YES (Yield Engineering Systems, Inc. ), a leading manufacturer of process equipment for semiconductor advanced packaging, life sciences and “More-than-Moore” applications, today announced that it has acquired SPEC (Semiconductor Process Equipment Corporation) of Valencia, California for an undisclosed amount. The companies had announced a strategic partnership agreement in June.

The purchase brings together two longtime, trusted semiconductor equipment suppliers with more than 70 years of industry experience between them. “YES and SPEC have many characteristics in common,” said Rama Alapati, CEO of YES. “Both of us have accumulated decades of technological expertise and have installed hundreds of systems in dozens of countries. We both take pride in our many repeat customers, and our excellent industry reputations. In acquiring SPEC, we feel YES is now better-positioned to meet the growing demands of current and future customers in emerging markets such as HPC, AI/ML, 5G, autonomous driving, augmented reality, and other computationally intensive applications.”

“The SPEC product line, which includes cleaning, etching, stripping and plating equipment, complements our portfolio well, and will allow YES to extend our offerings into the wet processing market,” added Rezwan Lateef, President of YES. “We welcome SPEC’s employees to the YES team, and we look forward to developing a variety of new products together to address and anticipate customer needs.”

“SPEC is very pleased to join forces with YES. With global demand for semiconductors increasing dramatically, this merger could not have come at a better time for both companies. We are excited to help YES open new markets and opportunities for our proven wet-process technologies going forward,” said Kevin McGillivray, co-founder of SPEC.

In addition to augmenting its personnel resources with the SPEC staff, YES will gain more than 40,000 square feet of manufacturing, assembly, and cleanroom space in Valencia, as well as SPEC’s regional offices around the world.

About YES
YES (Yield Engineering Systems, Inc.) is a preferred provider of high-tech, cost-effective equipment for transforming surfaces, materials, and interfaces. The company’s product lines include vacuum cure systems, chemical vapor deposition (CVD) systems, and plasma etching tools used for precise surface modification and thin-film coating of semiconductor wafers, semiconductor and MEMS devices, biosensors and medical substrates. With YES, customers ranging from startups to Fortune 100 companies can create and volume-produce products in a wide range of markets, including Advanced Packaging, MEMS, Augmented Reality/Virtual Reality and Life Sciences. YES is headquartered in Fremont, California, with a growing presence globally. For more information, please visit http://www.yieldengineering.com.

About SPEC
SPEC (Semiconductor Process Equipment Corporation) is a highly experienced supplier of surface conditioning wet process equipment. Since 1986, SPEC has designed and manufactured wafer-level and device-level wet process equipment for acid and solvent surface modification (cleaning, etching, stripping), electroplating, and electroless (chemical) plating for all industries requiring a high level of process cleanliness. SPEC’s products are used for polysilicon chip, chunk, and ingot cleaning; crucible cleaning, cavity cleaning for particle accelerators, chemical mixing and delivery, hard drive component cleaning, and quartzware cleaning. SPEC systems are engineered to match the unique requirements of the end user. For more information, please visit http://www.team-spec.com.

• Read more about YES (Yield Engineering Systems, Inc.) Acquires SPEC (Semiconductor Process Equipment Corp.)

ESPOO, Finland, 14th of December 2021 - There has been a need for enhanced coating methods in organic electronic manufacturing as foldable phones and other future product iterations need materials that are lighter, more reliable and enable folding and stretching of a device. Thus, the use of thin film encapsulation solutions has become more common in organic electronic manufacturing.

Atomic layer deposition (ALD) has already proven to be the coating solution of choice for a wide range of applications in the semiconductor industry. Inorganic films, which are the standard output of an ALD process, are however susceptible to crack or develop defects under severe mechanical stress. This issue is magnified when depositing on large surface areas often required in flexible organic electronics manufacturing. Picosun’s novel approach to address these issues, for which patent rights are pending, includes nanolamination of dense inorganic layers deposited with ALD to maintain excellent barrier performance‚ with organic or hybrid molecular layer deposition (MLD) layers to offer enhanced flexibility and de-emphasize the defects which may appear when films are stressed.

