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Chip Industry Week in Review

Okinawa Institute of Science and Technology proposed a new EUV litho technology using only four reflective mirrors and a new method of illumination optics that it claims will use 1/10 the power and cost half as much as existing EUV technology from ASML.

Applied Materials may not receive expected U.S. funding to build a $4 billion research facility in Sunnyvale, CA, due to internal government disagreements over how to fund chip R&D, according to Bloomberg.

SEMI published a position paper this week cautioning the European Union against imposing additional export controls to allow companies, encouraging them to  be “as free as possible in their investment decisions to avoid losing their agility and relevance across global markets.” SEMI’s recommendations on outbound investments are in response to the European Economic Security Strategy and emphasize the need for a transparent and predictable regulatory framework.

The U.S. may restrict China’s access to HBM chips and the equipment needed to make them, reports Bloomberg. Today those chips are manufactured by two Korean-based companies, Samsung and SK hynix, but U.S.-based Micron expects to begin shipping 12-high stacks of HBM3E in 2025, and is currently working on HBM4.

Synopsys executive chair and founder Dr. Aart de Geus was named the winner of the Semiconductor Industry Association’s Robert N. Noyce Award. De Geus was selected due to his contributions to EDA technology over a career spanning more than four decades.

The top three foundries plan to implement high-NA EUV lithography as early as 2025 for the 18 angstrom generation, but the replacement of single exposure high-NA (0.55) over double patterning with standard EUV (NA = 0.33) depends on whether it provides better results at a reasonable cost per wafer.

Quick links to more news:

Global
In-Depth
Market Reports and Earnings
Education and Training
Security
Product News
Research
Events and Further Reading


Global

Belgium-based Imec released part 2 of its chiplets series, addressing testing strategies and standardization efforts, as well as guidelines and research “towards efficient ESD protection strategies for advanced 3D systems-on-chip.”

Also in Belgium, BelGan, maker of GaN chips, filed for bankruptcy according to the Brussels Times.

TSMC‘s Dresden, Germany, plant will break ground this month.

The UK will dole out more than £100 million (~US $128 million) in funding to develop five new quantum research hubs in Glasgow, Edinburgh, Birmingham, Oxford, and London.

MassPhoton is opening Hong Kong‘s first ultra-high vacuum GaN epitaxial wafer pilot line and will establish a GaN research center.

Infineon completed the sale of its manufacturing sites in the Philippines and South Korea to ASE.

Israel-based RAAAM Memory Technologies received a €5.25 million grant from the European Innovation Council (EIC) to support the development and commercialization of its innovative memory solutions. This funding will enable RAAAM to advance its research in high-performance and energy-efficient memory technologies, accelerating their integration into various applications and markets.


In-Depth

Semiconductor Engineering published its Automotive, Security and Pervasive Computing newsletter this week, featuring these top stories and video:

And:


Market Reports and Earnings

The semiconductor equipment industry is on a positive trajectory in 2024, with moderate revenue growth observed in Q2 after a subdued Q1, according to a new report from Yole Group. Wafer Fab Equipment revenue is projected to grow by 1.3% year-on-year, despite a 12% drop in Q1. Test equipment lead times are normalizing, improving order conditions. Key areas driving growth include memory and logic capital expenditures and high-bandwidth memory demand.

Worldwide silicon wafer shipments increased by 7% in Q2 2024, according to SEMI‘s latest report. This growth is attributed to robust demand from multiple semiconductor sectors, driven by advancements in AI, 5G, and automotive technologies.

The RF GaN market is projected to grow to US $2 billion by 2029, a 10% CAGR, according to Yole Group.

Counterpoint released their Q2 smartphone top 10 report.

Renesas completed their acquisition of EDA firm Altium, best known for its EDA platform and freeware CircuitMaker package.

It’s earnings season and here are recently released financials in the chip industry:

AMD  Advantest   Amkor   Ansys  Arteris   Arm   ASE   ASM   ASML
Cadence  IBM   Intel   Lam Research   Lattice   Nordson   NXP   Onsemi 
Qualcomm   Rambus  Samsung    SK Hynix   STMicro   Teradyne    TI  
Tower  TSMC    UMC  Western Digital

Industry stock price impacts are here.


Education and Training

Rochester Institute of Technology is leading a new pilot program to prepare community college students in areas such as cleanroom operations, new materials, simulation, and testing processes, with the intent of eventual transfer into RIT’s microelectronic engineering program.

Purdue University inked a deal with three research institutions — University of Piraeus, Technical University of Crete, and King’s College London —to develop joint research programs for semiconductors, AI and other critical technology fields.

The European Chips Skills Academy formed the Educational Leaders Board to help bridge the talent gap in Europe’s microelectronics sector.  The Board includes representatives from universities, vocational training providers, educators and research institutions who collaborate on strategic initiatives to strengthen university networks and build academic expertise through ECSA training programs.


Security

The Cybersecurity and Infrastructure Security Agency (CISA) is encouraging Apple users to review and apply this week’s recent security updates.

Microsoft Azure experienced a nearly 10 hour DDoS attack this week, leading to global service disruption for many customers.  “While the initial trigger event was a Distributed Denial-of-Service (DDoS) attack, which activated our DDoS protection mechanisms, initial investigations suggest that an error in the implementation of our defenses amplified the impact of the attack rather than mitigating it,” stated Microsoft in a release.

NIST published:

  • “Recommendations For Increasing U.S. Participation and Leadership in Standards Development,” a report outlining cybersecurity recommendations and mitigation strategies.
  • Final guidance documents and software to help improve the “safety, security and trustworthiness of AI systems.”
  • Cloud Computing Forensic Reference Architecture guide.

Delta Air Lines plans to seek damages after losing $500 million in lost revenue due to security company CrowdStrike‘s software update debacle.  And shareholders are also angry.

Recent security research:

  • Physically Secure Logic Locking With Nanomagnet Logic (UT Dallas)
  • WBP: Training-time Backdoor Attacks through HW-based Weight Bit Poisoning (UCF)
  • S-Tune: SOT-MTJ Manufacturing Parameters Tuning for Secure Next Generation of Computing ( U. of Arizona, UCF)
  • Diffie Hellman Picture Show: Key Exchange Stories from Commercial VoWiFi Deployments (CISPA, SBA Research, U. of Vienna)

Product News

Lam Research introduced a new version of its cryogenic etch technology designed to enhance the manufacturing of 3D NAND for AI applications. This technology allows for the precise etching of high aspect ratio features, crucial for creating 1,000-layer 3D NAND.


Fig.1: 3D NAND etch. Source: Lam Research

Alphawave Semi launched its Universal Chiplet Interconnect Express Die-to-Die IP. The subsystem offers 8 Tbps/mm bandwidth density and supports operation at 24 Gbps for D2D connectivity.

