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Intel 18A Yields Up 7%–8% Monthly as 2H26 Customers Expected; Said to Push 18A CPUs Amid Shortages

　　Intel’s turnaround appears to be gaining momentum. According to CNBC, Intel CEO Lip-Bu Tan said the company’s foundry business is making progress, with 18A process yields now improving by 7% to 8% per month, signaling advancement from earlier challenges.　　More significantly, Tan said the improvements are beginning to attract customer interest, with Intel expecting commitments from multiple foundry customers in the second half of 2026, the report highlights. The remarks align with earlier comments from CFO David Zinsner, who said signals from external foundry customers would become “more concrete” in the second half of the year and into early 2027.　　Intel Reportedly Pushes 18A CPUs Amid Supply Tightness　　Recent CPU shortages have also brought renewed attention to Intel, which is reportedly promoting processors built on its 18A technology. According to Nikkei, sources say Intel is encouraging key PC partners across the U.S., China, and Taiwan to increase adoption of CPUs produced using the process, which only became available late last year.　　Sources add that the company has prioritized supply of chips based on its older Intel 7 process for server and industrial applications. Intel’s push to promote its most advanced chips comes as it seeks to capitalize on the AI race and regain leadership in advanced chipmaking, the report adds.　　14A Seen as Intel’s Next Push Against TSMC　　Beyond 18A, according to CNBC, Tan said Intel’s next-generation 14A process could eventually compete with TSMC, adding that it is expected to arrive around the same time as TSMC’s comparable technology — a development he described as a “major, major breakthrough.” As noted by Wccftech, Tan said Intel expects risk production for its 14A technology in 2028, followed by volume production in 2029, placing its timeline alongside TSMC’s. He added that multiple customers are already engaging with Intel as the company has made its 0.5 PDK available.　　EMIB Shows Early Customer Commitment as Substrate Prepayments Emerge　　Another major technology highlighted by Lip-Bu Tan is EMIB, which he described as one of the most advanced chip packaging technologies. According to Wccftech, Tan said customer commitment has become evident, with some customers even prepaying for substrates to secure supply amid ongoing shortages.　　Wccftech notes that EMIB was recently said to have reached 90% yields. By contrast, Commercial Times notes that TSMC’s CoWoS currently mass-produced 5.5-reticle-size version — the world’s largest today — has already achieved yields of 98%.

Key word：

Intel

Release time：2026-05-20 11:32 reading：330 Continue reading>>

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NVIDIA Reportedly Plans GPU-Direct Storage for Vera Rubin, Raising Expectations for HBF Beyond HBM

　　As AI models continue to scale, HBM may struggle to meet future memory-capacity demands, prompting industry experts to view GPU-driven storage architectures as a potential next frontier. According to The Elec, NVIDIA and Amazon are reportedly advancing storage architectures that allow GPUs to directly control storage devices such as SSDs. NVIDIA is said to plan the introduction of GPU-Initiated Direct Storage Access (GIDS) starting with its Vera Rubin AI platform, a shift that could accelerate the emergence of high-bandwidth flash (HBF), the report notes.　　Citing Song Ki-hwan, a professor in the Department of System Semiconductor Engineering at Yonsei University, the report explains that GIDS goes beyond existing GPU Direct Storage (GDS) architecture. Under GDS, CPUs issue data requests to storage devices before data is transferred to GPUs. GIDS advances this by allowing GPUs to access storage directly, bypassing CPUs and DRAM.　　Both GIDS and GDS aim to overcome data-transfer bottlenecks tied to traditional von Neumann computing architectures. Microsoft and AMD are also said to be exploring similar approaches. The report, citing Song, adds that traditional data-transfer methods are inefficient because CPUs are structurally limited in thread processing, while GPUs can generate tens of thousands of parallel threads. Song also notes that GPU-HBM data transfer already accounts for roughly half of total system power, strengthening the case for HBF architectures that place ultra-fast NAND closer to GPUs to address future AI bottlenecks.　　GIDS Could Accelerate HBF and Expand NAND’s Role in AI Memory　　The emergence of GIDS could allow NAND storage to take on a larger role in AI memory systems while easing pressure on HBM capacity. As the report notes, this shift would require higher-performance NAND flash capable of keeping pace with GPU processing speeds. One proposed approach is high-bandwidth flash (HBF), which stacks NAND flash vertically in a structure similar to HBM and connects it using through-silicon vias (TSVs).　　The report notes that NAND flash offers roughly 30 times higher bit density than DRAM, enabling far greater memory capacity in a similar footprint. According to Song, combining six HBF units with two HBM units could increase GPU memory capacity more than 16 times, from 192GB to 3,120GB, potentially supporting AI models with parameter sizes around 16 times larger than current architectures.　　Still, NAND flash has endurance limits, typically supporting only around 100,000 write-and-erase cycles versus DRAM’s near-unlimited write capability. As a result, HBF is seen as better suited for storing AI model parameters, which remain largely unchanged during inference and function as read-only workloads.　　Meanwhile, memory makers have also been exploring GPU-driven memory architectures. According to an Edaily report last year, sources said Samsung Electronics is actively researching next-generation high-performance Z-NAND. The company is also developing GIDS technology that would allow GPUs to directly access Z-NAND-based storage devices. If implemented, GPUs would be able to access Z-NAND devices without intermediaries, potentially shortening processing times for AI workloads.

