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Worldwide silicon wafer area shipments increased during the second quarter 2017 when compared to first quarter 2017 area shipments according to the SEMI Silicon Manufacturers Group (SMG) in its quarterly analysis of the silicon wafer industry.

Total silicon wafer area shipments were 2,978 million square inches during the most recent quarter, a 4.2 percent increase from the 2,858 million square inches shipped during the previous quarter. New quarterly total area shipments are 10.1 percent higher than second quarter 2016 shipments and are at their highest recorded quarterly level.

“For the fifth consecutive quarter, global silicon wafer volume shipments have shipped at record levels,” said Chungwei (C.W.) Lee (李崇偉), chairman of SEMI SMG and spokesman, VP, Corporate Development and chief auditor of GlobalWafers (環球晶圓). “These record levels are being driven by both 200mm and 300mm shipments.”

Silicon* Area Shipment Trends

Source: SEMI, (www.semi.org), July 2017

 

Millions of Square Inches
 

1Q2016

2Q2016

3Q2016

4Q2016

1Q2017

2Q2017

Total

2,538

2,706

2,730

2,764

2,858

2,978
*Semiconductor applications only

 

Silicon wafers are the fundamental building material for semiconductors, which in turn, are vital components of virtually all electronics goods, including computers, telecommunications products, and consumer electronics. The highly engineered thin round disks are produced in various diameters (from one inch to 12 inches) and serve as the substrate material on which most semiconductor devices or “chips” are fabricated.

All data cited in this release is inclusive of polished silicon wafers, including virgin test wafers and epitaxial silicon wafers, as well as non-polished silicon wafers shipped by the wafer manufacturers to the end-users.

The Silicon Manufacturers Group acts as an independent special interest group within the SEMI structure and is open to SEMI members involved in manufacturing polycrystalline silicon, monocrystalline silicon or silicon wafers (e.g., as cut, polished, epi, etc.). The purpose of the group is to facilitate collective efforts on issues related to the silicon industry including the development of market information and statistics about the silicon industry and the semiconductor market.

 

Worldwide PC shipments totaled 61.1 million units in the second quarter of 2017, a 4.3 percent decline from the second quarter of 2016, according to preliminary results by Gartner, Inc. The PC industry is in the midst of a 5 year slump, and this is the 11th straight quarter of declining shipments. Shipments in the second quarter of this year were the lowest quarter volume since 2007.

“Higher PC prices due to the impact of component shortages for DRAM, solid state drives (SSDs) and LCD panels had a pronounced negative impact on PC demand in the second quarter of 2017,” said Mikako Kitagawa, principal analyst at Gartner “The approach to higher component costs varied by vendor. Some decided to absorb the component price hike without raising the final price of their devices, while other vendors transferred the costs to the end-user price.”

However, in the business segment, vendors could not increase the price too quickly, especially in large enterprises where the price is typically locked in based on the contract, which often run through the quarter or even the year,” Ms. Kitagawa said. “In the consumer market, the price hike has a greater impact as buying habits are more sensitive to price increases. Many consumers are willing to postpone their purchases until the price pressure eases.”

HP Inc. reclaimed the top position from Lenovo in the worldwide PC market in the second quarter of 2017 (see Table 1). HP Inc. has achieved five consecutive quarters of year-over-year growth. Shipments grew in most regions, and it did especially well in the U.S. market where its shipments growth far exceeded the regional average.

Table 1
Preliminary Worldwide PC Vendor Unit Shipment Estimates for 2Q17 (Thousands of Units)

Company

2Q17 Shipments

2Q17 Market Share (%)

2Q16 Shipments

2Q16 Market Share (%)

2Q17-2Q16 Growth (%)

HP Inc.