Infineon introduced a new MCU series for industrial and consumer motor controls, as well as power conversion system applications. The company also unveiled its new GoolGaN Drive product family of integrated single switches and half-bridges with integrated drivers.

Rambus released its DDR5 Client Clock Driver for next-gen, high-performance desktops and notebooks. The chips include Gen1 to Gen4 RCDs, power management ICs, Serial Presence Detect Hubs, and temperature sensors for leading-edge servers.

SK hynix introduced its new GDDR7 graphics DRAM. The product has an operating speed of 32Gbps, can process 1.5TB of data per second and has a 50% power efficiency improvement compared to the previous generation.

Intel launched its new Lunar Lake Ultra processors. The long awaited chips will be included in more than 80 laptop designs and has more than 40 NPU tera operations per second as well as over 60 GPU TOPS delivering more than 100 platform TOPS.

Brewer Science achieved recertification as a Certified B Corporation, reaffirming its commitment to sustainable and ethical business practices.

Panasonic adopted Siemens’ Teamcenter X cloud product lifecycle management solution, citing Teamcenter X’s Mendix low-code platform, improved operational efficiency and flexibility for its choice.

Keysight validated its 5G NR FR1 1024-QAM demodulation test cases for the first time. The 5G NR radio access technology supports eMBB and was validated on the 3GPP TS 38.521-4 test specification.


Research

In a 47-page deep-dive report, the Center for Security and Emerging Technology delved into all of the scientific breakthroughs from 1980 to present that brought EUV lithography to commercialization, including lessons learned for the next emerging technologies.

Researchers at the Paul Scherrer Institute developed a high-performance X-ray tomography technique using burst ptychography, achieving a resolution of 4nm. This method allows for non-destructive imaging of integrated circuits, providing detailed views of nanostructures in materials like silicon and metals.

MIT signed a four-year agreement with the Novo Nordisk Foundation Quantum Computing Programme at University of Copenhagen, focused on accelerating quantum computing hardware research.

MIT’s Research Laboratory of Electronics (RLE) developed a mechanically flexible wafer-scale integrated photonics fabrication platform. This enables the creation of flexible photonic circuits that maintain high performance while being bendable and stretchable. It offers significant potential for integrating photonic circuits into various flexible substrate applications in wearable technology, medical devices, and flexible electronics.

The Naval Research Lab identified a new class of semiconductor nanocrystals with bright ground-state excitons, emphasizing an important advancement in optoelectronics.

Researchers from National University of Singapore developed a novel method, known as tension-driven CHARM3D,  to fabricate 3D self-healing circuits, enabling the 3D printing of free-standing metallic structures without the need for support materials and external pressure.

Find more research in our Technical Papers library.


Events and Further Reading

Find upcoming chip industry events here, including:

Event Date Location
Atomic Layer Deposition (ALD 2024) Aug 4 – 7 Helsinki
Flash Memory Summit Aug 6 – 8 Santa Clara, CA
USENIX Security Symposium Aug 14 – 16 Philadelphia, PA
SPIE Optics + Photonics 2024 Aug 18 – 22 San Diego, CA
Cadence Cloud Tech Day Aug 20 San Jose, CA
Hot Chips 2024 Aug 25- 27 Stanford University/ Hybrid
Optica Online Industry Meeting: PIC Manufacturing, Packaging and Testing (imec) Aug 27 Online
SEMICON Taiwan Sep 4 -6 Taipei
DVCON Taiwan Sep 10 – 11 Hsinchu
AI HW and Edge AI Summit Sep 9 – 12 San Jose, CA
GSA Executive Forum Sep 26 Menlo Park, CA
SPIE Photomask Technology + EUVL Sep 29 – Oct 3 Monterey, CA
Strategic Materials Conference: SMC 2024 Sep 30 – Oct 2 San Jose, CA
Find All Upcoming Events Here

Upcoming webinars are here, including topics such as quantum safe cryptography, analytics for high-volume manufacturing, and mastering EMC simulations for electronic design.

Find Semiconductor Engineering’s latest newsletters here:

Automotive, Security and Pervasive Computing
Systems and Design
Low Power-High Performance
Test, Measurement and Analytics
Manufacturing, Packaging and Materials

 

The post Chip Industry Week in Review appeared first on Semiconductor Engineering.

Chip Industry Week in Review

Okinawa Institute of Science and Technology proposed a new EUV litho technology using only four reflective mirrors and a new method of illumination optics that it claims will use 1/10 the power and cost half as much as existing EUV technology from ASML.

Applied Materials may not receive expected U.S. funding to build a $4 billion research facility in Sunnyvale, CA, due to internal government disagreements over how to fund chip R&D, according to Bloomberg.

SEMI published a position paper this week cautioning the European Union against imposing additional export controls to allow companies, encouraging them to  be “as free as possible in their investment decisions to avoid losing their agility and relevance across global markets.” SEMI’s recommendations on outbound investments are in response to the European Economic Security Strategy and emphasize the need for a transparent and predictable regulatory framework.

The U.S. may restrict China’s access to HBM chips and the equipment needed to make them, reports Bloomberg. Today those chips are manufactured by two Korean-based companies, Samsung and SK hynix, but U.S.-based Micron expects to begin shipping 12-high stacks of HBM3E in 2025, and is currently working on HBM4.

Synopsys executive chair and founder Dr. Aart de Geus was named the winner of the Semiconductor Industry Association’s Robert N. Noyce Award. De Geus was selected due to his contributions to EDA technology over a career spanning more than four decades.

The top three foundries plan to implement high-NA EUV lithography as early as 2025 for the 18 angstrom generation, but the replacement of single exposure high-NA (0.55) over double patterning with standard EUV (NA = 0.33) depends on whether it provides better results at a reasonable cost per wafer.

Quick links to more news:

Global
In-Depth
Market Reports and Earnings
Education and Training
Security
Product News
Research
Events and Further Reading


Global

Belgium-based Imec released part 2 of its chiplets series, addressing testing strategies and standardization efforts, as well as guidelines and research “towards efficient ESD protection strategies for advanced 3D systems-on-chip.”

Also in Belgium, BelGan, maker of GaN chips, filed for bankruptcy according to the Brussels Times.

TSMC‘s Dresden, Germany, plant will break ground this month.

The UK will dole out more than £100 million (~US $128 million) in funding to develop five new quantum research hubs in Glasgow, Edinburgh, Birmingham, Oxford, and London.

MassPhoton is opening Hong Kong‘s first ultra-high vacuum GaN epitaxial wafer pilot line and will establish a GaN research center.

Infineon completed the sale of its manufacturing sites in the Philippines and South Korea to ASE.