Key word：

NVIDIA

Release time：2026-05-20 11:20 reading：424 Continue reading>>

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First Intel Wildcat Lake Laptops Near Launch; Reportedly Built on 18A, Taking Aim at Apple’s MacBook Neo

　　The first laptops powered by Intel’s “Wildcat Lake” Core Series 300 processors for the entry-level PC segment are reportedly nearing launch. According to Wccftech, Intel Core Series 3 laptops could hit retail shelves as early as next week, with initial models including 14-inch and 16-inch designs from Honor and ASUS, while more OEMs are expected to follow.　　Chinese media outlet Mydrivers notes that the Honor Notebook X14 2026 Combat Edition will be the first commercially available laptop based on Intel’s Wildcat Lake platform, featuring an Intel Core 5 320 processor. Another Wccftech report notes that the device comes with 16GB of LPDDR5X 7467 MT/s memory, double the capacity of Apple’s MacBook Neo, along with a 512GB SSD. By comparison, the Neo starts at 256GB of storage and tops out at 512GB.　　Intel’s Wildcat Lake Targets AI PCs With Better Battery Life　　The SoC package integrates two dies, with the primary die built on Intel’s 18A node, according to TechPowerUp. This die features a 6-core CPU configuration, NPU 5 delivering 40 TOPS of INT8 performance, and a GPU with up to two Xe3 cores. It also integrates the memory controller and cache pool. Meanwhile, Intel dedicates the second die to I/O functions, the report adds.　　Wccftech notes that Intel’s Core Series 3 emphasizes AI capability and battery efficiency, marking the company’s first hybrid AI-ready Core Series processor. The report adds that the chips are designed for all-day battery life and everyday productivity, offering up to 2.1 times faster creation and productivity performance, up to 64% lower processor power consumption, and up to 2.7 times higher AI GPU performance compared with previous-generation Intel Core 7 150U processors.　　Looking ahead, Wildcat Lake could see broader adoption across future devices. TechPowerUp reports that Google is likely to pair its rumored “Googlebook” laptops with Intel’s latest Core Series 300 “Wildcat Lake” processors. However, Intel is not expected to be the exclusive platform provider, with Qualcomm and MediaTek also said to be among Google’s partners.

Key word：

Intel Wildcat Lake

Release time：2026-05-19 10:42 reading：372 Continue reading>>

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SMIC Founder Says China May Gain Edge in Niche Chips as 80% of Demand Lies Outside Advanced Nodes

　　As China pushes to strengthen its chip industry, Richard Chang, founder of SMIC, China’s largest foundry, suggests that success in semiconductors is not solely about winning the 2nm or 3nm race, with niche markets potentially emerging as a key competitive advantage for China. According to STAR Market Daily, Chang said that niche markets have become a key breakthrough point for China’s semiconductor industry, adding that advancing in specialized market segments could help strengthen the country’s overall chip capabilities.　　SMIC remains limited to the 7nm node due to its reliance on older DUV lithography equipment. However, Richard Chang’s emphasis on niche markets suggests that the company’s mature-node technologies could still find meaningful opportunities across a range of applications, as noted by Wccftech.　　SMIC Founder Highlights Opportunity Beyond Advanced Nodes　　As noted by STAR Market Daily, Richard Chang argued that semiconductor success should not be defined solely by achieving 3nm or 2nm nodes, describing such thinking as a misconception and highlighting niche markets as a key opportunity for China’s chip industry.　　Chang further noted that advanced nodes account for less than 20% of the global semiconductor market by product volume, while more than 80% of demand comes from mature-node and specialty-process segments. According to Chang, many niche markets still dominated by overseas players could represent key breakthrough opportunities for Chinese semiconductor companies.　　The trend may already be emerging across parts of the supply chain. According to TrendForce, with Taiwanese foundries shifting capacity and raising prices, customers in HV processes and CIS applications are increasingly turning to Chinese foundries for more stable pricing and capacity availability. This order migration has been evident since the second half of 2025, driving strong demand for 90 nm-and-above 12-inch wafers among Chinese players.　　Beyond Large Models: Richard Chang Highlights Edge AI Potential　　In addition, Richard Chang argued that edge AI and scenario-driven applications remain underappreciated opportunities within the broader AI landscape. As STAR Market Daily notes, Chang said sectors such as industrial control, automotive electronics, and wearable devices could create strong demand for application-specific semiconductor solutions, offering startups room to pursue differentiated strategies outside direct competition with global AI giants.

