea as the top spending region in 2019.

After record investments in 2017, Korea fab equipment spending will decline 9 percent, to US$18 billion, in 2018 and an additional 14 percent, to US$16 billion, in 2019. However both years will outpace pre-2017 spending levels for the region. Fab equipment spending in Taiwan, the third-largest region for fab investments, will fall 10 percent to about US$10 billion in 2018, but is forecast to rebound 15 percent to over US$11 billion in 2019. (Details about other regions’ spending trends are available in SEMI’s latest World Fab Forecast.)

As expected, China’s fab equipment spending is increasing as projects shift to equipment fabs constructed earlier in this cycle.  The record 26 volume fabs that started construction in China in 2017 will begin equipping this year and next.  See figure 2.

Figure 2

Figure 2

Non-Chinese companies account for the largest share of fab equipment investment in China. However, Chinese-owned companies are expected to ramp up fabs in 2019, increasing their share of spending in China from 33 percent in 2017 to 45 percent in 2019.

Product Sector Spending

3D NAND will lead product sector spending, growing 3 percent each in 2018 and 2019, to US$16 billion and US$17 billion, respectively. DRAM will see robust growth of 26 percent in 2018, to US$14 billion, but is expected to decline 14 percent to US$12 billion in 2019.  Foundries will increase equipment spending by 2 percent to US$17 billion in 2018 and by 26 percent to US$22 billion in 2019, primarily to support 7nm investments and ramp of new capacity.

The Semiconductor Industry Association (SIA), representing U.S. leadership in semiconductor manufacturing, design, and research, today announced worldwide sales of semiconductors reached $37.6 billion for the month of January 2018, an increase of 22.7 percent compared to the January 2017 total of $30.6 billion. Global sales in January were 1.0 percent lower than the December 2017 total of $38.0 billion, reflecting normal seasonal market trends. All monthly sales numbers are compiled by the World Semiconductor Trade Statistics (WSTS) organization and represent a three-month moving average.

“After notching its highest-ever annual sales in 2017, the global semiconductor industry is off to a strong and promising start to 2018, posting its highest-ever January sales and 18th consecutive month of year-to-year sales increases,” said John Neuffer, president and CEO, Semiconductor Industry Association. “All major regional markets saw double-digit growth compared to last year, with the Americas leading the away with year-to-year growth of more than 40 percent. With year-to-year sales also up across all major semiconductor product categories, the global market is well-positioned for a strong start to 2018.”

Year-to-year sales increased substantially across all regions: the Americas (40.6 percent), Europe (19.9 percent), Asia Pacific/All Other (18.6 percent), China, (18.3 percent), and Japan (15.1 percent). Month-to-month sales increased slightly in Europe (0.9 percent), held flat in China, but fell somewhat in Asia Pacific/All Other (-0.6 percent), Japan (-1.0 percent), and the Americas (-3.6 percent).

To find out how to purchase the WSTS Subscription Package, which includes comprehensive monthly semiconductor sales data and detailed WSTS Forecasts, please visit http://www.semiconductors.org/industry_statistics/wsts_subscription_package/. For detailed data on the global and U.S. semiconductor industry and market, consider purchasing the 2017 SIA Databook: https://www.semiconductors.org/forms/sia_databook/.

Jan 2018

Billions

Month-to-Month Sales                              

Market

Last Month

Current Month

% Change

Americas

8.95

8.63

-3.6%

Europe

3.37

3.40

0.9%

Japan

3.24

3.21

-1.0%

China

12.01

12.01

0.0%

Asia Pacific/All Other

10.41

10.35

-0.6%

Total

37.99

37.59

-1.0%

Year-to-Year Sales                         

Market

Last Year

Current Month

% Change

Americas

6.14

8.63

40.6%

Europe

2.84

3.40

19.9%

Japan

2.79

3.21

15.1%

China

10.16

12.01

18.3%

Asia Pacific/All Other

8.73

10.35

18.6%

Total

30.64

37.59

22.7%

Three-Month-Moving Average Sales

Market

Aug/Sep/Oct

Nov/Dec/Jan

% Change

Americas

8.54

8.63

1.1%

Europe

3.36

3.40

1.1%

Japan

3.20

3.21

0.3%

China

11.65

12.01

3.1%

Asia Pacific/All Other

10.33

10.35

0.1%

Total

37.09

37.59

1.4%

Each year, Solid State Technology turns to industry leaders to hear viewpoints on the technological and economic outlook for the upcoming year. Read through these expert opinions on what to expect in 2018.

