JEDEC and the Open Compute Project rolled out a new set of guidelines for standardizing chiplet characterization details, such as thermal properties, physical and mechanical requirements, and behavior specs. Those details have been a sticking point for commercial chiplets, because without them it’s not possible to choose the best chiplet for a particular application or workload. The guidelines are a prerequisite for a multi-vendor chiplet marketplace.

AMD, Broadcom, Cisco, Google, HPE, Intel, Meta, and Microsoft proposed a new high-speed, low-latency interconnect specification, Ultra Accelerator Link (UALink), between accelerators and switches in AI computing pods. The 1.0 specification will enable the connection of up to 1,024 accelerators within a pod and allow for direct loads and stores between the memory attached to accelerators.

Arm debuted a range of new CPUs, including the Cortex-X925 for on-device generative AI, and the Cortex-A725 with improved efficiency for AI and mobile gaming. It also announced the Immortalis-G925 GPU for flagship smartphones, and the Mali-G725/625 GPUs for consumer devices. Additionally, Arm announced Compute Subsystems (CSS) for Client to provide foundational computing elements for AI smartphone and PC SoCs, and it introduced KleidiAI, a set of compute kernels for developers of AI frameworks. The Armv9-A architecture also added support for the Scalable Matrix Extension to accelerate AI workloads.

TSMC said its 2nm process is on target to begin mass production in 2025. Meanwhile, Samsung is expected to release its 1nm plan next month, targeting mass production for 2026 — a year ahead of schedule, reports Business Korea.

CHIPs for America and NATCAST released a 2024 roadmap for the U.S. National Semiconductor Technology Center (NSTC), identifying priorities for facilities, research, workforce development, and membership.

China is investing CNY 344 billion (~$47.5 billion) into the third phase of its National Integrated Circuit Industry Investment Fund, also known as the Big Fund, to support its semiconductor sector and supply chain, according to numerous reports.

Malaysia plans to invest $5.3 billion in seed capital and support for semiconductor manufacturing in an effort to attract more than $100 billion in foreign investments, reports Reuters. Prime Minister Anwar Ibrahim announced the effort to create at least 10 companies focused on IC design, advanced packaging, and equipment manufacturing.

imec demonstrated a die-to-wafer hybrid bonding flow for Cu-Cu and SiCN-SiCN at pitches down to 2µm at the IEEE’s ECTC conference. This breakthrough could enable die and wafer-level optical interconnects.

The chip industry is racing to develop glass for advanced packaging, setting the stage for one of the biggest shifts in chip materials in decades — and one that will introduce a broad new set of challenges that will take years to fully resolve.

Quick links to more news:

In-Depth
Global
Product News
Markets and Money
Security
Research and Training
Quantum
Events and Further Reading

In-Depth

Semiconductor Engineering published its Systems & Design newsletter featuring these top stories:

• RISC-V Heralds New Era Of Cooperation
• AI For Data Management
• Trouble Ahead For IC Verification

Global

STMicroelectronics is building a fully integrated SiC facility in Catania, Italy.  The high-volume 200mm facility is projected to cost over $5 billion.

Siliconware Precision Industries Co. Ltd.(SPIL) broke ground on an RM 6 billion (~$1.3 billion) advanced packaging and testing facility in Malaysia. Also, Google will invest $2 billion in Malaysia for its first data center, and a Google Cloud hub to meet growing demand for cloud services and AI literacy programs, reports AP.

In an SEC filing, Applied Materials received additional subpoenas from the U.S. Department of Commerce’s (DoC) Bureau of Industry and Security related to shipments of advanced semiconductor equipment to China. This comes on the heels of similar subpoenas issued last year.

A Chinese contractor working for SK hynix was arrested in South Korea and is being charged with funneling more than 3,000 copies of a paper on solving process failure issues to Huawei, reports South Korea’s Union News.

VSORA, CEA-Grenoble, and Valeo were awarded $7 million from the French government to build low-latency, low-power AI inference co-processors for autonomous driving and other applications.

In the U.S., the National Highway Traffic Safety Administration (NHTSA) is investigating unexpected driving behaviors of vehicles equipped with Waymo‘s 5th Generation automated driving system (ADS), with details of nine new incidents on top of the first 22.

Product News

ASE introduced powerSIP, a power delivery platform designed to reduce signal and transmission loss while addressing current density challenges.

Infineon announced a roadmap for energy-efficient power supply units based on Si, SiC, and GaN to address the energy needs of AI data centers, featuring new 8 kW and 12 kW PSUs, in addition to the 3 kW and 3.3 kW units available today. The company also released its CoolSiC MOSFET 400 V family, specially developed for use in the AC/DC stage of AI servers, complementing the PSU roadmap.

Fig. 1: Infineon’s 8kW PSU. Source: Infineon

Infineon also introduced two new generations of high voltage (HV) and medium voltage (MV) CoolGaN TM devices, enabling customers to use GaN in voltage classes from 40 V to 700 V. The devices are built using Infineon’s 8-inch foundry processes.

Ansys launched Ansys Access on Microsoft Azure to provide pre-configured simulation products optimized for HPC on Azure infrastructure.

Foxconn Industrial Internet used Keysight Technology’s Open RAN Studio solution to certify an outdoor Open Radio Unit (O-RU).

Andes Technology announced an SoC and development board for the development and porting of large RISC-V applications.

MediaTek uncorked a pair of mobile chipsets built on a 4nm process that use an octa-core CPU consisting of 4X Arm Cortex-A78 cores operating at up to 2.5GHz paired with 4X Arm Cortex-A55 cores.

The NVIDIA H200 Blackwell platform is expected to begin shipping in Q3 of 2024 and will be available to data centers by Q4, according to TrendForce.

A room-temperature direct fusion hybrid bonding system from Be Semiconductor has shipped to the NHanced advanced packaging facility in North Carolina. The new system offers faster throughput for copper interconnects with submicron pad sizes, greater accuracy and reduced warpage.

Markets and Money

Frore Systems raised $80 million for its solid-state active cooling module, which removes heat from the top of a chip without fans. The device in systems ranging from notebooks and network edge gateways to data centers.

Axus Technology received $12.5 million in capital equity funding to make its chemical mechanical planarization (CMP) equipment for semiconductor wafer polishing, thinning, and cleaning, including of silicon carbide (SiC) wafers.

Elon Musk’s xAI announced a series B funding round of $6 billion.

Micron was ordered to pay $445 million in damages to Netlist for patent infringement of the company’s DDR4 memory module technology between 2021 and 2024.

Global revenue from AI semiconductors is predicted to total $71 billion in 2024, up 33% from 2023, according to Gartner. In 2025, it is expected to jump to $91.9 billion. The value of AI accelerators used in servers is expected to total $21 billion in 2024 and reach $33 billion by 2028.

NAND flash revenue was $14.71 billion in Q1 2024, an increase of 28.1%, according to TrendForce.

The optical transceiver market dipped from $11 billion in 2022 to $10.9 billion in 2023, but it is predicted to reach $22.4 billion by 2029, driven by AI, 800G applications, and the transition to 200G/lane ecosystem technologies, reports Yole.

Yole also found that ultra-wideband technical choices and packaging types used by NXP, Apple, and Qorvo vary considerably, ranging from 7nm to 90nm, with both CMOS and finFET transistors.