12,690

20.8

12,285

19.2

3.3

Lenovo

12,188

19.9

13,305

20.8

-8.4

Dell

9,557

15.6

9,421

14.7

1.4

Apple

4,236

6.9

4,252

6.7

-0.4

Asus

4,036

6.6

4,501

7.0

-10.3

Acer Group

3,850

6.3

4,402

6.9

-12.5

Others

14,546

23.8

15,710

24.6

-7.4

Total

61,105

100.0

63,876

100.0

-4.3

Notes: Data includes desk-based PCs, notebook PCs and ultramobile premiums (such as Microsoft Surface), but not Chromebooks or iPads. All data is estimated based on a preliminary study. Final estimates will be subject to change. The statistics are based on shipments selling into channels. Numbers may not add up to totals shown due to rounding.
Source: Gartner (July 2017)

Lenovo’s global shipments declined 8.4 percent in the second quarter of 2017, after two quarters of growth. Lenovo recorded year-over-year shipment declines in all key regions. Ms. Kitagawa said the 2Q17 results could reflect Lenovo’s strategic shift from unit share gains to margin protection. The strategic balance between share gain and profitability is a challenge for all PC vendors.

Dell achieved five consecutive quarters of year-on-year global shipment growth, as shipments increased 1.4 percent in 2Q17. Dell has put a high priority on PCs as a strategic business. Among the top three vendors, Dell is the only vendor which can supply the integrated IT needs to businesses under the Dell Technologies umbrella of companies.

In the U.S., PC shipments totaled 14 million units in the second quarter of 2017, a 5.7 percent decline from the second quarter of 2016 (see Table 2). The U.S. market declined due to weak consumer PC demand. The business market has shown some consistent growth, while early indicators suggest that spending in the public sector was on track with normal seasonality as the second quarter is typically the peak PC procurement season. However, the education market was under pressure from strong Chromebook demand.

The Chromebook market has been growing much faster than the overall PC market. Gartner does not include Chromebook shipments within the overall PC market, but it is moderately impacting the PC market. Worldwide Chromebook shipments grew 38 percent in 2016, while the overall PC market declined 6 percent.

“The Chromebook is not a PC replacement as of now, but it could be potentially transformed as a PC replacement if a few conditions are met going forward,” Ms. Kitagawa said. “For example, infrastructure of general connectivity needs to improve; mobile data connectivity needs to become more affordable; and it needs to have more offline capability.”

Table 2
Preliminary U.S. PC Vendor Unit Shipment Estimates for 2Q17 (Thousands of Units)

Company

2Q17 Shipments

2Q17 Market Share (%)

2Q16 Shipments

2Q16 Market Share (%)

2Q17-2Q16 Growth (%)

HP Inc.

4,270

30.5

4,008

27.0

6.5

Dell

3,874

27.7

3,801

25.6

1.9

Lenovo

1,848

13.2

2,207

14.9

-16.3

Apple

1,649

11.8

1,825

12.3

-9.6

Asus

447

3.2

754

5.1

-40.7

Others

1,921

13.7

2,257

15.2

-14.9

Total

14,009

100.0

14,852

100.0

-5.7

Notes: Data includes desk-based PCs, notebook PCs and ultramobile premiums (such as Microsoft Surface), but not Chromebooks or iPads. All data is estimated based on a preliminary study. Final estimates will be subject to change. The statistics are based on shipments selling into channels. Numbers may not add up to totals shown due to rounding.
Source: Gartner (July 2017)

PC shipments in EMEA totaled 17 million units in the second quarter of 2017, a 3.5 percent decline year over year. There were mixed results across various countries. Uncertainty around the U.K. elections meant some U.K. businesses delayed buying, especially in the public sector. In France, consumer confidence rose more than expected after Emmanuel Macron was elected president, however spending on PCs remains sluggish. PC shipments increased in Germany as businesses invest in Windows 10 based new hardware, and the Russian market continued to show improvement driven by economic stabilization.