Israel-based RAAAM Memory Technologies received a €5.25 million grant from the European Innovation Council (EIC) to support the development and commercialization of its innovative memory solutions. This funding will enable RAAAM to advance its research in high-performance and energy-efficient memory technologies, accelerating their integration into various applications and markets.


In-Depth

Semiconductor Engineering published its Automotive, Security and Pervasive Computing newsletter this week, featuring these top stories and video:

And:


Market Reports and Earnings

The semiconductor equipment industry is on a positive trajectory in 2024, with moderate revenue growth observed in Q2 after a subdued Q1, according to a new report from Yole Group. Wafer Fab Equipment revenue is projected to grow by 1.3% year-on-year, despite a 12% drop in Q1. Test equipment lead times are normalizing, improving order conditions. Key areas driving growth include memory and logic capital expenditures and high-bandwidth memory demand.

Worldwide silicon wafer shipments increased by 7% in Q2 2024, according to SEMI‘s latest report. This growth is attributed to robust demand from multiple semiconductor sectors, driven by advancements in AI, 5G, and automotive technologies.

The RF GaN market is projected to grow to US $2 billion by 2029, a 10% CAGR, according to Yole Group.

Counterpoint released their Q2 smartphone top 10 report.

Renesas completed their acquisition of EDA firm Altium, best known for its EDA platform and freeware CircuitMaker package.

It’s earnings season and here are recently released financials in the chip industry:

AMD  Advantest   Amkor   Ansys  Arteris   Arm   ASE   ASM   ASML
Cadence  IBM   Intel   Lam Research   Lattice   Nordson   NXP   Onsemi 
Qualcomm   Rambus  Samsung    SK Hynix   STMicro   Teradyne    TI  
Tower  TSMC    UMC  Western Digital

Industry stock price impacts are here.


Education and Training

Rochester Institute of Technology is leading a new pilot program to prepare community college students in areas such as cleanroom operations, new materials, simulation, and testing processes, with the intent of eventual transfer into RIT’s microelectronic engineering program.

Purdue University inked a deal with three research institutions — University of Piraeus, Technical University of Crete, and King’s College London —to develop joint research programs for semiconductors, AI and other critical technology fields.

The European Chips Skills Academy formed the Educational Leaders Board to help bridge the talent gap in Europe’s microelectronics sector.  The Board includes representatives from universities, vocational training providers, educators and research institutions who collaborate on strategic initiatives to strengthen university networks and build academic expertise through ECSA training programs.


Security

The Cybersecurity and Infrastructure Security Agency (CISA) is encouraging Apple users to review and apply this week’s recent security updates.

Microsoft Azure experienced a nearly 10 hour DDoS attack this week, leading to global service disruption for many customers.  “While the initial trigger event was a Distributed Denial-of-Service (DDoS) attack, which activated our DDoS protection mechanisms, initial investigations suggest that an error in the implementation of our defenses amplified the impact of the attack rather than mitigating it,” stated Microsoft in a release.

NIST published:

  • “Recommendations For Increasing U.S. Participation and Leadership in Standards Development,” a report outlining cybersecurity recommendations and mitigation strategies.
  • Final guidance documents and software to help improve the “safety, security and trustworthiness of AI systems.”
  • Cloud Computing Forensic Reference Architecture guide.

Delta Air Lines plans to seek damages after losing $500 million in lost revenue due to security company CrowdStrike‘s software update debacle.  And shareholders are also angry.

Recent security research:

  • Physically Secure Logic Locking With Nanomagnet Logic (UT Dallas)
  • WBP: Training-time Backdoor Attacks through HW-based Weight Bit Poisoning (UCF)
  • S-Tune: SOT-MTJ Manufacturing Parameters Tuning for Secure Next Generation of Computing ( U. of Arizona, UCF)
  • Diffie Hellman Picture Show: Key Exchange Stories from Commercial VoWiFi Deployments (CISPA, SBA Research, U. of Vienna)

Product News

Lam Research introduced a new version of its cryogenic etch technology designed to enhance the manufacturing of 3D NAND for AI applications. This technology allows for the precise etching of high aspect ratio features, crucial for creating 1,000-layer 3D NAND.


Fig.1: 3D NAND etch. Source: Lam Research

Alphawave Semi launched its Universal Chiplet Interconnect Express Die-toDie IP. The subsystem offers 8 Tbps/mm bandwidth density and supports operation at 24 Gbps for D2D connectivity.

Infineon introduced a new MCU series for industrial and consumer motor controls, as well as power conversion system applications. The company also unveiled its new GoolGaN Drive product family of integrated single switches and half-bridges with integrated drivers.

Rambus released its DDR5 Client Clock Driver for next-gen, high-performance desktops and notebooks. The chips include Gen1 to Gen4 RCDs, power management ICs, Serial Presence Detect Hubs, and temperature sensors for leading-edge servers.

SK hynix introduced its new GDDR7 graphics DRAM. The product has an operating speed of 32Gbps, can process 1.5TB of data per second and has a 50% power efficiency improvement compared to the previous generation.

Intel launched its new Lunar Lake Ultra processors. The long awaited chips will be included in more than 80 laptop designs and has more than 40 NPU tera operations per second as well as over 60 GPU TOPS delivering more than 100 platform TOPS.

Brewer Science achieved recertification as a Certified B Corporation, reaffirming its commitment to sustainable and ethical business practices.

Panasonic adopted Siemens’ Teamcenter X cloud product lifecycle management solution, citing Teamcenter X’s Mendix low-code platform, improved operational efficiency and flexibility for its choice.

Keysight validated its 5G NR FR1 1024-QAM demodulation test cases for the first time. The 5G NR radio access technology supports eMBB and was validated on the 3GPP TS 38.521-4 test specification.


Research

In a 47-page deep-dive report, the Center for Security and Emerging Technology delved into all of the scientific breakthroughs from 1980 to present that brought EUV lithography to commercialization, including lessons learned for the next emerging technologies.

Researchers at the Paul Scherrer Institute developed a high-performance X-ray tomography technique using burst ptychography, achieving a resolution of 4nm. This method allows for non-destructive imaging of integrated circuits, providing detailed views of nanostructures in materials like silicon and metals.

MIT signed a four-year agreement with the Novo Nordisk Foundation Quantum Computing Programme at University of Copenhagen, focused on accelerating quantum computing hardware research.

MIT’s Research Laboratory of Electronics (RLE) developed a mechanically flexible wafer-scale integrated photonics fabrication platform. This enables the creation of flexible photonic circuits that maintain high performance while being bendable and stretchable. It offers significant potential for integrating photonic circuits into various flexible substrate applications in wearable technology, medical devices, and flexible electronics.

The Naval Research Lab identified a new class of semiconductor nanocrystals with bright ground-state excitons, emphasizing an important advancement in optoelectronics.