The global market share of GenAI-capable smartphones increased to 6% in Q1 2024 from 1.3% in the previous quarter, reports Counterpoint. The premium segment accounted for over 70% of sales with Samsung on top and contributing 58%. Meanwhile, global foldable smartphone shipments were up 49% YoY in Q1 2024, led by Huawei, HONOR, and Motorola.

Security

The National Science Foundation awarded Worcester Polytechnic Institute researcher Shahin Tajik almost $0.6 million to develop new technologies to address hardware security vulnerabilities.

The Hyperform consortium was formed to develop European sovereignty in post-quantum cryptography, funded by the French government and EU credits. Members include IDEMIA Secure Transactions, CEA Leti, and the French cybersecurity agency (ANSSI).

In security research:

• University of California Davis and University of Arizona researchers proposed a framework leveraging generative pre-trained transformer (GPT) models to automate the obfuscation process.
• Columbia University and Intel researchers presented a secure digital low dropout regulator that integrates an attack detector and a detection-driven protection scheme to mitigate correlation power analysis.
• Pohang University of Science and Technology (POSTECH) researchers analyzed threshold switch devices and their performance in hardware security.

The U.S. Defense Advanced Research Projects Agency (DARPA) seeks proposals for its AI Quantified program to develop technology to help deploy generative AI safely and effectively across the Department of Defense (DoD) and society.

Vanderbilt University and Oak Ridge National Laboratory (ORNL) partnered to develop dependable AI for national security applications.

The Cybersecurity and Infrastructure Security Agency (CISA) issued a number of alerts/advisories.

Research and Training

New York continues to amp up their semiconductor offerings. NY CREATES and Raytheon unveiled a semiconductor workforce training program. And Syracuse  University is hosting a free virtual course focused on the semiconductor industry this summer.

In research news:

• A team of researchers at MIT and other universities found that extreme temperatures up to 500°C did not significantly degrade GaN materials or contacts.
• University of Cambridge researchers developed adaptive and eco-friendly sensors that can be directly and imperceptibly printed onto biological surfaces, such as a finger or flower petal.
• Researchers at Rice University and Hanyang University developed an elastic material that moves like skin and can adjust its dielectric frequency to stabilize RF communications and counter disruptive frequency shifts that interfere with electronics when a substrate is twisted or stretched, with potential for stretchable wearable electronic devices.

The National Science Foundation (NSF) awarded $36 million to three projects chosen for their potential to revolutionize computing. The University of Texas at Austin-led project aims to create a next-gen open-source intelligent and adaptive OS. The Harvard University-led project targets sustainable computing. The University of Massachusetts Amherst-led project will develop computational decarbonization.

Quantum

Singapore will invest close to S$300 million (~$222 million) into its National Quantum Strategy to support the development and deployment of quantum technologies, including an initiative to design and build a quantum processor within the country.

Several quantum partnerships were announced:

• Riverlane and Alice & Bob will integrate Riverlane’s quantum error correction stack within Alice & Bob’s larger quantum computing system based on cat qubit technology.
• New York University and the University of Copenhagen will collaborate to explore the viability of hybrid superconductor-semiconductor quantum materials for the production of quantum chips and integration with CMOS processes.
• NXP, eleQtron, and ParityQC showed off a full-stack, ion-trap based quantum computer demonstrator for Germany’s DLR Quantum Computing Initiative.
• Photonic says it demonstrated distributed entanglement between quantum modules using optically-linked silicon spin qubits with a native telecom networking interface as part of a quantum internet effort with Microsoft.
• Classiq and HPE say they developed a rapid method for solving large-scale combinatorial optimization problems by combining quantum and classical HPC approaches.

Events and Further Reading

Find upcoming chip industry events here, including:

Upcoming webinars are here, including integrated SLM analytics solution, prototyping and validation of perception sensor systems, and improving PCB designs for performance and reliability.

Semiconductor Engineering’s 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.

SK hynix and TSMC plan to collaborate on HBM4 development and next-generation packaging technology, with plans to mass produce HBM4 chips in 2026. The agreement is an early indicator for just how competitive, and potentially lucrative, the HBM market is becoming. SK hynix said the collaboration will enable breakthroughs in memory performance with increased density of the memory controller at the base of the HBM stack.

Intel assembled the industry’s first high-NA EUV lithography system. “Compared to 0.33NA EUV, high-NA EUV (or 0.55NA EUV) can deliver higher imaging contrast for similar features, which enables less light per exposure, thereby reducing the time required to print each layer and increasing wafer output,” Intel said.

Fig. 1: Bigger iron — Intel’s brand new high-NA EUV machinery. Source: Intel

Samsung is slated to receive $6.4 billion in CHIPS ACT funding from the U.S. Department of Commerce (DoC) as part of a $40 billion expansion of its Austin, Texas, manufacturing facility, along with an R&D fab, a pair of leading-edge logic fabs, and an advanced packaging plant in nearby Taylor, Texas.

Micron and the U.S. government next week will announce $6.1 billion in CHIPS Act funding for the development of advanced memory chips in New York and Idaho, according to AP News.

Cadence unveiled its Palladium Z3 Emulation and Protium X3 FPGA Prototyping systems, targeted at multi-billion-gate designs with 2X increase in capacity and a 1.5X performance increase compared to previous-generation systems. Cadence also teamed up with MemVerge to enable seamless support for AWS Spot instances for long-running high-memory EDA jobs, and extended its hybrid cloud environment solutions through a collaboration with NetApp.

Fig. 2: At CadenceLive Silicon Valley, NVIDIA CEO Jensen Huang (r.) discussed accelerated computing and generative AI with Cadence CEO Anirudh Devgan. Source: Semiconductor Engineering

Quick links to more news:

Global
Markets and Money
In-Depth
Security
Education and Workforce
Product and Standards
Research
Quantum
Events
Further Reading

Global

After Taiwan’s recent 7.2 magnitude earthquake, TSMC reached more the 70% tool recovery in its fabs within the first 10 hours and full recovery by the end of the third day, according to this week’s earnings call. Some wafers in process were scrapped but the company expects the lost production to be recovered in the second quarter.  Also in the call, TSMC said they expect their “customers to share some of the higher cost” of the overseas fabs and higher electricity costs.

Advantest‘s regional headquarters in Taiwan donated $2.2 million New Taiwan dollars ($680,000 US) for aid to victims and reconstruction efforts related to the Taiwan earthquake that struck on April 3.

Japan’s exports grew by more than 7% YoY in March, driven by an 11.3% increase in shipments of electronics and semiconductor manufacturing equipment, much of it to China, according to NikkeiAsia.

China‘s IC output grew 40% in the first quarter, primarily driven by EVs and smartphones, according to the South China Morning Post.

In the U.S., the Biden Administration released a notice of funding opportunity of $50 million targeted at small businesses pursuing advances in metrology research and technology. Also, the U.S. Department of Energy announced a $33 million funding opportunity for smart manufacturing technologies.

Germany‘s Fraunhofer IIS launched its On-Board Processor (FOBP) for the German Space Agency’s Heinrich Hertz communication satellite. FOBP can be controlled and reprogrammed from Earth and will be used to investigate creation of hybrid communication networks.

Markets and Money

RISC-V startup Rivos raised more than $250 million in capital investments to tape out its first power-optimized chips for data analytics and generative AI applications.

Silvaco filed to go public on Nasdaq. The company also received a $5 million convertible note investment from Microchip.

Microchip acquired Neuronix AI Labs to provide AI-enabled FPGA solutions for large-scale, high-performance edge applications.