Enabling the AI Era with Materials Engineering

Screen Shot 2018-03-05 at 12.24.49 PMPrabu Raja, Senior Vice President, Semiconductor Products Group, Applied Materials

A broad set of emerging market trends such as IoT, Big Data, Industry 4.0, VR/AR/MR, and autonomous vehicles is accelerating the transformative era of Artificial Intelligence (AI). AI, when employed in the cloud and in the edge, will usher in the age of “Smart Everything” from automobiles, to planes, factories, buildings, and our homes, bringing fundamental changes to the way we live

Semiconductors and semiconductor processing technol- ogies will play a key enabling role in the AI revolution. The increasing need for greater computing perfor- mance to handle Deep Learning/Machine Learning workloads requires new processor architectures beyond traditional CPUs, such as GPUs, FPGAs and TPUs, along with new packaging solutions that employ high-density DRAM for higher memory bandwidth and reduced latency. Edge AI computing will require processors that balance the performance and power equation given their dependency on battery life. The exploding demand for data storage is driving adoption of 3D NAND SSDs in cloud servers with the roadmap for continued storage density increase every year.

In 2018, we will see the volume ramp of 10nm/7nm devices in Logic/Foundry to address the higher performance needs. Interconnect and patterning areas present a myriad of challenges best addressed by new materials and materials engineering technologies. In Inter- connect, cobalt is being used as a copper replacement metal in the lower level wiring layers to address the ever growing resistance problem. The introduction of Cobalt constitutes the biggest material change in the back-end-of-line in the past 15 years. In addition to its role as the conductor metal, cobalt serves two other critical functions – as a metal capping film for electro- migration control and as a seed layer for enhancing gapfill inside the narrow vias and trenches.

In patterning, spacer-based double patterning and quad patterning approaches are enabling the continued shrink of device features. These schemes require advanced precision deposition and etch technologies for reduced variability and greater pattern fidelity. Besides conventional Etch, new selective materials removal technologies are being increasingly adopted for their unique capabilities to deliver damage- and residue-free extreme selective processing. New e-beam inspection and metrology capabilities are also needed to analyze the fine pitch patterned structures. Looking ahead to the 5nm and 3nm nodes, placement or layer-to-layer vertical alignment of features will become a major industry challenge that can be primarily solved through materials engineering and self-aligned structures. EUV lithography is on the horizon for industry adoption in 2019 and beyond, and we expect 20 percent of layers to make the migration to EUV while the remaining 80 percent will use spacer multi- patterning approaches. EUV patterning also requires new materials in hardmasks/underlayer films and new etch solutions for line-edge-roughness problems.

Packaging is a key enabler for AI performance and is poised for strong growth in the coming years. Stacking DRAM chips together in a 3D TSV scheme helps bring High Bandwidth Memory (HBM) to market; these chips are further packaged with the GPU in a 2.5D interposer design to bring compute and memory together for a big increase in performance.

In 2018, we expect DRAM chipmakers to continue their device scaling to the 1Xnm node for volume production. We also see adoption of higher perfor- mance logic technologies on the horizon for the periphery transistors to enable advanced perfor- mance at lower power.

3D NAND manufacturers continue to pursue multiple approaches for vertical scaling, including more pairs, multi-tiers or new schemes such as CMOS under array for increased storage density. The industry migration from 64 pairs to 96 pairs is expected in 2018. Etch (high aspect ratio), dielectric films (for gate stacks and hardmasks) along with integrated etch and CVD solutions (for high aspect ratio processing) will be critical enabling technologies.

In summary, we see incredible inflections in new processor architectures, next-generation devices, and packaging schemes to enable the AI era. New materials and materials engineering solutions are at the very heart of it and will play a critical role across all device segments.

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BY AJIT MANOCHA, President and CEO of SEMI

2017 was a terrific year for SEMI members. Chip revenues closed at nearly $440B, an impressive 22 percent year- over-year growth. The equipment industry surpassed revenue levels last reached in the year 2000. Semicon- ductor equipment posted sales of nearly $56B and semiconductor materials $48B in 2017. For semiconductor equipment, this was a giant 36 percent year-over-year growth. Samsung, alone, invested $26B in semiconductor CapEx in 2017 – an incredible single year spend in an incredible year.

MEMS and Sensors gained new growth in telecom and medical markets, adding to existing demand from automotive, industrial and consumer segments. MEMS is forecast to be a $19B industry in 2018. Flexible hybrid electronics (FHE) is also experiencing significant product design and functionality growth with increasing gains in widespread adoption.

No longer isa single monolithic demand driver propelling the electronics manufacturing supply chain. The rapidly expanding digital economy continues to foster innovation with new demand from the IoT, virtual and augmented reality (VR/AR), automobile infotainment and driver assistance, artificial intelligence (AI) and Big Data, among others. With the explosion in data usage, memory demand is nearly insatiable, holding memory device ASPs high and prompting continued heavy investment in new capacity.

2018 is forecast to be another terrific year. IC revenues are expected to increase another 8 percent and semiconductor equipment will grow 11 percent. With diverse digital economy demand continuing, additional manufacturing capacity is being added in China as fab projects come on line to develop and increase the indigenous semiconductor supply chain.