In Asia/Pacific, PC shipments surpassed 21.5 million units in the second quarter of 2017, down 5.1 percent from the same period last year. The PC market in this region was primarily affected by market dynamics in India and China. In India, the pent up demand after the demonetization cooled down after the first quarter, coupled with the absence of a large tender deal compared to a year ago and higher PC prices, brought about weak market growth. The China market was hugely impacted by the rise in PC prices due to the component shortage

These results are preliminary. Final statistics will be available soon to clients of Gartner’s PC Quarterly Statistics Worldwide by Region program. This program offers a comprehensive and timely picture of the worldwide PC market, allowing product planning, distribution, marketing and sales organizations to keep abreast of key issues and their future implications around the globe.

 

The SEMI Foundation today announced that its flagship High Tech U (HTU) program received the Innovative Program Award at the High Impact Technology Exchange Conference (HI-TEC).  The Innovative Program Award recognizes advanced technology education professionals that have designed and implemented a significant innovation, which has led to a positive impact on student enrollment, retention, or advanced technological education. The HI-TEC event and award are sponsored by a consortium of National Science Foundation-funded centers and projects.

“We are honored that SEMI High Tech U has been recognized by stakeholders in the National Science Foundation’s Advanced Technological Education (ATE) workforce programs,” said Leslie Tugman, executive director of the SEMI Foundation.  “It has been very rewarding to work with our industry partners to emphasize the importance of STEM skills and inspire young people to pursue careers in high technology fields. Seventy percent of HTU alumni graduate college with STEM degrees and work in STEM careers.”

“The SEMI Foundation is a leader in the delivery of hands-on, STEM-based, career exploration programs,” said Michael Lesiecki, Ph.D., executive director and principal investigator for the Maricopa Advanced Technology Education Center (MATEC) and ATE member. “Leslie’s work at the SEMI Foundation in 2001 to bring this model to industry partners has developed over time to become a standard of excellence in early workforce development.”

The nonprofit SEMI Foundation has delivered SEMI High Tech U to more than 6,000 students at SEMI member industry facilities in eleven U.S. states and nine countries internationally since 2001. The three-day interactive program brings students onto industry sites where industry instructors teach the HTU modules. This unique delivery system enables students to meet engineers and industry personnel in a face-to-face setting. HTU motivates students by showing them the relevance of their classwork through connections to real-world problems and technology. For their latest Impact Report, visit: www.semifoundation.org/impact-report

Sponsored by a consortium of National Science Foundation Advanced Technological Education centers and projects, HI-TEC is a national conference that presents postsecondary and secondary educators and stakeholders with professional development, educational materials, collaborative ventures, and insights essential to developing and advancing the technical workforce of the 21st century.

 

Texas Instruments Incorporated (TI) (NASDAQ: TXN) today announced that Brian T. Crutcher has been named to its board of directors. Mr. Crutcher is executive vice president and chief operating officer of TI.

“Brian is a great addition to our board,” said Rich Templeton, TI’s chairman, president and CEO. “He knows TI well and brings strong financial acumen and business judgment to the board.”

Crutcher, 44, joined TI in 1996 and has critical leadership responsibility for TI’s businesses, sales and manufacturing organizations. He was named a senior vice president in 2010, executive vice president in 2014 and chief operating officer in early 2017. Brian holds a Bachelor of Science in electrical engineering from the University of Central Florida and a Master of Business Administration from the University of California, Irvine.

“Brian’s 20-plus years of leading large, complex semiconductor operations gives him keen insights into the current and future state of this industry. His knowledge of markets and customers will be valuable to the board’s deliberations,” said Wayne Sanders, the TI board’s lead director and chairman of its governance and stockholder relations committee.

The semiconductor market in China continues to grow at a staggering speed. The current backbone of the electronics and telecom industry in China, semiconductor companies in China are driving innovation with new trends like spending on wafer fab equipment. China’s semiconductor consumption and overall semiconductor manufacturing has also seen rapid growth over the recent years. BizVibe predicts that China will overtake the US to become the leader in the global semiconductor market within the next five years.

BizVibe_Predicts_-_China_Will_Dominate_the_Global_Semiconductor_Market_in_the_Next_5_Years

BizVibe is home to over 55,000 Electronics & Telecoms companies around the world, including many in China. In a recent article titled China Sets to Dominate the Global Semiconductor Market, BizVibe closely examines what is driving growth for the semiconductor market in China.