Key word：

SMIC

Release time：2026-05-12 10:24 reading：417 Continue reading>>

ARM CEO Says Agentic <span style='color:red'>AI</span> May Drive CPU Core Counts to 512 as GPU-CPU Ratios Become Less Relevant

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ARM CEO Says Agentic AI May Drive CPU Core Counts to 512 as GPU-CPU Ratios Become Less Relevant

　　The rise of agentic AI is fueling fresh debate over the future GPU-to-CPU balance in AI systems, with Arm CEO Rene Haas now weighing in on the discussion. According to a transcript published by Investing.com, Haas said that while CPUs may not outnumber GPUs on a chip basis, they could from a core-count perspective.　　Haas noted that overall CPU demand is likely to increase significantly as agentic AI scales, with data centers potentially requiring more than four times today’s CPU capacity. He said this could create a data center CPU market opportunity exceeding US$100 billion by 2030.　　At the same time, Haas emphasized that the industry is seeing not only an explosion in overall CPU demand, but also rapid growth in the number of cores per CPU. According to Haas, many agentic AI workloads involve independent jobs, flows, or batches running on dedicated CPU cores, increasing the need for higher-core-count processors.　　Haas used Blackwell, Rubin, and other large AI accelerators as examples, noting that these chips are already approaching reticle limits, meaning their size is constrained by the maximum area a lithography mask can print. In contrast, he said CPU core counts could still double or even quadruple over the coming years.　　Haas noted that the Arm AGI CPU already features 136 cores, significantly higher than many competing offerings. Looking ahead, he said the industry is likely to move toward 256-core and even 512-core CPU designs. He added that such high-core-count architectures play to Arm’s strengths, as efficiency per core becomes increasingly critical at larger scales.　　Mydrivers notes that AMD and Intel are moving in a similar direction. AMD’s 2nm Zen 6-based EPYC processors are already expected to reach up to 256 cores with SMT multithreading support, while Intel’s all-E-core Xeon processors have reached 288 cores, with the next generation expected to scale to as many as 512 cores.　　Regarding the Arm AGI CPU launched at the company’s Arm Everywhere event last quarter, Haas said customer response has been “very strong.” He added that customer demand across fiscal 2027 and fiscal 2028 has already exceeded US$2 billion, more than double the level projected at launch.

Key word：

ARM

Release time：2026-05-11 13:48 reading：424 Continue reading>>

TSMC, Sony to Form JV for Image Sensors, Including New Production Lines for <span style='color:red'>AI</span> and Automotive Use

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TSMC, Sony to Form JV for Image Sensors, Including New Production Lines for AI and Automotive Use