Researchers from National University of Singapore developed a novel method, known as tension-driven CHARM3D,  to fabricate 3D self-healing circuits, enabling the 3D printing of free-standing metallic structures without the need for support materials and external pressure.

Find more research in our Technical Papers library.


Events and Further Reading

Find upcoming chip industry events here, including:

Event Date Location
Atomic Layer Deposition (ALD 2024) Aug 4 – 7 Helsinki
Flash Memory Summit Aug 6 – 8 Santa Clara, CA
USENIX Security Symposium Aug 14 – 16 Philadelphia, PA
SPIE Optics + Photonics 2024 Aug 18 – 22 San Diego, CA
Cadence Cloud Tech Day Aug 20 San Jose, CA
Hot Chips 2024 Aug 25- 27 Stanford University/ Hybrid
Optica Online Industry Meeting: PIC Manufacturing, Packaging and Testing (imec) Aug 27 Online
SEMICON Taiwan Sep 4 -6 Taipei
DVCON Taiwan Sep 10 – 11 Hsinchu
AI HW and Edge AI Summit Sep 9 – 12 San Jose, CA
GSA Executive Forum Sep 26 Menlo Park, CA
SPIE Photomask Technology + EUVL Sep 29 – Oct 3 Monterey, CA
Strategic Materials Conference: SMC 2024 Sep 30 – Oct 2 San Jose, CA
Find All Upcoming Events Here

Upcoming webinars are here, including topics such as quantum safe cryptography, analytics for high-volume manufacturing, and mastering EMC simulations for electronic design.

Find Semiconductor Engineering’s latest newsletters here:

Automotive, Security and Pervasive Computing
Systems and Design
Low Power-High Performance
Test, Measurement and Analytics
Manufacturing, Packaging and Materials

 

The post Chip Industry Week in Review appeared first on Semiconductor Engineering.

Your Gateway to a Vibrant Career in the Expanding Semiconductor Industry



This sponsored article is brought to you by Purdue University.

The CHIPS America Act was a response to a worsening shortfall in engineers equipped to meet the growing demand for advanced electronic devices. That need persists. In its 2023 policy report, Chipping Away: Assessing and Addressing the Labor Market Gap Facing the U.S. Semiconductor Industry, the Semiconductor Industry Association forecast a demand for 69,000 microelectronic and semiconductor engineers between 2023 and 2030—including 28,900 new positions created by industry expansion and 40,100 openings to replace engineers who retire or leave the field.

This number does not include another 34,500 computer scientists (13,200 new jobs, 21,300 replacements), nor does it count jobs in other industries that require advanced or custom-designed semiconductors for controls, automation, communication, product design, and the emerging systems-of-systems technology ecosystem.

Purdue University is taking charge, leading semiconductor technology and workforce development in the U.S. As early as Spring 2022, Purdue University became the first top engineering school to offer an online Master’s Degree in Microelectronics and Semiconductors.

U.S. News & World Report has ranked the university’s graduate engineering program among America’s 10 best every year since 2012 (and among the top 4 since 2022)

“The degree was developed as part of Purdue’s overall semiconductor degrees program,” says Purdue Prof. Vijay Raghunathan, one of the architects of the semiconductor program. “It was what I would describe as the nation’s most ambitious semiconductor workforce development effort.”

A person dressed in a dark suit with a white shirt and red tie poses for a professional portrait against a dark background. Prof. Vijay Raghunathan, one of the architects of the online Master’s Degree in Microelectronics and Semiconductors at Purdue.Purdue University

Purdue built and announced its bold high-technology online program while the U.S. Congress was still debating the $53 billion “Creating Helpful Incentives to Produce Semiconductors for America Act” (CHIPS America Act), which would be passed in July 2022 and signed into law in August.

Today, the online Master’s in Microelectronics and Semiconductors is well underway. Students learn leading-edge equipment and software and prepare to meet the challenges they will face in a rejuvenated, and critical, U.S. semiconductor industry.

Is the drive for semiconductor education succeeding?

“I think we have conclusively established that the answer is a resounding ‘Yes,’” says Raghunathan. Like understanding big data, or being able to program, “the ability to understand how semiconductors and semiconductor-based systems work, even at a rudimentary level, is something that everybody should know. Virtually any product you design or make is going to have chips inside it. You need to understand how they work, what the significance is, and what the risks are.”

Earning a Master’s in Microelectronics and Semiconductors

Students pursuing the Master’s Degree in Microelectronics and Semiconductors will take courses in circuit design, devices and engineering, systems design, and supply chain management offered by several schools in the university, such as Purdue’s Mitch Daniels School of Business, the Purdue Polytechnic Institute, the Elmore Family School of Electrical and Computer Engineering, and the School of Materials Engineering, among others.

Professionals can also take one-credit-hour courses, which are intended to help students build “breadth at the edges,” a notion that grew out of feedback from employers: Tomorrow’s engineering leaders will need broad knowledge to connect with other specialties in the increasingly interdisciplinary world of artificial intelligence, robotics, and the Internet of Things.

“This was something that we embarked on as an experiment 5 or 6 years ago,” says Raghunathan of the one-credit courses. “I think, in hindsight, that it’s turned out spectacularly.”

A researcher wearing a white lab coat, hairnet, and gloves works with scientific equipment, with a computer monitor displaying a detailed scientific pattern. A researcher adjusts imaging equipment in a lab in Birck Nanotechnology Center, home to Purdue’s advanced research and development on semiconductors and other technology at the atomic scale.Rebecca Robiños/Purdue University

The Semiconductor Engineering Education Leader

Purdue, which opened its first classes in 1874, is today an acknowledged leader in engineering education. U.S. News & World Report has ranked the university’s graduate engineering program among America’s 10 best every year since 2012 (and among the top 4 since 2022). And Purdue’s online graduate engineering program has ranked in the country’s top three since the publication started evaluating online grad programs in 2020. (Purdue has offered distance Master’s degrees since the 1980s. Back then, of course, course lectures were videotaped and mailed to students. With the growth of the web, “distance” became “online,” and the program has swelled.)

Thus, Microelectronics and Semiconductors Master’s Degree candidates can study online or on-campus. Both tracks take the same courses from the same instructors and earn the same degree. There are no footnotes, asterisks, or parentheses on the diploma to denote online or in-person study.

“If you look at our program, it will become clear why Purdue is increasingly considered America’s leading semiconductors university” —Prof. Vijay Raghunathan, Purdue University

Students take classes at their own pace, using an integrated suite of proven online-learning applications for attending lectures, submitting homework, taking tests, and communicating with faculty and one another. Texts may be purchased or downloaded from the school library. And there is frequent use of modeling and analytical tools like Matlab. In addition, Purdue is also the home of national the national design-computing resources nanoHUB.org (with hundreds of modeling, simulation, teaching, and software-development tools) and its offspring, chipshub.org (specializing in tools for chip design and fabrication).