BizVibe notes that, over the last ten years, both China’s semiconductor consumption and production revenues increased at a greater rate than worldwide revenues. From 2005 through 2015, China’s semiconductor industry grew at a ten-year compounded annual growth rate (CAGR) of 18.7%, while its semiconductor consumption grew at a rate of 14.3%, compared to the worldwide semiconductor market, which grew at a 4% CAGR.

One of the main reasons behind China’s growing semiconductor sector is attributed to the country’s rising wafer fab equipment spending trends over the last decade. Although China is expected to play an increasingly influential role in the global semiconductor market over the next few years, government incentives and market conditions still need improvement to allow for the further reduction in the consumption/production gap and long-range moderate growth.

The American Institute for Manufacturing Integrated Photonics (AIM Photonics), a public-private partnership advancing the nation’s photonics manufacturing capabilities, announced Mentor, a Siemens Business and global EDA leader, as the newest Tier 1 member of AIM Photonics. Mentor brings its expertise in Electronic Photonics Design Automation (EPDA), a critical design technology enabler for AIM Photonics’ Process Design Kit (PDK) and Multi Project Wafer (MPW).

Mentor’s software and hardware design solutions enable companies to develop better electronic products faster and more cost-effectively.  These solutions will help engineers in AIM Photonics and member companies overcome design challenges in the increasingly complex world of board and chip design, especially as it relates to integrated silicon photonics.

“AIM Photonics has built an integrated photonics design solution package that is second to none, mainly due to the membership of global electronic design leaders like Mentor,”  said  Dr. Michael Liehr, CEO of AIM Photonics. “Their expertise in functional verification, design for test, and PCB design are a plus for our new Test, Assembly, and Packaging (TAP) facility now under construction.”

“Mentor’s goal in joining AIM is to unify the electronic and photonic design processes so that custom IC designers can be successful with their photonic IC designs,” said Robert Hum, vice president, Deep Sub Micron Division at Mentor. “We are enhancing our Pyxis®-based custom design flow to achieve this goal. The photonic design flow also includes Eldo®, Questa® ADMS and Calibre® for verification.”

Since fall of 2016 AIM Photonics has released a number of versions and updates to its PDK, in support of its MPW program and third call for proposals. Mentor also recently presented on PIC Design for AIM MPW at the AIM Photonics Proposer event in Rochester, NY. Since then, numerous commercial, government, and university organizations have signed up to participate in the PDK and MPW programs.

In a recent announcement, Mentor provided details on a new integration with PhoeniX Software, also an AIM Photonics EPDA Member, that reduces tape-out time for integrated photonics designers by enabling faster iterations between final sign-off verification and the design tool. Designers using the new integration will be able to more quickly identify and correct layout issues to ensure their designs comply with manufacturing requirements.

“The exceptional response to our PDK and MPW offerings is a testament to what Mentor brings to AIM Photonics’ EPDA program,” said Brett Attaway, AIM Photonics EPDA Executive Director.  “The fantastic synergy between AIM’s EPDA members has been instrumental in bringing new integrated photonic design solutions to the market quickly.”

 

Durcan_Mark_2400x3000_1_smlThe Semiconductor Industry Association (SIA), representing U.S. leadership in semiconductor manufacturing, design, and research, announced Mark Durcan, former CEO of Micron Technology, Inc., and a longtime leader in advancing semiconductor technology, has been named the 2017 recipient of SIA’s highest honor, the Robert N. Noyce Award. SIA presents the Noyce Award annually in recognition of a leader who has made outstanding contributions to the semiconductor industry in technology or public policy. Durcan, who retired as Micron CEO on May 8, 2017, will accept the award at the SIA Annual Award Dinner on Tuesday, Nov. 14, 2017 in San Jose, an event that will also commemorate SIA’s 40th anniversary.