Picosun research on an industrially viable ALD/MLD process was demonstrated on wafers and polymer substrates over 200 mm in diameter with a deposition temperature of 90 °C using Picosun ALD tools. The results showed great thickness uniformity and higher throughput compared to pure ALD film deposition. The MLD film proved to be stable in ambient environment and the complementary strengths of ALD and MLD hindered H2O permeation through the film stack, which enables flexibility in moisture barrier design.

“We are excited to bring these insights to the market as there has been little information available from stable and industrially viable MLD processes in full wafer scale. Besides organic electronics, we see immense potential with the ALD/MLD films in the manufacturing of LEDs, MEMS and medical packaging”, states Juhana Kostamo, VP, Industrial Business Area of Picosun Group.

Watch the Picosun webinar to learn more about the topic and Picosun results:
https://info.picosun.com/webinars/ald-mld-nanolaminate-films

More information:
Juhana Kostamo
Vice President, Industrial Business Area, Picosun Group
Tel: +358 50 369 9565
Email: [email protected]
www.picosun.com

About Picosun
Picosun provides the most advanced ALD (Atomic Layer Deposition) thin film coating solutions for global industries. Picosun’s ALD solutions enable technological leap into the future, with turn-key production processes and unmatched, pioneering expertise in the field – dating back to the invention of the technology itself. Today, PICOSUN® ALD equipment are in daily manufacturing use in numerous leading industries around the world. Picosun is based in Finland, with subsidiaries in Germany, USA, Singapore, Japan, South Korea, China mainland and Taiwan, offices in India and France, and a world-wide sales and support network. Visit www.picosun.com.

• Read more about Picosun to introduce novel coating solution for organic electronics

ESPOO, Finland, 23 of November 2021 – Picosun Group has launched a Medical Materials Library consisting of over ten materials intended for medical-related coating and encapsulation with Atomic Layer Deposition (ALD). ALD coatings are ultra-thin, and they guarantee hermetic encapsulation of virtually any implanted device.

The materials library is a reflection of over six years extensive research and development that shows ALD can render biocompatibility to a substrate coated with Picosun library materials. Biocompatibility tests were carried out according to ISO standards in accredited third-party laboratories. The performed tests included for example cytotoxicity, antimicrobial activity, skin irritation or sensitization, hemocompatibility, bacterial endotoxins, bioburden and sterilization residuals. From the tested materials Picosun is able to design tens of different types of end materials according to customer needs.

ALD technology provides dimensionless coating thus enabling miniaturization of components and devices in the field of electronic implants. Antibacterial function together with excellent barrier properties and outstanding corrosion resistance pave the way for using the materials both in electronic and orthopedic implants and show high potential in pharmaceutical packaging. The superior film uniformity and conformality ensure a pinhole-free coverage over even the smallest details of the device.

“The demonstrated results show the undisputable opportunities ALD offers to the medical sector already today. While the basic surgical principles and technologies have remained the same for decades, now ALD enables unforeseen applications potentially improving patient safety and cost-effectiveness by extending implant durability and reducing adverse effects”, says Niku Oksala, professor of surgery at Tampere University and medical advisor for Picosun.

“Picosun’s Medical Materials Library targeted to the medical device manufacturer segment reflects the innovative spirit of the company. I’m really excited over the fact that we are able to flexibly design tailored encapsulations according to our customers’ needs. I’m especially proud of our medical customers and partners who are already in pre-clinical and clinical trials with their ALD coated devices”, says Juhani Taskinen, Vice President, Medical Business Area of Picosun Group.

More information:
Juhani Taskinen
Vice President, Medical Business Area, Picosun Group
Tel: +358 50 4066 957
Email: [email protected]
www.picosun.com

About Picosun
Picosun provides the most advanced ALD (Atomic Layer Deposition) thin film coating solutions for global industries. Picosun’s ALD solutions enable technological leap into the future, with turn-key production processes and unmatched, pioneering expertise in the field – dating back to the invention of the technology itself. Today, PICOSUN® ALD equipment are in daily manufacturing use in numerous leading industries around the world. Picosun is based in Finland, with subsidiaries in Germany, USA, Singapore, Japan, South Korea, China mainland and Taiwan, offices in India and France, and a world-wide sales and support network. Visit www.picosun.com.