The advanced packaging market saw a modest 4% increase in revenues in Q4 2023 versus the previous quarter, with a projected decline of 13% QoQ in the first quarter of 2024, reports Yole. Overall, the market is expected to increase from $38 billion in 2023 to $69.5 billion in 2029 with a CAGR of 10.7%.

TSMC’s CoWoS total capacity will increase by 150% in 2024 due to demand for NVIDIA’s Blackwell Platform, reports TrendForce.

ASML saw a nearly 40% drop in new litho equipment sales QoQ in Q1 2024 and a 61% drop in net bookings as manufacturers reduced investments in new capital equipment during the recent semiconductor market slump.

Global PC shipments rose about 3% YoY in Q1 2024, and that same growth is expected for full year 2024, reports Counterpoint. Manufacturers are predicted to promote AI PCs as semiconductor companies prepare to launch SoCs featuring higher TOPS.

The GenAI smartphone market share is predicted to reach 11% by 2024 and 43% by 2027, reports Counterpoint. Samsung likely will lead in 2024, but Apple may overtake it in 2025.

The RF GaN market is expected to exceed $2 billion by 2029, fueled by the defense and telecom infrastructure sectors, reports Yole.

In-Depth

Semiconductor Engineering published its Manufacturing, Packaging & Materials newsletter this week. Top articles include:

• Electromigration Concerns Grow In Advanced Packages
• What Works Best For Chiplets
• Enabling Advanced Devices With Atomic Layer Processes

Plus, check out these new stories and tech talks:

• Architecting Chips For High-Performance Computing
• Future-Proofing Automotive V2X
• Secure Movement Of Data In Test
• Challenges With Chiplets and Power Delivery

Security

In security research:

• Seoul National University, Sandia National Laboratories, Texas A&M University, and Applied Materials demonstrated a memristor crossbar architecture for encryption and decryption.
• Robert Bosch, Forschungszentrum Julich, and Newcastle University investigated techniques for error detection and correction in in-memory computing.
• The University of Florida introduced an automated framework that can help identify security assets for a design at the register-transfer level (RTL).

DARPA conducted successful in-air tests of AI flying an F-16 autonomously versus a human-piloted F-16 in visual-range combat scenarios.

The National Security Agency’s Artificial Intelligence Security Center (NSA AISC) published joint guidance on deploying AI systems securely with the Cybersecurity and Infrastructure Security Agency (CISA), the Federal Bureau of Investigation (FBI), and international partners. CISA also issued other alerts.

Products and Standards

Samsung uncorked LPDDR5X DRAM built on a 12nm process that supports up to 10.7 Gbps and expands the single package capacity of mobile DRAM up to 32 GB.

Keysight revealed its next-generation RF circuit simulation tool that supports multi-physics co-design of circuit, electromagnetic, and electrothermal simulations across Cadence, Synopsys, and Keysight platforms.

Renesas released its FemtoClock family of ultra-low jitter clock generators and jitter attenuators with 8 and 12 outputs, enabling clock tree designs for high-speed interconnect systems in telecom and data center switches, routers, medical imaging, and more.

Movellus expanded its droop response solutions with Aeonic Generate AWM3, which responds to voltage droops within 1 to 2 clock cycles while providing enhanced observability for droop profiling and enabling fine-grained dynamic frequency scaling.

Efabless announced the second version of its Python-based open-source EDA software for construction of customizable flows using proprietary or open-source tools.

Faraday Technology licensed Arm’s Cortex-A720AE IP to use in the development of AI-enabled vehicle ASICs. Also, Untether AI teamed up with Arm to enable its inference acceleration technology to be implemented alongside the latest-generation Automotive Enhanced technology from Arm for ADAS and autonomous vehicle applications.

FOXESS used Infineon’s 1,200V CoolSiC MOSFETs and EiceDRIVER gate drivers for industrial energy storage applications, aiming to promote green energy.

Emotors adopted Siemens’ Simcenter solutions for NVH testing of next-gen automotive e-drives.

SiTime debuted a family of clock generators for AI datacenter applications with clock, oscillator, and resonator in an integrated chip.

JEDEC published the JESD79-5C DDR5 SDRAM standard, which includes a DRAM data integrity improvement called Per-Row Activation Counting (PRAC) that precisely counts DRAM activations on a wordline granularity and alerts the system to pause traffic and designate time for mitigation measures when an excessive number of activations are detected.

The LoRa Alliance launched its roadmap for the development of the LoRaWAN open standard for IoT communications, referring to long-range radio (LoRa) low-power wide-area networks (LPWANs).

Education and Workforce

Texas A&M introduced a new Master of Science program for microelectronics and semiconductors, which will begin in fall 2025.

The Cornell NanoScale Science and Technology Facility (CNF) is partnering with Tompkins Cortland Community College and Penn State to offer a free Microelectronics and Nanomanufacturing Certificate Program to veterans and their dependents.

Eindhoven University of Technology (TU/e) has more than 700 researchers and 25 research group focused on the chip industry, but the number is projected to grow significantly due to the Dutch government’s recent investment.

Research

Intel announced a large-scale neuromorphic system based on its Loihi 2 processor. Initially deployed at Sandia National Laboratories, it aims to support research for future brain-inspired AI. Intel is also collaborating with Seekr on next-gen LLM and foundation models.

Los Alamos National Lab, HPE, and NVIDIA collaborated on the design and installation of Venado, the Lab’s new supercomputer. “Venado adds to our cutting-edge supercomputing that advances national security and basic research, and it will accelerate how we integrate artificial intelligence into meeting those challenges,” said Thom Mason, director of Los Alamos National Laboratory in a release.

Penn State is partnering with Morgan Advanced Materials on a five-year, multi-million-dollar research project to advance silicon carbide (SiC) technology. Morgan will become a founding member of the Penn State Silicon Carbide Innovation Alliance. Also, Coherent secured CHIPS Act funding of $15 million for research into high-voltage, high-power silicon carbide and single-crystal diamond semiconductors.

Oak Ridge National Laboratory (ORNL) researchers found a more efficient way to extract lithium from waste liquids leached from mining sites, oil fields, and used batteries.

Quantum

Quantinuum said it reached an inherent 99.9% 2-qubit gate fidelity in its commercial quantum computer, a point at which quantum error correction protocols can be used to greatly reduce error rates.

D-Wave Quantum uncorked a fast-anneal feature to speed up computations on its quantum processing units, which reduces the impact of external disturbances.

MIT researchers outlined a new conceptual model for a quantum computer that aims to make writing code for them easier.

SLAC National Accelerator Laboratory, Stanford University, Max Planck Institute of Quantum Optics, Ludwig-Maximilians-Universitat Munich, and Instituto de Ciencia de Materiales de Madrid researchers proposed a method that harnesses the structure of light to tweak the properties of quantum materials.

Events

Find upcoming chip industry events here, including:

Upcoming webinars are here.

Further Reading

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

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

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

SK hynix and TSMC plan to collaborate on HBM4 development and next-generation packaging technology, with plans to mass produce HBM4 chips in 2026. The agreement is an early indicator for just how competitive, and potentially lucrative, the HBM market is becoming. SK hynix said the collaboration will enable breakthroughs in memory performance with increased density of the memory controller at the base of the HBM stack.