“Throughout his impressive career, Mark Durcan has demonstrated the best the semiconductor industry has to offer: hard work, ingenuity, and a relentless focus on promoting innovation,” said John Neuffer, president and CEO, Semiconductor Industry Association. “From his engineering roots to his recent work leading one of the world’s top manufacturers of memory products, Mark has strengthened our industry, advanced semiconductor technology, and reinforced America’s leadership of the global semiconductor market. On behalf of the SIA board of directors, it is a pleasure to announce Mark’s selection as the 2017 Robert N. Noyce Award recipient in honor of his outstanding accomplishments.”

A 30-year company veteran, Durcan rose from his first role as a Process Integration Engineer to Chief Technical Officer, President, and, ultimately, CEO in 2012. A key technical decision maker in bringing Micron’s next-generation technologies to market, Durcan expanded Micron’s global presence and enhanced its capabilities with strategic acquisitions, including Elpida (2012) and Rexchip (2012) and Inotera Memories, Inc. (2016). He also forged long-lasting partnerships with industry leaders such as Intel.

Durcan served as Chairman of the Micron Technology Foundation, Inc., which was formed to advance STEM education and support civic and charitable institutions in the communities in which Micron has facilities. He also currently serves on the board of directors for AmerisourceBergen Corp. and St. Luke’s Health System, a non-profit hospital system in Idaho. Durcan earned both bachelor’s and master’s degrees in chemical engineering from Rice University.

“It is a true honor to be selected for this award, and to join the ranks of its distinguished recipients, who are industry pioneers and icons,” said Durcan. “Nothing that I have accomplished during my career would have been possible without the influence of so many innovative and dedicated colleagues at Micron as well as our customers, suppliers, and partners. It is with sincere appreciation for their contributions to our industry that I gratefully accept this award.”

The Noyce Award is named in honor of semiconductor industry pioneer Robert N. Noyce, co-founder of Fairchild Semiconductor and Intel.

The Semiconductor Industry Association (SIA), in consultation with the Semiconductor Research Corporation (SRC), today announced the winners of its 2017 University Research Award: Dr. Gabor C. Temes, professor of electrical and computer engineering at Oregon State University (OSU), and Dr. Sanjay Banerjee, professor of electrical and computer engineering and director of the Microelectronics Research Center at The University of Texas at Austin (UT Austin). Drs. Temes and Banerjee will receive the awards in conjunction with the SIA Annual Award Dinner on Nov. 14, 2017 in San Jose, Calif.

“Research is at the root of all innovation, breathing life into new technologies that have strengthened our industry, spurred economic growth, and improved people’s lives,” said John Neuffer, president and CEO of SIA, which represents U.S. leadership in semiconductor manufacturing, design, and research. “Throughout their careers, Professors Temes and Banerjee have epitomized excellence in scientific research, leading efforts to advance semiconductor technology and strengthen America’s technological leadership. We are pleased to recognize Dr. Temes and Dr. Banerjee for their groundbreaking achievements.”

Neuffer also highlighted the importance of government investments in basic research funded through agencies like the National Science Foundation (NSF) and the National Institute of Standards and Technology (NIST) and applauded recently announced public-private initiatives at the U.S. Department of Energy and the Defense Advanced Research Projects Agency (DARPA) aimed at advancing semiconductor research. He expressed SIA’s readiness to work with the Trump Administration and Congress to ensure enactment of a fiscal year 2018 budget that prioritizes investments in basic research.

“The University Research Award was established to recognize lifetime achievements in semiconductor research by university faculty,” said Ken Hansen, president & CEO of SRC. “Drs. Temes and Banerjee have repeatedly advanced the state-of-the-art semiconductor design and technology in their respective fields. These esteemed professors’ influence on their students has produced new leaders and contributors in the semiconductor industry. The research output from the cooperative universities plays an integral role in next-generation innovations. It is with great appreciation and admiration that the entire SRC team congratulates Dr. Temes and Dr. Banerjee.”