• Read more about Medical technology companies to benefit from Picosun biocompatible materials

Company also announces opening of second office location in Chennai to accommodate growth in India

CHENNAI, India, Nov. 1, 2021 /PRNewswire/ -- KLA Corporation (NASDAQ: KLAC) today announced the opening of two important facilities in Chennai, India, supporting the company's investment in innovative research and talent development. KLA's Artificial Intelligence-Advanced Computing Lab (AI-ACL)—operated in partnership with the Indian Institute of Technology (IIT) Madras—will serve as a center of excellence for AI-focused research and development. In addition, a new office space in Chennai expands KLA's existing business operations as the company continues to grow and hire from the region.

KLA, a Fortune 500 company with 12,000+ global employees, is a leading supplier of process control and process enabling solutions for the global semiconductor and electronics industry. At KLA India, engineers, data scientists and problem-solvers design solutions that improve the performance of KLA's process control products and facilitate customer success. KLA's new state-of-the-art, high-tech research and development center serves as a cultural and collaboration hub for the engineering teams.

"KLA is at the forefront of using AI technology in our process control systems to identify and isolate critical issues in chip manufacturing," stated Ahmad Khan, president, semiconductor process control at KLA. "To expand the reach of AI in our products and develop the next generation of AI innovations, we created our new AI-ACL research facility. Our researchers and engineers at AI-ACL join the AI experts at our AI Modeling and Center of Excellence in Michigan to form a global team committed to advancing the boundaries of AI, software, image processing and physics modeling."

Officiating over the opening of both facilities, Prof. Bhaskar Ramamurthy, Director of IIT Madras said, "KLA and IIT Madras have been collaborating for over 15 years. We look forward to an expanded collaboration with KLA in AI, advanced parallel computing, and quantum computing research for applications in the semiconductor inspection and metrology domain. The IIT Madras Research Park ecosystem is a perfect enabler for such an industry with academic collaboration that is bringing together our resident experts, top student researchers and industry's best minds. I also congratulate KLA on the grand opening of its new office in RMZ Millenia-II today."

Beyond expanding business in India, KLA prioritizes making a positive impact on the local community. In May, KLA created a $550,000 India pandemic relief fund to aid healthcare facilities in procuring critically-needed equipment in the fight against Covid-19. The donation also supports a long-term investment to expand ICU capacity in regional hospitals and better address the needs of under-privileged communities.

Those interested in careers with KLA India may find more information at www.kla.com/careers/locations/India.

About KLA:

KLA develops industry-leading equipment and services that enable innovation throughout the electronics industry. We provide advanced process control and process-enabling solutions for manufacturing wafers and reticles, integrated circuits, packaging, printed circuit boards and flat panel displays. In close collaboration with leading customers across the globe, our expert teams of physicists, engineers, data scientists and problem-solvers design solutions that move the world forward. Additional information may be found at www.kla.com.

• Read more about KLA Corporation Opens New Artificial Intelligence-Advanced Computing Lab at Indian Institute of Technology Madras Research Park

Report highlights female engineers are passionate about engineering despite barriers to entering the field;
KLA Corporation’s new Engineering Inspiration Report showcases motivators, passions and challenges to entering the engineering field

MILPITAS, Calif., October 26, 2021 - KLA Corporation (NASDAQ: KLAC) today announced the KLA Engineering Inspiration Report, a new multi-regional research that shows engineers are extremely passionate about possibilities that the field provides. The inaugural report notes roughly two-thirds (65%) of engineers and students indicate they entered the field to create something that might change people’s lives.

Overall, nearly two-thirds of engineers (64%) indicate they are just as, if not more, passionate than they were when they entered the field. While there is no statistical difference in those numbers (women: 61% and men: 64%), women are faced with additional challenges such as the lack of family engineering role models and a later introduction to the engineering career path than their male counterparts. Further, 59% of female engineers say they were challenged in that STEM was not considered an appropriate field for women when they were on the path to engineering. The data speaks to the perseverance of women in engineering to continue in a career with a high level of passion despite the barriers they faced along the way.

The KLA Engineering Inspiration Report reveals the motivations, inspirations and major challenges on the path to becoming an engineer. As the gap between the supply and demand of engineering talent across industry sectors has increased, KLA found it critical to better understand the unique needs of those who choose the career path to encourage a more diverse set of people to explore the engineering profession. To gain insights, KLA commissioned the survey of both students and engineers in five regions which include the U.S., the U.K., China, Taiwan and Israel to assess their feelings, the drivers behind success and the barriers to entry that we need to work together to overcome.