Intel assembled the industry’s first high-NA EUV lithography system. “Compared to 0.33NA EUV, high-NA EUV (or 0.55NA EUV) can deliver higher imaging contrast for similar features, which enables less light per exposure, thereby reducing the time required to print each layer and increasing wafer output,” Intel said.

Fig. 1: Bigger iron — Intel’s brand new high-NA EUV machinery. Source: Intel

Samsung is slated to receive $6.4 billion in CHIPS ACT funding from the U.S. Department of Commerce (DoC) as part of a $40 billion expansion of its Austin, Texas, manufacturing facility, along with an R&D fab, a pair of leading-edge logic fabs, and an advanced packaging plant in nearby Taylor, Texas.

Micron and the U.S. government next week will announce $6.1 billion in CHIPS Act funding for the development of advanced memory chips in New York and Idaho, according to AP News.

Cadence unveiled its Palladium Z3 Emulation and Protium X3 FPGA Prototyping systems, targeted at multi-billion-gate designs with 2X increase in capacity and a 1.5X performance increase compared to previous-generation systems. Cadence also teamed up with MemVerge to enable seamless support for AWS Spot instances for long-running high-memory EDA jobs, and extended its hybrid cloud environment solutions through a collaboration with NetApp.

Fig. 2: At CadenceLive Silicon Valley, NVIDIA CEO Jensen Huang (r.) discussed accelerated computing and generative AI with Cadence CEO Anirudh Devgan. Source: Semiconductor Engineering

Quick links to more news:

Global
Markets and Money
In-Depth
Security
Education and Workforce
Product and Standards
Research
Quantum
Events
Further Reading

Global

After Taiwan’s recent 7.2 magnitude earthquake, TSMC reached more the 70% tool recovery in its fabs within the first 10 hours and full recovery by the end of the third day, according to this week’s earnings call. Some wafers in process were scrapped but the company expects the lost production to be recovered in the second quarter.  Also in the call, TSMC said they expect their “customers to share some of the higher cost” of the overseas fabs and higher electricity costs.

Advantest‘s regional headquarters in Taiwan donated $2.2 million New Taiwan dollars ($680,000 US) for aid to victims and reconstruction efforts related to the Taiwan earthquake that struck on April 3.

Japan’s exports grew by more than 7% YoY in March, driven by an 11.3% increase in shipments of electronics and semiconductor manufacturing equipment, much of it to China, according to NikkeiAsia.

China‘s IC output grew 40% in the first quarter, primarily driven by EVs and smartphones, according to the South China Morning Post.

In the U.S., the Biden Administration released a notice of funding opportunity of $50 million targeted at small businesses pursuing advances in metrology research and technology. Also, the U.S. Department of Energy announced a $33 million funding opportunity for smart manufacturing technologies.

Germany‘s Fraunhofer IIS launched its On-Board Processor (FOBP) for the German Space Agency’s Heinrich Hertz communication satellite. FOBP can be controlled and reprogrammed from Earth and will be used to investigate creation of hybrid communication networks.

Markets and Money

RISC-V startup Rivos raised more than $250 million in capital investments to tape out its first power-optimized chips for data analytics and generative AI applications.

Silvaco filed to go public on Nasdaq. The company also received a $5 million convertible note investment from Microchip.

Microchip acquired Neuronix AI Labs to provide AI-enabled FPGA solutions for large-scale, high-performance edge applications.

The advanced packaging market saw a modest 4% increase in revenues in Q4 2023 versus the previous quarter, with a projected decline of 13% QoQ in the first quarter of 2024, reports Yole. Overall, the market is expected to increase from $38 billion in 2023 to $69.5 billion in 2029 with a CAGR of 10.7%.

TSMC’s CoWoS total capacity will increase by 150% in 2024 due to demand for NVIDIA’s Blackwell Platform, reports TrendForce.

ASML saw a nearly 40% drop in new litho equipment sales QoQ in Q1 2024 and a 61% drop in net bookings as manufacturers reduced investments in new capital equipment during the recent semiconductor market slump.

Global PC shipments rose about 3% YoY in Q1 2024, and that same growth is expected for full year 2024, reports Counterpoint. Manufacturers are predicted to promote AI PCs as semiconductor companies prepare to launch SoCs featuring higher TOPS.

The GenAI smartphone market share is predicted to reach 11% by 2024 and 43% by 2027, reports Counterpoint. Samsung likely will lead in 2024, but Apple may overtake it in 2025.

The RF GaN market is expected to exceed $2 billion by 2029, fueled by the defense and telecom infrastructure sectors, reports Yole.

In-Depth

Semiconductor Engineering published its Manufacturing, Packaging & Materials newsletter this week. Top articles include:

• Electromigration Concerns Grow In Advanced Packages
• What Works Best For Chiplets
• Enabling Advanced Devices With Atomic Layer Processes

Plus, check out these new stories and tech talks:

• Architecting Chips For High-Performance Computing
• Future-Proofing Automotive V2X
• Secure Movement Of Data In Test
• Challenges With Chiplets and Power Delivery

Security

In security research:

• Seoul National University, Sandia National Laboratories, Texas A&M University, and Applied Materials demonstrated a memristor crossbar architecture for encryption and decryption.
• Robert Bosch, Forschungszentrum Julich, and Newcastle University investigated techniques for error detection and correction in in-memory computing.
• The University of Florida introduced an automated framework that can help identify security assets for a design at the register-transfer level (RTL).

DARPA conducted successful in-air tests of AI flying an F-16 autonomously versus a human-piloted F-16 in visual-range combat scenarios.

The National Security Agency’s Artificial Intelligence Security Center (NSA AISC) published joint guidance on deploying AI systems securely with the Cybersecurity and Infrastructure Security Agency (CISA), the Federal Bureau of Investigation (FBI), and international partners. CISA also issued other alerts.

Products and Standards

Samsung uncorked LPDDR5X DRAM built on a 12nm process that supports up to 10.7 Gbps and expands the single package capacity of mobile DRAM up to 32 GB.

Keysight revealed its next-generation RF circuit simulation tool that supports multi-physics co-design of circuit, electromagnetic, and electrothermal simulations across Cadence, Synopsys, and Keysight platforms.

Renesas released its FemtoClock family of ultra-low jitter clock generators and jitter attenuators with 8 and 12 outputs, enabling clock tree designs for high-speed interconnect systems in telecom and data center switches, routers, medical imaging, and more.

Movellus expanded its droop response solutions with Aeonic Generate AWM3, which responds to voltage droops within 1 to 2 clock cycles while providing enhanced observability for droop profiling and enabling fine-grained dynamic frequency scaling.

Efabless announced the second version of its Python-based open-source EDA software for construction of customizable flows using proprietary or open-source tools.

Faraday Technology licensed Arm’s Cortex-A720AE IP to use in the development of AI-enabled vehicle ASICs. Also, Untether AI teamed up with Arm to enable its inference acceleration technology to be implemented alongside the latest-generation Automotive Enhanced technology from Arm for ADAS and autonomous vehicle applications.

FOXESS used Infineon’s 1,200V CoolSiC MOSFETs and EiceDRIVER gate drivers for industrial energy storage applications, aiming to promote green energy.

Emotors adopted Siemens’ Simcenter solutions for NVH testing of next-gen automotive e-drives.

SiTime debuted a family of clock generators for AI datacenter applications with clock, oscillator, and resonator in an integrated chip.