Dr. Temes will receive the honor for excellence in design research. In particular, he will be recognized for contributions in interface electronics, including analog-to-digital and digital-to-analog converters, switched-capacitor filters and amplifiers, and sensor interfaces. Before joining OSU, Dr. Temes held academic positions at the Technical University of Budapest, Stanford University, and UCLA. He also worked in industry at Northern Electric R&D Laboratories (now Bell-Northern Research), as well as at Ampex Corp. Dr. Temes received his undergraduate education at the Technical University and Eotvos University in Budapest, Hungary, and his Ph.D. in electrical engineering from University of Ottawa, Canada.

Dr. Banerjee will receive the award for excellence in technology research. Specifically, he will be honored for contributions in MOS and nanostructure device modeling, Si-Ge-C heterostructure devices, and ultra-shallow junction technology. Before joining the Cockrell School of Engineering at UT Austin, Dr. Banerjee was at Texas Instruments from 1983-1987, where he worked on polysilicon transistors and dynamic random access trench memory cells used by Texas Instruments in the world’s first 4Megabit DRAM. He received his undergraduate degree from the Indian Institute of Technology, Kharagpur, and his M.S. and Ph.D. from the University of Illinois at Urbana-Champaign, all in electrical engineering.

Applied Materials, Inc. today recognized 10 companies with Supplier of the Year Awards for their contributions to Applied’s success over the past year. The awards reflect outstanding performance in several areas including quality, service, lead time, delivery, cost and sustainability. The awards were presented at Applied’s annual Executive Supplier Forum, an event highlighting the company’s commitment to build close relationships with suppliers, communicate Applied’s strategic direction and priorities, and foster supplier engagement.

“Technology advancements in semiconductors and displays are progressing at an astounding rate,” said Gino Addiego, senior vice president of Engineering, Operations and Quality at Applied Materials. “As the innovation leader, Applied works closely with its suppliers to achieve superior technical and operational performance. I want to thank all the 2017 Supplier of the Year Award winners for contributing to Applied’s success in delivering industry-leading products.”

The following companies received Supplier of the Year Awards in their designated categories for consistently meeting or exceeding Applied’s performance expectations over the past year:

OEM Supplier
Green, Tweed & Co.
Sinfonia Technology

Contract Manufacturing
Foxsemicon Integrated Technology Inc.

Component Manufacturing
Rapid Manufacturing

Precision Machining
Paradigm Metals Inc.

Advanced Materials
Ferrotec Corporation

Special Processes
LeanTeq

Aftermarket Excellence
Coherent

Information Technology
Ping Identity

Collaboration and Innovation
Comet AG, Plasma Control Technologies

 

By Pete Singer

Semiconductor manufacturers use a variety of high global warming potential (GWP) gases to process wafers and to rapidly clean chemical vapor deposition (CVD) tool chambers. Processes use high GWP fluorinated compounds including perfluorocarbons (e.g., CF4, C2F6 and C3F8), hydrofluorocarbons (CHF3, CH3F and CH2F2), nitrogen trifluoride (NF3) and sulfur hexafluoride (SF6). Semiconductor manufacturing processes also use fluorinated heat transfer fluids and nitrous oxide (N2O).

Of these, the semiconductor industry naturally tends to focus its attention on CF4 since it is one of the worst offenders, with an atmospheric half-life of 50,000 years. “CF4 the hardest to get rid of and it’s one of the worst global warming gases,” said Kate Wilson, VP Marketing, Subfab Solutions – Semiconductor Division of Edwards. “We tend to use that as an indicator of how much of the other global warming gases, as well, are being emitted by the industry. If we’re dealing with that (CF4) well, we tend to be managing the rest of the gases pretty effectively.”

According to the Environmental Protection Agency (EPA), estimating fluorinated GHG emissions from semiconductor manufacture is complicated and has required a significant and coordinated effort by the industry and governments. It was historically assumed that the majority of these chemicals were consumed or transformed in the manufacturing process. It is now known that under normal operating conditions, anywhere between 10 to 80 percent of the fluorinated GHGs pass through the manufacturing tool chambers unreacted and are released into the air.