　　As TSMC has decided to upgrade its 2nd Kumamoto fab to 3nm, the foundry giant is also exploring to secure more opportunities for its mature nodes in Japan. According to its press release on May 8, Sony and TSMC announced the signing of a non-binding memorandum of understanding (MOU) to establish a strategic partnership focused on the development and manufacturing of next-generation image sensors.　　Notably, under the proposed framework, the two companies plan to form a joint venture (JV), with Sony serving as the majority and controlling shareholder. The JV is expected to build development and production lines at Sony’s newly constructed fab in Koshi City, Kumamoto Prefecture.　　TSMC said that beyond manufacturing expansion, the partnership is also aimed at exploring emerging opportunities in physical AI applications, including automotive and robotics.　　Through this collaboration, Sony will contribute its deep expertise in image sensor design, while TSMC will bring its advanced process technology and large-scale manufacturing capabilities. Both sides aim to combine their respective strengths to further enhance the performance and competitiveness of future image sensor technologies.　　The move aligns with an April Reuters report, which noted that Japan’s Ministry of Economy, Trade and Industry (METI) has confirmed that the Japanese government will provide subsidies of up to ¥60 billion (approximately US$380 million) to Sony Semiconductor Solutions Corporation for the construction of an image sensor facility in Kumamoto Prefecture, western Japan.　　Sony is a long-time customer of TSMC. As previously reported by Commercial Times, TSMC’s first Kumamoto fab—entering mass production in late 2024—supplies logic chips to Sony and DENSO, using 22/28nm and 12/16nm process technologies.　　Separately, Sony has recently begun restructuring efforts, including a spin-off of its television business. Its CIS (image sensor) unit is also facing rising competitive pressure, as Samsung Electronics continues to expand its share in supplying image sensors for Apple, prompting Sony to seek new growth momentum in the segment, Commercial Times added.

Key word：

TSMC

Release time：2026-05-09 10:16 reading：665 Continue reading>>

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Apple Reportedly Eyes Samsung, Intel U.S. Foundry for Core Chips Amid TSMC Constraints, Supply Diversification

　　Apple is reportedly weighing the possibility of having some of its core device chips manufactured by Samsung and Intel. According to Bloomberg, citing sources, the company has held preliminary discussions on using the two as alternative production partners for its main processors—potentially providing a second sourcing option alongside its longstanding supplier, TSMC.　　Sources say the company has held early-stage discussions with Intel about leveraging its foundry services, while Apple executives have also visited a Samsung facility under construction in Texas that is expected to produce advanced chips.　　That said, the report notes that neither effort has led to any orders so far. Engagements with both suppliers remain at a preliminary stage, as Apple continues to have reservations about adopting non-TSMC manufacturing technologies.　　One of the key drivers behind Apple’s potential shift is supply constraints at TSMC, according to Bloomberg. As the report notes, Apple executives addressed the issue during the company’s quarterly earnings call last week, indicating that limited chip availability for iPhone and Mac devices is currently weighing on growth.　　In early 2026, Tim Cook identified access to advanced-node manufacturing as the main bottleneck for Apple’s iPhone output, according to CNBC. He noted that production is constrained by limited capacity for the company’s A-series and M-series system-on-chip (SoC) chips, which are fabricated on TSMC’s 3nm process.　　In addition, it also aims to maintain at least two suppliers for key components, allowing Apple to strengthen its negotiating leverage on pricing while reducing the risk of supply disruptions, Bloomberg adds.　　Apple’s Reported Supplier Talks May Open Door for Intel Comeback, Samsung Gains　　Apple’s talks with both companies reportedly began before the most recent supply constraints emerged. As Bloomberg notes, collaborating with Intel could offer an added advantage, potentially strengthening Apple’s ties with the Donald Trump administration. As for Samsung, the report indicates that it has already been working on supplying more peripheral components for Apple’s devices, including power management parts.　　In an August 2025 press release, Apple also announced a partnership with Samsung to co-develop a new chip manufacturing technology at Samsung’s Austin fab. Citing industry sources, Business Korea adds that the chip Samsung is expected to produce will likely be used as an image sensor in future iPhones and other Apple products.　　Separately, industry momentum appears to be building around Intel’s foundry push. According to Commercial Times, major tech firms including Google and Apple are weighing a shift to Intel’s foundry. The report adds that Apple’s M-series chips are evaluating Intel’s 18A-P node.　　Apple’s potential shift could provide a boost to both Samsung and Intel. As the report notes, securing external customers for its foundry business is central to Intel’s turnaround strategy under CEO Lip-Bu Tan. Winning Apple as a client would mark a major milestone for Tan and could help draw in additional business. Samsung, meanwhile, would also stand to gain significantly from an endorsement by Apple.