JEDEC published the JESD79-5C DDR5 SDRAM standard, which includes a DRAM data integrity improvement called Per-Row Activation Counting (PRAC) that precisely counts DRAM activations on a wordline granularity and alerts the system to pause traffic and designate time for mitigation measures when an excessive number of activations are detected.

The LoRa Alliance launched its roadmap for the development of the LoRaWAN open standard for IoT communications, referring to long-range radio (LoRa) low-power wide-area networks (LPWANs).

Education and Workforce

Texas A&M introduced a new Master of Science program for microelectronics and semiconductors, which will begin in fall 2025.

The Cornell NanoScale Science and Technology Facility (CNF) is partnering with Tompkins Cortland Community College and Penn State to offer a free Microelectronics and Nanomanufacturing Certificate Program to veterans and their dependents.

Eindhoven University of Technology (TU/e) has more than 700 researchers and 25 research group focused on the chip industry, but the number is projected to grow significantly due to the Dutch government’s recent investment.

Research

Intel announced a large-scale neuromorphic system based on its Loihi 2 processor. Initially deployed at Sandia National Laboratories, it aims to support research for future brain-inspired AI. Intel is also collaborating with Seekr on next-gen LLM and foundation models.

Los Alamos National Lab, HPE, and NVIDIA collaborated on the design and installation of Venado, the Lab’s new supercomputer. “Venado adds to our cutting-edge supercomputing that advances national security and basic research, and it will accelerate how we integrate artificial intelligence into meeting those challenges,” said Thom Mason, director of Los Alamos National Laboratory in a release.

Penn State is partnering with Morgan Advanced Materials on a five-year, multi-million-dollar research project to advance silicon carbide (SiC) technology. Morgan will become a founding member of the Penn State Silicon Carbide Innovation Alliance. Also, Coherent secured CHIPS Act funding of $15 million for research into high-voltage, high-power silicon carbide and single-crystal diamond semiconductors.

Oak Ridge National Laboratory (ORNL) researchers found a more efficient way to extract lithium from waste liquids leached from mining sites, oil fields, and used batteries.

Quantum

Quantinuum said it reached an inherent 99.9% 2-qubit gate fidelity in its commercial quantum computer, a point at which quantum error correction protocols can be used to greatly reduce error rates.

D-Wave Quantum uncorked a fast-anneal feature to speed up computations on its quantum processing units, which reduces the impact of external disturbances.

MIT researchers outlined a new conceptual model for a quantum computer that aims to make writing code for them easier.

SLAC National Accelerator Laboratory, Stanford University, Max Planck Institute of Quantum Optics, Ludwig-Maximilians-Universitat Munich, and Instituto de Ciencia de Materiales de Madrid researchers proposed a method that harnesses the structure of light to tweak the properties of quantum materials.

Events

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

By Adam Kovac, Gregory Haley, and Liz Allan.

Cadence plans to acquire BETA CAE Systems for $1.24 billion, the latest volley in a race to sell multi-physics simulation and analysis across a broad set of customers with deep pockets. Cadence said the deal opens the door to structural analysis for the automotive, aerospace, industrial, and health care sectors. Under the terms of the agreement, 60% of the purchase would be paid in cash, and the remainder in stock.

South Korea’s National Intelligence Service reported that North Korea was targeting cyberattacks at domestic semiconductor equipment companies, using a “living off the land” approach, in which the attacker uses minimal malware to attack common applications installed on the server. That makes it more difficult to spot an attack. According to the government, “In December last year, Company A, and in February this year, Company B, had their configuration management server and security policy server hacked, respectively, and product design drawings and facility site photos were stolen.”

As the memory market goes, so goes the broader chip industry. Last quarter, and heading into early 2024, both markets began showing signs of sustainable growth. DRAM revenue jumped 29.6% in Q4 for a total of $17.46 billion. TrendForce attributed some of that to  new efforts to stockpile chips and strategic production control. NAND flash revenue was up 24.5% in Q4, with solid growth expected to continue into the first part of this year, according to TrendForce. Revenue for the sector topped $11.4 billion in Q4, and it’s expected to grow another 20% this quarter. SSD prices rebounded in Q4, as well, up 15% to $23.1 billion. Across the chip industry, sales grew 15.2% in January compared to the same period in 2023, according to the Semiconductor Industry Association (SIA). This is the largest increase since May 2022, and that trend is expected to continue throughout 2024 with double-digit growth compared to 2023.

Marvell said it is working with TSMC to develop a technology platform for the rapid deployment of analog, mixed-signal, and foundational IP. The company plans to sell both custom and commercial chiplets at 2nm.

The Dutch government is concerned that ASML, the only maker of EUV/high-NA EUV lithography equipment in the world, is considering leaving the Netherlands, according to De Telegraaf.

Quick links to more news:

Design and Power
Manufacturing and Test
Automotive and Batteries
Security
Pervasive Computing and AI
Events

Design and Power

AMD appears to have hit a roadblock with the U.S. Department of Commerce (DoC) over a new AI chip it designed for the Chinese market, as reported by Bloomberg. U.S. officials told the company the new chip is too powerful to be sold without a license.

JEDEC released its new memory standard as a free download on its website. The JESD239 Graphics Double Data Rate SGRAM can reach speeds of 192 GB/s and improve signal-to-noise ratio.

Accellera rolled out its IEEE Std. 1800‑2023 Standard for SystemVerilog—Unified Hardware Design, Specification, and Verification Language, which is now available for free download. The decision to offer it at no cost is due to Accellera’s participation in the IEEE GET Program, which was founded in 2010 with the intention of providing  open access to some standards. Accellera also announced it had approved for release the Verilog-AMS 2023 standard, which offers enhancements to analog constructs, dynamic tolerance for event control statements, and other upgrades.

Chiplets are a hot topic these days. Six industry experts discuss chiplet standards, interoperability, and the need for highly customized AI chiplets.

Optimizing EDA hardware for the cloud can shorten the time required for large and complex simulations, but not all workloads will benefit equally, and much more can be done to improve those that can.

Flex Logix is developing InferX DSP for use with existing EFLX eFPGA from 40nm to 7nm. InferX achieves about 30 times the DSP performance/mm² than eFPGA.

The number of challenges is growing in power semiconductors, just as it is in traditional chips. This tech talk looks at integrating power semiconductors with other devices, different packaging impacts, and how these devices will degrade over time.

Vultr announced it will use NVIDIA’s HGX H100 GPU clusters to expand its Seattle-based cloud data center. The company said the expansion, which will be powered by hydroelectricity, will make the facility one of the cleanest, most power efficient data centers in the country.

Amazon Web Services will expand its presence in Saudi Arabia, announcing a new $5.3 billion infrastructure region in the country that will launch in 2026. The new region will offer developers, entrepreneurs and companies access to healthcare, education and other services.

Google is teaming up with the Geneva Science and Diplomacy Anticipator (GESDA) to launch the XPRIZE Quantum Applications, with a $5 million in prizes for winners who can demonstrate ways to use quantum computing to solve real-world problems. Teams must submit a proposal that includes analysis of how long their algorithm would need to run before reaching a solution to a problem, such as improving drug development or designing new battery materials.

South Korea’s nepes corporation has turned to Siemens EDA for solutions in the development of advanced 3D-IC packages. The deal will see nepes incorporating several Siemens technologies, including the Calibre nmPlatform, Hyperlynx software and Xpedition Substrate Integrator software.