From R&D to Workforce and Economic Development

“If you look at our program, it will become clear why Purdue is increasingly considered America’s leading semiconductors university, because this is such a strategic priority for the entire university, from our President all the way down,” Prof. Raghunathan sums up. “We have a task force that reports directly to the President, a task force focused only on semiconductors and microelectronics. On all aspects—R&D, the innovation pipeline, workforce development, economic development to bring companies to the state. We’re all in as far as chips are concerned.”

Why a Technical Master’s Degree Can Accelerate Your Engineering Career



This sponsored article is brought to you by Purdue University.

Companies large and small are seeking engineers with up-to-date, subject-specific knowledge in disciplines like computer engineering, automation, artificial intelligence, and circuit design. Mid-level engineers need to advance their skillsets to apply and integrate these technologies and be competitive.


As applications for new technologies continue to grow, demand for knowledgeable electrical and computer engineers is also on the rise. According to the Bureau of Labor Statistics, job outlook for electrical and electronics engineers—as well as computer hardware engineers—is set to grow 5 percent through 2032. Electrical and computer engineers work in almost every industry. They design systems, work on power transmission and power supplies, run computers and communication systems, innovate chips for embedded and so much more.

To take advantage of this job growth and get more return-on-investment, engineers are advancing their knowledge by going back to school. The 2023 IEEE-USA Salary and Benefits Survey Report shows that engineers with focused master’s degrees (e.g., electrical and computer engineering, electrical engineering, or computer engineering) earned median salaries almost US $27,000 per year higher than their colleagues with bachelors’ degrees alone.


Purdue’s online MSECE program has been ranked in the top 3 of U.S. News and World Report’s Best Online Electrical Engineering Master’s Programs for five years running


Universities like Purdue University work with companies and professionals to provide upskilling opportunities via distance and online education. Purdue has offered a distance Master of Science in Electrical and Computer Engineering (MSECE) since the 1980s. In its early years, the program’s course lectures were videotaped and mailed to students. Now, “distance” has transformed into “online,” and the program has grown with the web, expanding its size and scope. Today, the online MSECE has awarded master’s degrees to 190+ online students since the Fall 2021 semester.


A person with shoulder-length brown hair is wearing a black blazer over a dark blouse. They have a silver necklace with a pendant. The background consists of a brick wall.


“Purdue has a long-standing reputation of engineering excellence and Purdue engineers work worldwide in every company, including General Motors, Northrop Grumman, Raytheon, Texas Instruments, Apple, and Sandia National Laboratories among scores of others,” said Lynn Hegewald, the senior program manager for Purdue’s online MSECE. “Employers everywhere are very aware of Purdue graduates’ capabilities and the quality of the education they bring to the job.”


Today, the online MSECE program continues to select from among the world’s best professionals and gives them an affordable, award-winning education. The program has been ranked in the top 3 of U.S. News and World Report’s Best Online Electrical Engineering Master’s Programs for five years running (2020, 2021, 2022, 2023, and 2024).


The online MSECE offers high-quality research and technical skills, high-level analytical thinking and problem-solving skills, and new ideas to help innovate—all highly sought-after, according to one of the few studies to systematically inventory what engineering employers want (information corroborated on occupational guidance websites like O-Net and the Bureau of Labor Statistics).

Remote students get the same education as on-campus students and become part of the same alumni network.

“Our online MSECE program offers the same exceptional quality as our on-campus offerings to students around the country and the globe,” says Prof. Milind Kulkarni, Michael and Katherine Birck Head of the Elmore Family School of Electrical and Computer Engineering. “Online students take the same classes, with the same professors, as on-campus students; they work on the same assignments and even collaborate on group projects.


“Our online MSECE program offers the same exceptional quality as our on-campus offerings to students around the country and the globe” —Prof. Milind Kulkarni, Purdue University


“We’re very proud,” he adds, “that we’re able to make a ‘full-strength’ Purdue ECE degree available to so many people, whether they’re working full-time across the country, live abroad, or serve in the military. And the results bear this out: graduates of our program land jobs at top global companies, move on to new roles and responsibilities at their current organizations, or even continue to pursue graduate education at top PhD programs.”


A person wearing a dark blazer over a light blue, patterned shirt is smiling at the camera and standing indoors with a modern background featuring large windows and wooden panels.


Variety and Quality in Purdue’s MSECE

As they study for their MSECE degrees, online students can select from among a hundred graduate-level courses in their primary areas of interest, including innovative one-credit-hour courses that extend the students’ knowledge. New courses and new areas of interest are always in the pipeline.

Purdue MSECE Area of Interest and Course Options


  • Automatic Control
  • Communications, Networking, Signal and Image Processing
  • Computer Engineering
  • Fields and Optics
  • Microelectronics and Nanotechnology
  • Power and Energy Systems
  • VLSI and Circuit Design
  • Semiconductors
  • Data Mining
  • Quantum Computing
  • IoT
  • Big Data


Heather Woods, a process engineer at Texas Instruments, was one of the first students to enroll and chose the microelectronics and nanotechnology focus area. She offers this advice: “Take advantage of the one credit-hour classes! They let you finish your degree faster while not taking six credit hours every semester.”


Completing an online MSECE from Purdue University also teaches students professional skills that employers value like motivation, efficient time-management, high-level analysis and problem-solving, and the ability to learn quickly and write effectively.

“Having an MSECE shows I have the dedication and knowledge to be able to solve problems in engineering,” said program alumnus Benjamin Francis, now an engineering manager at AkzoNobel. “As I continue in my career, this gives me an advantage over other engineers both in terms of professional advancement opportunity and a technical base to pull information from to face new challenges.”


Finding Tuition Assistance

Working engineers contemplating graduate school should contact their human resources departments and find out what their tuition-assistance options are. Does your company offer tuition assistance? What courses of study do they cover? Do they cap reimbursements by course, semester, etc.? Does your employer pay tuition directly, or will you pay out-of-pocket and apply for reimbursement?

Prospective U.S. students who are veterans or children of veterans should also check with the U.S. Department of Veterans Affairs to see if they qualify to for tuition or other assistance.


The MSECE Advantage

In sum, the online Master’s degree in Electrical and Computer Engineering from Purdue University does an extraordinary job giving students the tools they need to succeed in school and then in the workplace: developing the technical knowledge, the confidence, and the often-overlooked professional skills that will help them excel in their careers.

Chip Industry Week In Review

Synopsys refocused its security priorities around chips, striking a deal to sell off its Software Integrity Group subsidiary to private equity firms Clearlake Capital Group and Francisco Partners for about $2.1 billion. That deal comes on the heels of Synopsys’ recent acquisition of Intrinsic ID, which develops physical unclonable function IP. Sassine Ghazi, Synopsys’ president and CEO, said in an interview that the sale of the software group “gives us the ability to have management bandwidth, capital, and to double down on what we’re doing in our core business.”