So, why worry?

The cracks starting to show are in the areas of talent, data management, and Environment, Health, and Safety (EH&S).

Can the industry sustain this growth? The electronics manufacturing supply chain has demonstrated it can generally scale and expedite production to meet the massive new investment projects. The cracks starting to show are in the areas of talent, data management, and Environment, Health, and Safety (EH&S).

Talent has become a pinch point. In Silicon Valley alone, SEMI member companies have thousands of open positions. Globally, there are more than 10,000 open jobs. Attracting new candidates and developing a global workforce are critical to sustaining the pace of innovation and growth.
Data management and effective data sharing are keys to solving problems faster and making practical novel but immature processes at the leading edge. It is ironic that other industries are ahead of semiconductor manufac- turing in harnessing manufacturing data and leveraging AI across their supply chains. Without collaborative Smart Data approaches, there is jeopardy of decreasing the cadence of Moore’s Law below the 10 nm node.

EH&S is critical for an industry that now uses the majority of the elements of the periodic table to make chips – at rates of more than 50,000 wafer starts per month (wspm) for a single fab. The industry came together strongly in the 1990s to develop SEMI Safety Standards and compliance methodologies. Since then, the number of EH&S profes- sionals engaged in our industry has declined while the number of new materials has exploded, new processing techniques have been developed, and manufacturing is expanding across China in areas with no prior semicon- ductor manufacturing experience.

HTU has been a very effective program with over 218 sessions run to date, over 7,000 students engaged, and over 70 percent of respondents pursuing careers in the STEM field.

To ensure we don’t slow growth, the industry will need to work together in 2018 in these three key areas:

Talent development needs to rapidly accelerate by expanding currently working programs and adding additional means to fill the talent funnel. The SEMI Foundation’s High Tech University (HTU) works globally with member companies to increase the number of high school students selecting Science, Technology, Engineering, and Math (STEM) fields – and provides orientation to the semiconductor manufacturing industry. HTU has been a very effective program with over 218 sessions run to date, over 7,000 students engaged, and over 70 percent of respondents pursuing careers in the STEM field. SEMI will increase the number of HTU sessions in 2018.

Plans have already been approved by SEMI’s Board of Directors to work together with SEMI’s membership to leverage existing, and pioneer new, workforce development programs to attract and develop qualified candidates from across the age and experience spectrum (high school through university, diversity, etc.). Additionally, an industry awareness campaign will be developed and launched to make more potential candidates attracted to our member companies as a great career choice. I’ll be providing you with updates on this initiative – and asking for your involvement
– throughout 2018.

Data management is a broad term. Big Data, machine learning, AI are terms that today mean different things to different people in our supply chain. What is clear is that to act together and take advantage of the unimaginable amounts of data being generating to produce materials and make semiconductor devices with the diverse equipment sets across our fabs, we need a common understanding of the data and potential use of the data.

In 2018, SEMI will launch a Smart Data vertical application platform to engage stakeholders along the supply chain to produce a common language, develop Standards, and align expectations for sharing data for mutual benefit. Bench- marking of other industries and pre-competitive pilot programs are being proposed to learn and, here too, we need the support and engagement of thought leaders throughout SEMI’s membership.

EH&S activity must intensify to maintain safe operations and to eliminate business interruptions from supply chain disruptions. There is potential for disruptions from material bans such as the Stockholm Convention action on PFOA and arising from the much wider range of chemicals and materials being used in advanced manufacturing. Being able to reliably identify these in time to guide and coordinate industry action will take a reinvigorated SEMI EH&S stewardship and membership engagement.

As China rapidly develops new fabs in many provinces – some with only limited prior experience and infrastructure – SEMI EH&S Standards orientation and training will accelerate the safe and sustainable operation of fabs, enabling them to keep pace with the ambitious growth trajectory our industry is delivering. In 2018, we’ll be looking for a renewed commitment to EH&S and sustainability for the budding challenges of new materials, methods, and emerging regions.

Remarkable results from a remarkable membership

Thank you all for a terrific 2017 and let’s work together on the key initiatives to ensure that our industry’s growth and prosperity will continue in 2018 and beyond.

In a quick review of 2017, I would like to thank SEMI’s members for their incredible results and new revenue records. Foundational to that, SEMI’s members have worked together with SEMI to connect, collaborate, and innovate to increase growth and prosperity for the industry. These founda- tional contributions have been in expositions, programs, Standards, market data, messaging (communications), and workforce development (with HTU).

The infographic below captures these foundational accom- plishments altogether. SEMI strives to speed the time to better business results for its members across the global electronics manufacturing supply chain. To do so, SEMI is dependent upon, and grateful for, the support and volunteer efforts of its membership. Thank you for a terrific 2017 and let’s work together on the key initiatives to ensure that our industry’s growth and prosperity will continue in 2018 and beyond.