Siemens also formalized a partnership with Nuclei System Technology in which the pair of companies will work together on solution support for Nuclei’s RISC-V processor cores. The collaboration will allow clients to monitor CPU program execution in real-time via Nuclei’s RISC-V CPU Ips.

Keysight and ETS-Lindgren announced a breakthrough test solution for cellular devices using non-terrestrial networks. The solution is capable of measuring and validating the performance of both the transmitter and receiver of devices capable of supporting the network.

Nearly fifty companies raised $800 million for power electronics, data center interconnects, and more last month.

Manufacturing and Test

SEMI Europe issued a position statement to the European Union, warning against additional export controls or rules on foreign investment. SEMI argued that free trade partnerships are a better method for ensuring security than bans or restrictions.

Revenues for the top five wafer fab equipment manufacturers declined 1% YoY in 2023 to $93.5 billion, according to Counterpoint Research. The drop was attributed to weak spending on memory, inventory adjustments, and low demand in consumer electronics. The tide is changing, though.

Bruker closed two acquisitions. One involved Chemspeed Technologies, a Switzerland-based provider of automated laboratory R&D and QC workflow solutions. The second involved Phasefocus, an image processing company based in the UK.

A Swedish company, SCALINQ, released a commercially available large-scale packaging solution capable of controlling quantum devices with hundreds of qubits.

Solid Sands, a provider of testing and qualification technology for compilers and libraries, will partner with California-based Emprog to establish a representative presence in the U.S.

Automotive

Tesla halted production at its Brandenberg, Germany, gigafactory after an environmental activist group attacked an electricity pylon, reports the Guardian.

Stellantis will invest €5.6 billion (~$6.1B) in South America to support more than 40 new products, decarbonization technologies, and business opportunities.

The amount of data being collected, processed, and stored in vehicles is exploding, and so is the value of that data. That raises questions that are still not fully answered about how that data will be used, by whom, and how it will be secured.

While industry experts expect many benefits of V2X technology, technological and social hurdles to cross. But there is progress.

Infineon released its next-gen silicon carbide (SiC) MOSFET trench technology with 650V and 1,200V options improving stored energies and charges by up to 20%, ideal for power semiconductor applications such as photovoltaics, energy storage, DC EV charging, motor drives, and industrial power supplies.

Hyundai selected Ansys to supply structural simulation solutions for vehicle body system analysis, providing end-to-end, predictively accurate capabilities for virtual performance validation.

ION Mobility used the Siemens Xcelerator portfolio for styling, mechanical engineering, and electric battery pack development for its ION M1-S electric motorbike.

Ethernovia sampled a family of automotive PHY transceivers that scale from 10 Gbps to 1 Gbps over 15 meters of automotive cabling.

The California Public Utilities Commission (CPUC) approved Waymo’s plan to expand its driverless robotaxi services to Los Angeles and other cities near San Francisco, reports Reuters.

By 2027, next-gen battery EVs (BEVs) will on average be cheaper to produce than comparable gas-powered cars, reports Gartner. But the firm noted that average cost of EV accident repair will rise by 30%, and 15% of EV companies founded in the last decade will be acquired or bankrupt.

University of California San Diego (UCSD) researchers developed a cathode material for solid-state lithium-sulfur batteries that is electrically conductive and structurally healable.

ION Storage Systems announced its anodeless and compressionless solid-state batteries (SSBs) achieved 125 cycles with under 5% capacity degradation in performance. ION has been working with the U.S. Department of Defense (DoD) to test its SSB before expanding into markets such as EVs, energy storage, consumer electronics, and aerospace.

Security

Advanced process nodes and higher silicon densities are heightening DRAM’s susceptibility to Rowhammer attacks, as reduced cell spacing significantly decreases the hammer count needed for bit flips. A multi-layered, system-level approach is crucial to DRAM protection.

Researchers at Bar-Ilan University and Rafael Defense Systems proposed an analytical electromagnetic model for IC shielding against hardware attacks.

Keysight acquired the IP of Firmalyzer, whose firmware security analysis technology will be integrated into the Keysight IoT Security Assessment and Automotive Security solutions, providing analysis into what is happening inside the IoT device itself.

Flex Logix joined the Intel Foundry U.S. Military Aerospace Government (USMAG) Alliance, ensuring U.S. defense industrial base and government customers have access to the latest technology, enabling successful designs for mission critical programs.

The EU Council presidency and European Parliament reached a provisional agreement on a Cyber Solidarity Act and an amendment to the Cybersecurity Act (CSA) concerning managed security services.

The EU Agency for Cybersecurity (ENISA) and partners updated the compendium on elections cybersecurity in response to issues such as AI deep fakes, hacktivists-for-hire, the sophistication of threat actors, and the current geopolitical context.

The Cybersecurity and Infrastructure Security Agency (CISA) launched efforts to help secure the open source software ecosystem; updated its Public Safety Communications and Cyber Resiliency Toolkit; and issued other alerts including security advisories for VMware, Apple, and Cisco.

Pervasive Computing and AI

Johns Hopkins University engineers used natural language prompts and ChatGPT4 to produce detailed instructions to build a spiking neural network (SNN) chip. The neuromorphic accelerators could power real-time machine intelligence for next-gen embodied systems like autonomous vehicles and robots.

The global AI hardware market size was estimated at $53.71 billion in 2023, and is expected to reach about $473.53 billion by 2033, at a compound annual growth rate of 24.5%, reports Precedence Research.

National Institute of Standards and Technology (NIST) researchers and partners built compact chips capable of converting light into microwaves, which could improve navigation, communication, and radar systems.

Fig. 1: NIST researchers test a chip for converting light into microwave signals. Pictured is the chip, which is the fluorescent panel that looks like two tiny vinyl records. The gold box to the left of the chip is the semiconductor laser that emits light to the chip. Credit: K. Palubicki/NIST

The Indian government is investing 103 billion rupees ($1.25B) in AI projects, including computing infrastructure and large language models (LLMs).

Infineon is collaborating with Qt Group, bringing Qt’s graphics framework to Infineon’s graphics-enabled TRAVEO T2G cluster MCUs to optimize graphical user interface (GUI) development.

Keysight leveraged fourth-generation AMD EPYC CPUs to develop a new benchmarking methodology to test mobile and 5G private network performance. The method uses realistic traffic generation to uncover a CPU’s true power and scalability while observing bandwidth requirements.

The AI industry is pushing a nuclear power revival, reports NBC, and Amazon bought a nuclear-powered data center in Pennsylvania from Talen Energy for $650 million, according to WNEP.

Bank of America was awarded 644 patents in 2023 for technology including information security, AI, machine learning (ML), online and mobile banking, payments, data analytics, and augmented and virtual reality (AR/VR).

Mistral AI’s large language model, Mistral Large, became available in the Snowflake Data Cloud for customers to securely harness generative AI with their enterprise data.

China’s smartphone unit sales declined 7% year over year in the first six weeks of 2024, with Apple declining 24%, reports Counterpoint.

Shipments of LCD TV panels are expected to reach 55.8 million units in Q1 2024, a 5.3% quarter over quarter increase, reports TrendForce. And an estimated 5.8 billion LED lamps and luminaires are expected to reach the end of their lifespan in 2024, triggering a wave of secondary replacements and boosting total LED lighting demand to 13.4 billion units.

Korea Institute of Science and Technology (KIST) researchers mined high-purity gold from electrical and electronic waste.