The U.S. Commerce Department reportedly pulled export licenses from Intel and Qualcomm that permitted them to ship semiconductors to Huawei, the Financial Times reported. The move comes after advanced chips from Intel reportedly were used in new laptops and smartphones from the China-based company. 

Apple debuted its second-generation 3nm M4 chip with the launch of the new iPad Pro. The CPU and GPU each have up to 10 cores, with a neural engine capable of 38 TOPS, and a total of 28 billion transistors. Apple also is working with TSMC to develop its own AI processors for running software in data centers, reports The Wall Street Journal.

The U.S. is expected to triple its semiconductor manufacturing capacity by 2032, according to a new report by the Semiconductor Industry Association and Boston Consulting. By that year, the U.S. is projected to have 28% of global capacity for advanced logic manufacturing and over a quarter of total global capital expenditures.

Fig. 1: Source: Semiconductor Industry Association and Boston Consulting Group.

Quick links to more news:

Global
Market Reports
Automotive
Security
Product News
Education and Training
Research
In-Depth
Events
Further Reading

Around The Globe

The U.S. Commerce Department plans to solicit bids from organizations interested in creating and managing a new CHIPS Manufacturing USA institute focused on digital twins in the semiconductor sector. The government will award up to $285 million to the selected proposal.

The U.S. National Science Foundation and Department of Energy announced the first 35 projects to be supported with computational time through the National Artificial Intelligence Research Resource (NAIRR) Pilot. The initial selected projects will gain access to several U.S. supercomputing centers and other resources, with the goal of advancing responsible AI research.

Through its new Federal AI Sandbox, MITRE is offering up its computing power to U.S. government agencies. “Our new Federal AI Sandbox will help level the playing field, making the high-quality compute power needed to train and test custom AI solutions available to any agency,” stated Charles Clancy, MITRE, senior vice president and chief technology officer, in the release.

Saudi Arabia’s $100 billion investment fund for semiconductor and AI technology pledged it would divest from China if requested by the U.S, reported Bloomberg.

Japan’s SoftBank is holding talks with UK-based AI Chip firm Graphcore about a possible acquisition, reports Bloomberg.

India’s chip industry is heating up. Mindgrove launched the country’s first SoC, named Secure IoT. The chip clocks at 700 MHz, and the company is touting its key security algorithms, secure boot, and on-chip OTP memory. Meanwhile, Lam Research is expanding its global semiconductor fabrication supply chain to include India.

Microsoft will build a $3.3 billion AI data center in Racine, Wisconsin, the same location as the failed Foxconn investment touted six years ago.

Markets And Money

The SIA announced first-quarter global semiconductor sales grew more than 15% YoY, still 5.7% below Q4 2023, but a big improvement over last year. Consider that the semiconductor materials market contracted 8.2% in 2023 to $66.7 billion, down from a record $72.7 billion in 2022, according to a new report from SEMI.

The demand for AI-powered consumer electronics will drive global AI chipset shipments to 1.3 billion by 2030, according to ABI Research.

TrendForce released several new industry reports this week. Among the highlights:

  • HBM prices are expected to increase by up to 10% in 2025, representing more than 30% of total DRAM value.
  • In Q2, DRAM contract prices rose 13% to 18%, while NAND flash prices increased 15% to 20%.
  • The top 10 design firms’ combined revenue increased 12% in 2023, with NVIDIA taking the lead for the first time.

A number of acquisitions were announced recently:

  • High-voltage IC company, Power Integrations, will purchase the assets of Odyssey Semiconductor Technologies, a developer of gallium nitride (GaN) transistors.
  • Mobix Labs agreed to buy RF design company RaGE Systems for $20 million in cash, stock, and incentives.
  • V-Tek, a packaging services and inspection company, acquired A&J Programming, a manufacturer of automated handling and programming equipment.

The global smartphone market grew 6% year-over-year, shipping 296.9 million units in Q124, according to a Counterpoint report.  Samsung toppled Apple for the top spot with a 20% share.

Automotive

U.S. Justice Department is investigating whether Tesla committed securities or wire fraud for misleading consumers and investors about its EV’s autopilot capabilities, according to Reuters.

The automotive ecosystem is undergoing a huge transformation toward software-defined vehicles, spurring new architectures that can be future-proofed and customized with software.

Infineon introduced a microcontroller for the automotive battery management sector, integrating high-precision analog and high-voltage subsystems on a single chip. Infineon also inked a deal with China’s Xiaomi to provide SiC power modules for Xiaomi’s new SU7 smart EV.

Keysight and ETAS are teaming up to embed ETAS fuzz testing software into Keysight’s automotive cybersecurity platform.

Also, Keysight’s device security research lab, Riscure Security Solutions, can now conduct vehicle type approval evaluations under United Nations R155/R156 regulations. Keysight acquired Riscure in March.

Two autonomous driving companies received big funding. British AI company Wayve received a $1.05 billion Series C investment from SoftBank, with contributions from NVIDIA and Microsoft. Hyundai spent an additional $475 million on Motional, according its recent earnings report.

The automotive imaging market grew to U.S. $5.7 billion in 2023 due to increased production, autonomy demand, and higher-resolution offerings.

Automotive Grade Linux (AGL), a collaborative cross-industry effort developing an open source platform for all Software-Defined Vehicles (SDVs), released cloud-native functionality, RISC-V architecture and flutter applications.

Security

SRAM security concerns are intensifying as a combination of new and existing techniques allow hackers to tap into data for longer periods of time after a device is powered down. This is particularly alarming as the leading edge of design shifts to heterogeneous systems in package, where chiplets frequently have their own memory hierarchy.

Machine learning is being used by hackers to find weaknesses in chips and systems, but it also is starting to be used to prevent breaches by pinpointing hardware and software design flaws.

txOne Networks, provider of Cyber-Physical Systems security, raised $51 million in Series B extension round of funding.

The U.S. Department of Justice charged a Russian national with his role as the creator, developer and administrator of the LockBit, a prolific ramsomware group, that allegedly stole $100 million in payments from 2,000 victims.

The Cybersecurity and Infrastructure Security Agency (CISA) launched “We Can Secure Our World,” a new public awareness program promoting “basic cyber hygiene” and the agency also issues a number of alerts/advisories.

Product News

Siemens unveiled its Solido IP Validation Suite software, an automated quality assurance product designed to work across all design IP types and formats. The suite includes Solido Crosscheck and IPdelta software, which both provide in-view, cross-view and version-to-version QA checks.

proteanTecs announced its lifecycle monitoring solution is being integrated into SAPEON’s new AI processors.