In addition, fluorinated GHG emissions vary depending on a number of factors, including gas used, type/brand of equipment used, company-specific process parameters, number of fluorinated GHG-using steps in a production process, generation of fluorinated GHG by-product chemicals, and whether appropriate abatement equipment has been installed. Companies’ product types, manufacturing processes and emissions also vary widely across semiconductor fabs.

The good news is that many companies in the semiconductor manufacturing industry have successfully identified, evaluated and implemented a variety of technologies that protect the climate and improved production efficiencies. Solutions have been investigated and successfully implemented in the following key technological areas:

  • Process improvements/source reduction
  • Alternative chemicals
  • Capture and beneficial reuse
  • Destruction technologies (known as abatement)

In 2011 the industry set new targets for 2020, which it summarizes as:

  • The implementation of best practices for new semiconductor fabs. The industry expects that the implementation of best practices will result in a normalized emission rate (NER) in 2020 of 0.22 kgCO2e/cm2, which is a 30 percent NER reduction from the 2010 aggregated baseline.
  • The addition of “Rest of World” fabs (fabs located outside the World Semiconductor Council (WSC) regions that are operated by a company from a WSC association) in reporting of emissions and the implementation of best practices for new fabs.
  • NER based measurement in kilograms of carbon equivalents per area of silicon wafers processed (kgCO2e/cm2), which will be the single WSC goal at the global level.

“We’re finding as we get down to the lower levels and different things come up as the highest priority in the fab where we’re moving into more and more lower usage processes, which are requiring abatement now in order to get those levels down to meet the targets of 2020 in the industry,” Wilson explained.

The main area for potential improvement now is etch, especially in older 200mm fabs where etch processes may not have been fitted with PFC abatement devices. This is particularly true for etch processes making extensive use of CF4. “The area where we still have the most gaps is clearly etch,” Wilson said. In CVD processes, most of the benefit was done by material shifts rather than actual abatement, although we clearly do need to abate the other gases in those processes. For the etch side, there are still quite a few customers that really only do the toxic emission abatement rather than the global warming gas emission abatement. But we do see, across almost all of our customer base, people have either fairly recently moved to fully abating all the PFC type gases or will be shortly.”

Wilson said some other gases have been coming up more recently in terms of things like N2O, which people are putting more focus on now as it’s becoming a larger part of the fab footprint of global warming materials.

For PFC abatement, Edwards offers the Atlas range of products, which destroys PFCs by burning them. This is followed by a wet scrub of the byproducts. This works quite well, but Wilson cautions that in can be tricky for some processes, such as chamber cleans with NF3. “If the burn is not correct and you get too hot, there’s actually the potential to create PFC’s. And so, it is quite critical to have well-controlled burn technology to make sure that you don’t actually cause issues where we didn’t have them before.”

Wilson said another area where they have seen some issues with PFCs being created is with processing of carbon-doped materials, such as low-k dielectrics. “When they do the chamber clean, they’re cleaning off predominately silicon dioxide but there’s carbon in there so that can create PFCs and CF4 as well so there’s a requirement to look at abatement in those areas,” she said.

Another piece of good news is that no company in the supply chain is waiting for legislation to be enacted before they act themselves. “Right from consumers to the consumer manufacturers, the car manufacturers, consumer electric manufacturers, our direct customers, the equipment manufacturers plus the major players within semiconductor and flat panel display, it seems that at every level there’s a commitment that this is the right thing to do,” Wilson said. “At every level people are pushing to get the requirements more stringent and it’s almost not about legislation anymore, it’s about everybody actually thinks it’s a good idea and they want to do it.”

Across all process areas in the fab effective abatement technologies reduce the GHG emissions significantly. The reductions per process area are shown in the diagram.

Across all process areas in the fab effective abatement technologies reduce the GHG emissions significantly. The reductions per process area are shown in the diagram.