The San Diego Supercomputer Center (SDSC) and the University of Utah launched a National Data Platform pilot project, aimed at making access to and use of scientific data open and equitable.

Events

Find upcoming chip industry events here, including:

Upcoming webinars are here.

Further Reading and Newsletters

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

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

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

Experts at the Table: Semiconductor Engineering sat down to talk about the challenges of establishing a commercial chiplet ecosystem with Frank Schirrmeister, vice president solutions and business development at Arteris; Mayank Bhatnagar, product marketing director in the Silicon Solutions Group at Cadence; Paul Karazuba, vice president of marketing at Expedera; Stephen Slater, EDA product management/integrating manager at Keysight; Kevin Rinebold, account technology manager for advanced packaging solutions at Siemens EDA; and Mick Posner, vice president of product management for high-performance computing IP solutions at Synopsys. What follows are excerpts of that discussion.

L-R: Arteris’ Schirrmeister, Cadence’s Bhatnagar, Expedera’s Karazuba, Keysight’s Slater, Siemens EDA’s Rinebold, and Synopsys’ Posner.

SE: There’s a lot of buzz and activity around every aspect of chiplets today. What is your impression of where the commercial chiplet ecosystem stands today?

Schirrmeister: There’s a lot of interest today in an open chiplet ecosystem, but we are probably still quite a bit away from true openness. The proprietary versions of chiplets are alive and kicking out there. We see them in designs. We vendors are all supporting those to make it reality, like the UCIe proponents, but it will take some time to get to a fully open ecosystem. It’s probably at least three to five years before we get to a PCI Express type exchange environment.

Bhatnagar: The commercial chiplet ecosystem is at a very early stage. Many companies are providing chiplets, are designing them, and they’re shipping products — but they’re still single-vendor products, where the same company is designing all the pieces. I hope that with the advancements the UCIe standard is making, and with more standardization, we eventually can get to a marketplace-like environment for chiplets. We are not there.

Karazuba: The commercialization of homogeneous chiplets is pretty well understood by groups like AMD. But for the commercialization of heterogeneous chiplets, which is chiplets from multiple suppliers, there are still a lot of questions out there about that.

Slater: We participate in a lot of the board discussions, and attend industry events like TSMC’s OIP, and there’s a lot of excitement out there at the moment. I see a lot of even midsize and small customers starting to think about their development plans for what chiplet should be. I do think those that are going to be successful first will be those that are within a singular foundry ecosystem like TSMC’s. Today if you’re selecting your IP, you’ve got a variety of ways to be able to pick and choose which IP, see what’s been taped out before, how successful it’s been so you have a way to manage your risk and your costs as you’re putting things together. What we’ll see in the future will be that now you have a choice. Are you purchasing IP, or are you purchasing chiplets? Crucially, it’s all coming from the same foundry and put together in the same manner. The technical considerations of things like UCIe standard packaging versus advanced packaging, and the analysis tool sets for high-speed simulation, as well as for things like thermal, are going to just become that much more important.

Rinebold: I’ve been doing this about 30 years, so I can date back to some of the very earliest days of multi-chip modules and such. When we talk about the ecosystem, there are plenty of examples out there today where we see HBM and logic getting combined at the interposer level. This works if you believe HBM is a chiplet, and that’s a whole other argument. Some would argue that HBM falls into that category. The idea of a true LEGO, snap-together mix and match of chiplets continues to be aspirational for the mainstream market, but there are some business impediments that need to get addressed. Again, there are exceptions in some of the single-vendor solutions, where it’s more or less homogeneous integration, or an entirely vertically integrated type of environment where single vendors are integrating their own chiplets into some pretty impressive packages.

Posner: Aspirational is the word we use for an open ecosystem. I’m going to be a little bit more of a downer by saying I believe it’s 5 to 10 years out. Is it possible? Absolutely. But the biggest issue we see at the moment is a huge knowledge gap in what that really means. And as technology companies become more educated on really what that means, we’ll find that there will be some acceleration in adoption. But within what we call ‘captive’ — within a single company or a micro-ecosystem — we’re seeing multi-die systems pick up.

SE: Is it possible to define the pieces we have today from a technology point of view, to make a commercial chiplet ecosystem a reality?

Rinebold: What’s encouraging is the development of standards. There’s some adoption. We’ve already mentioned UCIe for some of the die-to-die protocols. Organizations like JEDEC announced the extension of their JEP30 PartModel format into the chiplet ecosystem to incorporate chiplet-style data. Think about this as an electronic data sheet. A lot of this work has been incorporated into the CDX working group under Open Compute. That’s encouraging. There were some comments a little bit earlier about having an open marketplace. I would agree we’re probably 3 to 10 years away from that coming to fruition. The underlying framework and infrastructure is there, but a lot of the licensing and distribution issues have to get resolved before you see any type of broad adoption.

Posner: The infrastructure is available. The EDA tools to create, to package, to analyze, to simulate, to manufacture — those tools are all there. The intellectual property that sits around it, either UCIe or some of the more traditional die-to-die interfaces, all of that’s there. What’s not established are full methodology and flows that lead to interoperability. Everything within captive is possible, but a broader ecosystem, a marketplace, is going to require silicon interoperability, simulation, packaging, all of that. That’s the area that we believe is missing — and still building.

Schirrmeister: Do we know what’s required? We probably can define that reasonably well. If the vision is an open ecosystem with IP on chiplets that you can just plug together like LEGO blocks, then the IP industry informs us of what’s required, and then there are some gaps on top of them. I hear people from the hard-coded IP world talking about the equivalent of PDKs for chiplets, but today’s IP ecosystem and the IP deliverables are informing us it doesn’t work like LEGO blocks yet. We are improving every year. But this whole, ‘I take my whiteboard and then everything just magically functions together’ is not what we have today. We need to think really hard about what the additional challenges are when you disaggregate that into chiplets and protocols. Then you get big systemic issues to deal with, like how do you deal with coherency across chiplets? It was challenging enough to get it done on a chip. Now you potentially have to deal with other partnerships you don’t even own. This is not a captive environment in an open ecosystem. That makes it very challenging, and it creates job security for at least 5 to 10 years.

Bhatnagar: On the technical side, what’s going well is adoption. We can see big companies like Intel, and then of course, IP providers like us and Synopsys. Everybody’s working toward standardizing chiplet integration, and that is working very well. EDA tools are also coming up to support that. But we are still very far from a marketplace because there are many issues that are not sorted out, like licensing and a few other things that need a bit more time.

Slater: The standards bodies and networking groups have excited a lot of people, and we’re getting a broad set of customers that are coming along. And one point I was thinking, is this only for very high-end compute? From the companies that I see presenting in those types of forums, it’s even companies working in automotive or aerospace/defense, planning out their future for the next 10 years or more. In the automotive case, it was a company that was thinking about creating chiplets for internal consumption — so maybe reorganizing how they look at creating many different variations or evolutions of their products, trying to do it as more modular chiplet types of blocks. ‘If we take the microprocessor part of it, would we sell that as a chiplet externally for other customers to integrate together into a bigger design?’ For me, the aha moment was seeing how broad the application would be. I do think that the standards work has been moving very fast, and that’s worked really well. For instance, at Keysight EDA, we just released a chiplet PHY designer. It’s a simulation for the high-speed digital link for UCIe, and that only comes about by having a standard that’s published, so an EDA company can take a look at it and realize what they need to do with it. The EDA tools are ready to handle these kinds of things. And maybe then, on to the last point is, in order to share the IP, in order to ensure that it’s available, database and process management is going to become all the more important. You need to keep track of which chip is made on which process, and be able to make it available inside the company to other potential users of that.