SpiNNcloud Systems revealed their SpiNNaker2 system, an event-based AI platform supercomputer containing chips that are a mesh of 152 ARM-based cores. The platform has the ability to emulate 10 billion neurons while still maintaining power efficiency and reliability.

Ansys partnered with Schrodinger to develop new computational materials. The collaboration will see Schrodinger’s molecular modeling technology used in Ansys’ simulation tools to evaluate performance ahead of the prototype phase.

Keysight introduced a pulse generator to its handheld radio frequency analyzer software options. The Option 357 pulse generator is downloadable on B- and C-Series FieldFox analyzers.

Education and Training

Semiconductor fever is hitting academia:

  • Penn State discussed its role in leading 15 universities to drive advances in chip integration and packaging.
  • Georgia Tech’s explained its research is happening at all the levels of the “semiconductor stack,” touting its 28,500 square feet of academic cleanroom space.
  • And in the past month Purdue University, Dassault Systems and Lam Research expanded an existing deal to use virtual twins and simulation tools in workforce development.

Arizona State University is beefing up their technology programs with a new bachelor’s and doctoral degree in robotics and autonomous systems.

Microsoft is partnering with Gateway Technical College in Wisconsin to create a Data Center Academy to train Wisconsinites for data center and STEM roles by 2030.

Research

Stanford-led researchers used ordinary-appearing glasses for an augmented reality headset, utilizing waveguide display techniques, holographic imaging, and AI.

UC Berkeley, LLNL, and MIT engineered a miniaturized on-chip energy storage and power delivery, using an atomic-scale approach to modify electrostatic capacitors.

ORNL and other researchers observed a “surprising isotope effect in the optoelectronic properties of a single layer of molybdenum disulfide” when they substituted heavier isotope of molybdenum in the crystal.

Three U.S. national labs are partnering with NVIDIA to develop advanced memory technologies for high performance computing.

In-Depth

In addition to this week’s Automotive, Security and Pervasive Computing newsletter, here are more top stories and tech talk from the week:

Events

Find upcoming chip industry events here, including:

Event Date Location
ASMC: Advanced Semiconductor Manufacturing Conference May 13 – 16 Albany, NY
ISES Taiwan 2024: International Semiconductor Executive Summit May 14 – 15 New Taipei City
Ansys Simulation World 2024 May 14 – 16 Online
Women In Semiconductors May 16 Albany, NY
European Test Symposium May 20 – 24 The Hague, Netherlands
NI Connect Austin 2024 May 20 – 22 Austin, Texas
ITF World 2024 (imec) May 21 – 22 Antwerp, Belgium
Embedded Vision Summit May 21 – 23 Santa Clara, CA
ASIP Virtual Seminar 2024 May 22 Online
Electronic Components and Technology Conference (ECTC) 2024 May 28 – 31 Denver, Colorado
Hardwear.io Security Trainings and Conference USA 2024 May 28 – Jun 1 Santa Clara, CA
Find All Upcoming Events Here

Upcoming webinars are here.

Further Reading

Read the latest special reports and top stories, or check out the latest newsletters:

Automotive, Security and Pervasive Computing
Systems and Design
Low Power-High Performance
Test, Measurement and Analytics
Manufacturing, Packaging and Materials

The post Chip Industry Week In Review appeared first on Semiconductor Engineering.

Chip Industry Week In Review

Synopsys refocused its security priorities around chips, striking a deal to sell off its Software Integrity Group subsidiary to private equity firms Clearlake Capital Group and Francisco Partners for about $2.1 billion. That deal comes on the heels of Synopsys’ recent acquisition of Intrinsic ID, which develops physical unclonable function IP. Sassine Ghazi, Synopsys’ president and CEO, said in an interview that the sale of the software group “gives us the ability to have management bandwidth, capital, and to double down on what we’re doing in our core business.”

The U.S. Commerce Department reportedly pulled export licenses from Intel and Qualcomm that permitted them to ship semiconductors to Huawei, the Financial Times reported. The move comes after advanced chips from Intel reportedly were used in new laptops and smartphones from the China-based company. 

Apple debuted its second-generation 3nm M4 chip with the launch of the new iPad Pro. The CPU and GPU each have up to 10 cores, with a neural engine capable of 38 TOPS, and a total of 28 billion transistors. Apple also is working with TSMC to develop its own AI processors for running software in data centers, reports The Wall Street Journal.

The U.S. is expected to triple its semiconductor manufacturing capacity by 2032, according to a new report by the Semiconductor Industry Association and Boston Consulting. By that year, the U.S. is projected to have 28% of global capacity for advanced logic manufacturing and over a quarter of total global capital expenditures.

Fig. 1: Source: Semiconductor Industry Association and Boston Consulting Group.

Quick links to more news:

Global
Market Reports
Automotive
Security
Product News
Education and Training
Research
In-Depth
Events
Further Reading

Around The Globe

The U.S. Commerce Department plans to solicit bids from organizations interested in creating and managing a new CHIPS Manufacturing USA institute focused on digital twins in the semiconductor sector. The government will award up to $285 million to the selected proposal.

The U.S. National Science Foundation and Department of Energy announced the first 35 projects to be supported with computational time through the National Artificial Intelligence Research Resource (NAIRR) Pilot. The initial selected projects will gain access to several U.S. supercomputing centers and other resources, with the goal of advancing responsible AI research.

Through its new Federal AI Sandbox, MITRE is offering up its computing power to U.S. government agencies. “Our new Federal AI Sandbox will help level the playing field, making the high-quality compute power needed to train and test custom AI solutions available to any agency,” stated Charles Clancy, MITRE, senior vice president and chief technology officer, in the release.

Saudi Arabia’s $100 billion investment fund for semiconductor and AI technology pledged it would divest from China if requested by the U.S, reported Bloomberg.

Japan’s SoftBank is holding talks with UK-based AI Chip firm Graphcore about a possible acquisition, reports Bloomberg.

India’s chip industry is heating up. Mindgrove launched the country’s first SoC, named Secure IoT. The chip clocks at 700 MHz, and the company is touting its key security algorithms, secure boot, and on-chip OTP memory. Meanwhile, Lam Research is expanding its global semiconductor fabrication supply chain to include India.

Microsoft will build a $3.3 billion AI data center in Racine, Wisconsin, the same location as the failed Foxconn investment touted six years ago.

Markets And Money

The SIA announced first-quarter global semiconductor sales grew more than 15% YoY, still 5.7% below Q4 2023, but a big improvement over last year. Consider that the semiconductor materials market contracted 8.2% in 2023 to $66.7 billion, down from a record $72.7 billion in 2022, according to a new report from SEMI.

The demand for AI-powered consumer electronics will drive global AI chipset shipments to 1.3 billion by 2030, according to ABI Research.