On the launch of the report, KLA’s Chief Executive Officer and President Rick Wallace commented, “The insights gleaned from the Engineering Inspiration Report offer the opportunity for us to customize the KLA workplace experience, not only for our existing engineers but also those of the next generation. Part of our vision at KLA is ‘the future is ours to create,’ and engineers are critical to making that a reality and bringing cutting-edge innovations to life. It is up to us to ensure that we are creating an inspirational, stimulating and inclusive environment for them to work.”

Engineers want to make an impact

When first introduced to engineering, around two-thirds of engineers and students were highly motivated by the ability to solve problems (68%), the chance to create something that might change people’s lives (65%) and the opportunity to bring the future to today (65%). In addition, half (50%) of engineers and students indicate they have been inspired by sustainability issues, such as climate change, overpopulation and major natural disasters, and 39% by social concerns such as social disparities and disparities of resources.

In Taiwan, seven in 10 (70%) engineers and students say the digital revolution, such as the emergence and adoption of AI, machine learning and other technologies, drew them to the field—which is over 20 percentage points higher than the multi-regional average (49%).
When looking for careers in engineering, students and engineers similarly indicate that salary is important but so are the opportunities for career growth and other life benefits such as sabbaticals, new parent programs, financial planning support and time off to volunteer. Outside of work, engineers and students turn to music (29%), exercise (28%) and nature (28%) to draw inspiration for their day-to-day work—possibly further indicating the need for a package deal when choosing an employer.
Women on the engineering career path are determined and perseverant

Women in engineering want change. More than half (54%) of female engineers and students say they were motivated by the chance to break the glass ceiling when first introduced to engineering.

One of the biggest challenges is when and how women are introduced to engineering as a career. Nearly half (44%) of all engineers and students indicate they were first introduced to the engineering field by family or friends. Yet, when looking by gender, only 9% of female students report a parent introduced them to the field (vs. 17% of male students), and only one-third (35%) of female students report they were motivated by the chance to follow in the footsteps of a parent or family member (vs. 50% of male students).

Further, when asked when they began considering engineering as a career path, male students are more likely to say high school, while female students indicate undergrad.

Engineering degrees can be costly and time consuming, yet may not be teaching all the right skills

Across all regions, engineers cite common challenges to entering the field, with the stress of needing to achieve academic excellence, the time it takes to become an engineer and the cost of education as the top challenges. Though in some regions, like Israel and Taiwan, the challenges are more prevalent. When thinking about why more people do not chose engineering as a career path, half (50%) of students and engineers in Israel point to the stress of needing to achieve academic excellence as a barrier to pursuing the career (multi-regional average: 36%). More than half (56%) of students and engineers in Taiwan say the time it takes to become an engineer is a top reason why more people do not consider the field (multi-regional average: 40%).

Beyond the education required, professional engineers indicate a gap between the skills they were taught in school and the skills required to be successful in their career. Engineers rank teamwork, time management and project management among the top skills required for success, yet more than half (52%, 63% and 60%, respectively) of students say those skills are not being taught in their current programs.

The passion is high and so are opportunities

Almost all students and engineers indicate they are highly passionate about the chance to join the field and, in turn, would recommend their career to others. 86% of students say they are very passionate about the opportunity to become an engineer, and 82% of engineers say they would recommend becoming an engineer to someone they know.

These results are even higher in certain regions. For instance, 94% of U.K. students say they are very passionate about the opportunity to become an engineer, and nearly nine in 10 U.K. engineers (88%) and Chinese engineers (88%) say they would recommend becoming an engineer to someone they know.

Additional Resources

For more details about the KLA Engineering Inspiration Report and to hear stories from KLA engineers about why they became an engineer, please visit www.kla.com/EngineeringInspiration.

Methodology

In partnership with IPSOS, a global business and consumer research services organization, a survey was fielded from June 4 – July 29, 2021 in five regions (the United States, the United Kingdom, China, Taiwan and Israel) in their native language. The survey sample included 1,083 students and 2,278 engineers, using an online methodology with a varied sample per market and per audience.