SE: What’s in place today from a business perspective, and what still needs to be worked out?

Karazuba: From a business perspective, speaking strictly of heterogeneous chiplets, I don’t think there’s anything really in place. Let me qualify that by asking, ‘Who is responsible for warranty? Who is responsible for testing? Who is responsible for faults? Who is responsible for supply chain?’ With homogeneous chiplets or monolithic silicon, that’s understood because that’s the way that this industry has been doing business since its inception. But when you talk about chiplets that are coming from multiple suppliers, with multiple IPs — and perhaps different interfaces, made in multiple fabs, then constructed by a third party, put together by a third party, tested by a fourth party, and then shipped — what happens when something goes wrong? Who do you point the finger at? Who do you go to and talk to? If a particular chiplet isn’t functioning as intended, it’s not necessarily that chiplet that’s bad. It may be the interface on another chiplet, or on a hub, whatever it might be. We’re going to get there, but right now that’s not understood. It’s not understood who is going to be responsible for things such as that. Is it the multi-chip module manufacturer, or is it the person buying it? I fear a return to the Wintel issue, where the chipmaker points to the OS maker, which points at the hardware maker, which points at the chipmaker. Understanding of the commercial side is is a real barrier to chiplets being adopted. Granted, the technical is much more difficult than the commercial, but I have no doubt the engineers will get there quicker than the business people.

Rinebold: I completely agree. What are the repercussions, warranty-related issues, things like that? I’d also go one step further. If you look at some of the larger silicon foundries right now, there is some concern about taking third-party wafers into their facilities to integrate in some type of heterogeneous, chiplet-type package. There are a lot of business and logistical issues that have to get addressed first. The technical stuff will happen quickly. It’s just a lot of these licensing- and distribution-type issues that need to get resolved. The other thing I want to back up to involves customers in the defense/industrial space. The trust and traceability and the province tracking of IP is going to be key for them, because they have so much expectation of multi-die or chiplet-type packaging as an alternative to monolithic scaling. Just look at all the government programs out there right now, with RESHAPE [Reshore Ecosystem for Secure Heterogeneous Advanced Packaging Electronics] and NGMM [Next-Generation Microelectronics Manufacturing] and such. They’re all in on this chiplet perspective, but they’re going to require a lot of security measures to understand who has touched the IP, where it comes from, how to you verify that.

Posner: Micro-ecosystems are forming because of all these challenges. If you naively think you can just go pick a die off the shelf and put it into your device, how do you warranty that? Who owns it? These micro-ecosystems are building up to fundamentally sort that out. So within a couple of different companies, be it automotive or high-performance compute, they’ll come to terms that are acceptable across all of them. And it’s these micro-ecosystems that are really going to end up driving open chiplets, and I think it’s going to be an organic type of growth. Chiplets are available for a specific application today, but we have this vision that someone else could use it, and we see that with the multiple modes being built into the dies. One mode is, ‘I’m connecting to myself. It’s a very tight, low-latency link.’ But I have this vision in the future that I’m going to need to have an interface or protocol that is more open and uses standard available stacks, and which can be bought off the shelf and integrated. That’s one side of the logistics. I want to mention two more things. It is possible to do interoperability across nodes. We demonstrated our TSMC N3 UCIe with Intel’s in-house UCIe, all put together on an Intel process. This was two separate companies working together, showing the first physical interoperability, so it’s possible. But going forward that’s still just a small part of the overall effort. In the IP space we’ve lived with an IP model of, ‘Build once, sell many.’ With the chiplet marketplace, unless there is a revenue stream from that chiplet, it will break that model. Companies think, ‘I only have to buy the IP once, and then I’m selling my silicon.’ But the infrastructure, the resources that are required to build all of this does not go away. There has to be money at the end of that tunnel for all of these different companies to be investing.

Schirrmeister: Mick is 100% right, but we may have a definition issue here with what we really mean by an ‘open’ chiplet ecosystem. I have two distinct conversations when I talk to partners and customers. On the one hand, you have board designers who are doing more and more integration, and they look at you with a wrinkled forehead and say, ‘We’ve been doing this for years. What are you talking about?’ It may not have been 3D-IC in the classic sense of all items, but they say, ‘Yeah, there are issues with warranties, and the user figures it out.’ The board people arrive from one side of the equation at chiplets because that’s the next evolution of integration. You need to be very efficient. That’s not what we call an open ecosystem of chiplets here. The idea is that you have this marketplace to mix things up, and you have the economies of scale by selling the same chiplet to multiple people. That’s really what the chip designers are thinking about, and some of them think even further because if you do it all in true 3D-IC fashion, then you actually have to co-design those chiplets in a way, and that’s a whole other dimension that needs to be sorted out. To pick a little bit on the big companies that have board and chip design groups in house, you see this even within the messaging of these companies. You have people who come from the board side, and for them it’s not a solved problem. It always has been challenging, but they’re going to take it to the next level. The chip guys are looking at this from a perspective of one interface, like PCI Express, now being UCIe. And then I think about this because the networks on chip need to become super NoCs across chiplets, which poses its own challenges. And that all needs to work together. But those are really chiplets designed for the purpose of being in a chiplet ecosystem. And to that end, Mick’s estimation of longer than five years is probably correct because those purpose-built chiplets, for the purpose of being in an open ecosystem, have all these challenges the board guys have already been dealing with for quite some time. They’re now ‘just getting smaller’ in the amount of integration they do.

Slater: When you put all these chiplets together and start to do that integration, in what order do you start placing the components down? You don’t want to throw away one very expensive chiplet because there was an issue with one of the smaller cheaper ones. So, there are now a lot of thoughts about how to go about doing almost like unit tests on individual chiplets first, but then you want to do some form of system test as you go along. That’s definitely something we need to think about. On the business front,  who is going to be most interested in purchasing a chiplet-style solution. It comes down to whether you have a yield problem. If your chips are getting to the size where you have yield concerns, then definitely it makes sense to think about using chiplets and breaking it up into smaller pieces. Not everything scales, so why move to the lowest process node when you could purchase something at a different process node that has less risk and costs less to manufacture, and then put it all together. The ones that have been successful so far — the big companies like Intel, AMD — were already driven to that edge. The chips got to a size that couldn’t fit on the reticle. We think about how many companies fit into that category, and that will factor into whether or not the cost and risk is worth it for them.

Bhatnagar: From a business perspective, what is really important is the standardization. Inside of the chiplets is fine, but how it impacts other chiplets around it is important. We would like to be able to make something and sell many copies of it. But if there is no standardization, then either we are taking a gamble by going for one thing and assuming everybody moves to it, or we make multiple versions of the same thing and that adds extra costs. To really justify a business case for any chiplet or, or any sort of IP with the chiplet, the standardization is key for the electrical interconnect, packaging, and all other aspects of a system.

Fig. 1:  A chiplet design. Source: Cadence. 

Related Reading
Chiplets: 2023 (EBook)
What chiplets are, what they are being used for today, and what they will be used for in the future.
Proprietary Vs. Commercial Chiplets
Who wins, who loses, and where are the big challenges for multi-vendor heterogeneous integration.

The post Commercial Chiplet Ecosystem May Be A Decade Away appeared first on Semiconductor Engineering.