TrendForce released several new industry reports this week. Among the highlights:

  • HBM prices are expected to increase by up to 10% in 2025, representing more than 30% of total DRAM value.
  • In Q2, DRAM contract prices rose 13% to 18%, while NAND flash prices increased 15% to 20%.
  • The top 10 design firms’ combined revenue increased 12% in 2023, with NVIDIA taking the lead for the first time.

A number of acquisitions were announced recently:

  • High-voltage IC company, Power Integrations, will purchase the assets of Odyssey Semiconductor Technologies, a developer of gallium nitride (GaN) transistors.
  • Mobix Labs agreed to buy RF design company RaGE Systems for $20 million in cash, stock, and incentives.
  • V-Tek, a packaging services and inspection company, acquired A&J Programming, a manufacturer of automated handling and programming equipment.

The global smartphone market grew 6% year-over-year, shipping 296.9 million units in Q124, according to a Counterpoint report.  Samsung toppled Apple for the top spot with a 20% share.

Automotive

U.S. Justice Department is investigating whether Tesla committed securities or wire fraud for misleading consumers and investors about its EV’s autopilot capabilities, according to Reuters.

The automotive ecosystem is undergoing a huge transformation toward software-defined vehicles, spurring new architectures that can be future-proofed and customized with software.

Infineon introduced a microcontroller for the automotive battery management sector, integrating high-precision analog and high-voltage subsystems on a single chip. Infineon also inked a deal with China’s Xiaomi to provide SiC power modules for Xiaomi’s new SU7 smart EV.

Keysight and ETAS are teaming up to embed ETAS fuzz testing software into Keysight’s automotive cybersecurity platform.

Also, Keysight’s device security research lab, Riscure Security Solutions, can now conduct vehicle type approval evaluations under United Nations R155/R156 regulations. Keysight acquired Riscure in March.

Two autonomous driving companies received big funding. British AI company Wayve received a $1.05 billion Series C investment from SoftBank, with contributions from NVIDIA and Microsoft. Hyundai spent an additional $475 million on Motional, according its recent earnings report.

The automotive imaging market grew to U.S. $5.7 billion in 2023 due to increased production, autonomy demand, and higher-resolution offerings.

Automotive Grade Linux (AGL), a collaborative cross-industry effort developing an open source platform for all Software-Defined Vehicles (SDVs), released cloud-native functionality, RISC-V architecture and flutter applications.

Security

SRAM security concerns are intensifying as a combination of new and existing techniques allow hackers to tap into data for longer periods of time after a device is powered down. This is particularly alarming as the leading edge of design shifts to heterogeneous systems in package, where chiplets frequently have their own memory hierarchy.

Machine learning is being used by hackers to find weaknesses in chips and systems, but it also is starting to be used to prevent breaches by pinpointing hardware and software design flaws.

txOne Networks, provider of Cyber-Physical Systems security, raised $51 million in Series B extension round of funding.

The U.S. Department of Justice charged a Russian national with his role as the creator, developer and administrator of the LockBit, a prolific ramsomware group, that allegedly stole $100 million in payments from 2,000 victims.

The Cybersecurity and Infrastructure Security Agency (CISA) launched “We Can Secure Our World,” a new public awareness program promoting “basic cyber hygiene” and the agency also issues a number of alerts/advisories.

Product News

Siemens unveiled its Solido IP Validation Suite software, an automated quality assurance product designed to work across all design IP types and formats. The suite includes Solido Crosscheck and IPdelta software, which both provide in-view, cross-view and version-to-version QA checks.

proteanTecs announced its lifecycle monitoring solution is being integrated into SAPEON’s new AI processors.

SpiNNcloud Systems revealed their SpiNNaker2 system, an event-based AI platform supercomputer containing chips that are a mesh of 152 ARM-based cores. The platform has the ability to emulate 10 billion neurons while still maintaining power efficiency and reliability.

Ansys partnered with Schrodinger to develop new computational materials. The collaboration will see Schrodinger’s molecular modeling technology used in Ansys’ simulation tools to evaluate performance ahead of the prototype phase.

Keysight introduced a pulse generator to its handheld radio frequency analyzer software options. The Option 357 pulse generator is downloadable on B- and C-Series FieldFox analyzers.

Education and Training

Semiconductor fever is hitting academia:

  • Penn State discussed its role in leading 15 universities to drive advances in chip integration and packaging.
  • Georgia Tech’s explained its research is happening at all the levels of the “semiconductor stack,” touting its 28,500 square feet of academic cleanroom space.
  • And in the past month Purdue University, Dassault Systems and Lam Research expanded an existing deal to use virtual twins and simulation tools in workforce development.

Arizona State University is beefing up their technology programs with a new bachelor’s and doctoral degree in robotics and autonomous systems.

Microsoft is partnering with Gateway Technical College in Wisconsin to create a Data Center Academy to train Wisconsinites for data center and STEM roles by 2030.

Research

Stanford-led researchers used ordinary-appearing glasses for an augmented reality headset, utilizing waveguide display techniques, holographic imaging, and AI.

UC Berkeley, LLNL, and MIT engineered a miniaturized on-chip energy storage and power delivery, using an atomic-scale approach to modify electrostatic capacitors.

ORNL and other researchers observed a “surprising isotope effect in the optoelectronic properties of a single layer of molybdenum disulfide” when they substituted heavier isotope of molybdenum in the crystal.

Three U.S. national labs are partnering with NVIDIA to develop advanced memory technologies for high performance computing.

In-Depth

In addition to this week’s Automotive, Security and Pervasive Computing newsletter, here are more top stories and tech talk from the week:

Events

Find upcoming chip industry events here, including:

Event Date Location
ASMC: Advanced Semiconductor Manufacturing Conference May 13 – 16 Albany, NY
ISES Taiwan 2024: International Semiconductor Executive Summit May 14 – 15 New Taipei City
Ansys Simulation World 2024 May 14 – 16 Online
Women In Semiconductors May 16 Albany, NY
European Test Symposium May 20 – 24 The Hague, Netherlands
NI Connect Austin 2024 May 20 – 22 Austin, Texas
ITF World 2024 (imec) May 21 – 22 Antwerp, Belgium
Embedded Vision Summit May 21 – 23 Santa Clara, CA
ASIP Virtual Seminar 2024 May 22 Online
Electronic Components and Technology Conference (ECTC) 2024 May 28 – 31 Denver, Colorado
Hardwear.io Security Trainings and Conference USA 2024 May 28 – Jun 1 Santa Clara, CA
Find All Upcoming Events Here

Upcoming webinars are here.

Further Reading

Read the latest special reports and top stories, or check out the latest newsletters:

Automotive, Security and Pervasive Computing
Systems and Design
Low Power-High Performance
Test, Measurement and Analytics
Manufacturing, Packaging and Materials

The post Chip Industry Week In Review appeared first on Semiconductor Engineering.

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