About KLA

KLA develops industry-leading equipment and services that enable innovation throughout the electronics industry. We provide advanced process control and process-enabling solutions for manufacturing wafers and reticles, integrated circuits, packaging, printed circuit boards and flat panel displays. In close collaboration with leading customers across the globe, our expert teams of physicists, engineers, data scientists and problem-solvers design solutions that move the world forward. Additional information may be found at www.kla.com (KLAC-F).

• Read more about Two-thirds of engineers entered the career to change people’s lives, according to new KLA research

Technetics PTFE & Polymer Solutions (aka Technetics Group Houston) has been acquired by Edgewater Capital Partners effective September 3, 2021.   The new name is Altamira Material Solutions LP.

This acquisition includes two PTFE and Polymer processing facilities in Houston and one location in Hatfield, PA that provides best in class chemical etching services for the fluoropolymer industry.

The Altamira team wants you to know how much we appreciate your support over the years.   We are all eager to continue to serve you.     These changes in our organizational structure will allow us to focus more on our core business and improvements in our processes to support our customers.     More importantly, the team you have grown to trust and rely on for your products is not changing, it’s growing!   We are all excited about the opportunities ahead under our new ownership.

Andrew Bastian, General Manager for Altamira states; "The team Altamira Material Solutions is excited to build on our 50-year history of supplying industry leading PTFE products with our new partner Edgewater. We have a big vision for the future and expect to achieve great things together. This partnership is a win for our employees and customers. We couldn't be happier with the opportunity to work together toward a bright future."

For any additional information about Altamira , please contact Roxanne Dittrich, Business Director ([email protected]).

www.Altamira-MS.com

• Read more about Technetics PTFE & Polymer Solutions is now Altamira Material Solutions LP

Brooks Instrument, a world leader in advanced flow, pressure, vacuum and vapor delivery solutions, will feature its new GP200 Series pressure-based mass flow controller (P-MFC) at SEMICON Europa, November 16-19, in Munich, Germany. The company will be exhibiting in booth B1572.

The new GP200 Series is the industry’s first fully pressure-insensitive, pressure-based mass flow controller designed specifically for advanced etch and chemical vapor deposition processes in semiconductor manufacturing.

Providing ≤ ±1% process gas accuracy and ≤ ±0.15% S.P. repeatability, the ultrafast GP200 Series meets the critical requirements for high aspect ratio etch processes for TSV, MEMS and high-throughput continuous plasma processes.

Featuring a patented architecture that overcomes the limitations of conventional P-MFCs, the GP200 is designed to maintain accurate flow delivery of low vapor pressure and high-pressure gases into processes operating from high vacuum above atmospheric pressure. In comparison, conventional P-MFCs require high supply pressures and low outlet pressures or their performance quickly degrades. By offering a greater flexibility than conventional P-MFCs, the GP200 Series is the first universal pressure-based solution and upgrade for traditional P-MFCs and thermal MFCs.

The GP200’s extreme pressure insensitivity and zero leak-by valve (ZLV) technology enables design engineers to reduce gas panel complexity, size and cost by eliminating the need for point-of-use pressure regulators and transducers.

In addition to its GP200 Series P-MFC, Brooks will showcase other key products such as vacuum and pressure measurement sensors, gauges and instrumentation used in wafer process equipment and fab gas distribution.

For more information about the complete range of Brooks Instrument products and solutions for semiconductor applications, visit www.brooksinstrument.com.

For more information about the GP200 Series P-MFC, including specifications and videos, visit experience.brooksinstrument.com/pressure-based-mass-flow-controller-gp200.

About Brooks Instrument
Since 1946, Brooks Instrument has been a leader in precision fluid measurement and control technology. Providing instrumentation for flow, pressure and vapor delivery, the company serves customers in semiconductor and high-tech industrial manufacturing and process industries.

With manufacturing, sales and service locations in the Americas, Europe and Asia, Brooks Instrument has the world’s largest installed base of mass flow controllers. Its broad family of products includes brands such as Celerity, UNIT Instruments and Tylan.

For more information, please visit www.BrooksInstrument.com. The company is also on LinkedIn (www.linkedin.com/company/Brooks-Instrument) and YouTube (www.youtube.com/user/Brooks407).

• Read more about Brooks Instrument to Showcase New Pressure-Based Mass Flow Controller at SEMICON EUROPA 2021