Key word：

Apple

Release time：2026-05-06 14:44 reading：392 Continue reading>>

Trade news

MicroLED Gains Focus as Seoul Semiconductor Plans $180M AR Investment, Aledia Reports Breakthrough

　　Amid mounting margin pressure and slowing growth in the LED industry, players are moving beyond traditional segments in search of new momentum, with MicroLED emerging as a key focus. According to MicroLED-info, Seoul Semiconductor plans to invest KRW 250 billion (around $180 million) over the next five years, primarily in the R&D and production of microLED microdisplay modules for AR applications.　　The report suggests that the company has embarked on a government-approved restructuring plan as its core LED package business faces mounting pressure from falling prices and weakening profitability. Under the initiative, the new displays will be built on Seoul Semiconductor’s proprietary WICOP (Wafer Integrated Chip on PCB) technology, the report adds.　　As noted by Maeil Ilbo, founded in 1992, Seoul Semiconductor supplies LED packages across lighting, automotive, and IT, and holds about a 4.8% global share in the optoelectronics market. Despite its proprietary wire-free WICOP technology, the company has come under pressure from persistent price declines and softer demand, weighing on margins, the report explains.　　French MicroLED Startup Achieves Key Milestone　　On the other hand, French startup Aledia, according to MicroLED-info, has successfully demonstrated a fully functional monolithic RGB epitaxial wafer, marking a key milestone for the technology. The achievement validates the company’s end-to-end monolithic RGB process, enabling red, green, and blue emission from a single epi wafer fabricated in a single run, the report notes.　　According to the company, its proprietary nanowire-based architecture can grow nanowires in a single processing step, with diameters ranging from 100 nm to 400 nm depending on the target wavelength, enabling full RGB capability within one unified structure.　　On device performance, the company demonstrated a 2.5 μm sub-pixel pitch—equivalent to a 5.0 μm × 5.0 μm pixel size—and outlined a roadmap to further shrink this to 2.0 μm for both monochrome and monolithic RGB displays, MicroLED-info suggests.　　In parallel, Aledia has validated its 9V microLED devices on 200 mm silicon wafers, including 15×30 μm blue emitters on the same platform. The company also confirmed the commercial availability of its 3D-Nano microLED technology built on 200 mm silicon in February, the report adds.

Key word：

Optical Semiconductors

Release time：2026-04-27 10:39 reading：499 Continue reading>>

Trade news

Murata launches vibration sensor device for predictive maintenance capable of detecting high-frequency range up to 20 kHz

　　Murata Manufacturing Co., Ltd. announces the SMD-type vibration sensor device PKGM-210D-R. Mass production has already begun.　　In the factory automation (FA) industry, maintenance has traditionally consisted of scheduled maintenance at fixed intervals and corrective maintenance after failures.　　In recent years, however, predictive maintenance, which detects early signs of failure to prevent unexpected equipment stoppages, has become increasingly important. In rotary machinery such as bearings and motors, component damage or insufficient lubrication generates minute abnormal vibrations in the high-frequency range up to 20 kHz before failures become serious. Measuring such high-frequency vibrations is challenging due to interference from noise, and detection has often relied on the experience of skilled technicians using auditory inspection.　　By combining its long-established piezoelectric ceramic vibration detection technology with advanced circuit packaging expertise, Murata has developed the PKGM-210D-R, capable of detecting vibrations up to 20 kHz, the upper limit of the audible range. This enables detection of subtle high-frequency abnormal vibrations that were previously identified only by human hearing.　　The product supports early prediction of equipment issues, helping to reduce downtime, optimize maintenance timing, extend component life, and minimize excess inventory. In addition, its compact size of 0.20 × 0.20 × 0.14 inches (5.0 × 5.0 × 3.5 mm) allows easy retrofitting to existing equipment or direct integration into motor components.　　Key features:　　Z-axis direction detection up to 20 kHz　　Compact size (0.20 × 0.20 × 0.14 inch / 5.0 × 5.0 × 3.5 mm) for easy retrofit and built-in mounting　　Built-in driver and filter circuits　　Versatile single analog output　　Built-in temperature sensor

Key word：

Murata

Release time：2026-03-19 17:06 reading：630 Continue reading>>

Trade news

Renesas Announces General Availability of Renesas 365

　　Renesas Electronics Corporation (TSE: 6723), a premier supplier of advanced semiconductor solutions, today announced the general availability of Renesas 365, Powered by Altium, an intelligent, model-based platform that integrates device exploration, model-based system development and early concept validation on a single unified platform. Built on a cloud environment, Renesas 365 is an industry-first platform designed to bring silicon and systems together across an open ecosystem at scale.　　In modern embedded design, engineers often struggle with disconnected workflows, manual component searches and limited system-level awareness. Renesas 365 directly addresses such challenges by connecting previously isolated tools such as embedded software files, datasheets and application notes into a streamlined, cloud-managed platform. With Renesas 365, engineering teams can collaboratively explore architectures, co-develop hardware and software and make system-level design decisions backed by real-time insights.　　Following its concept introduction, Renesas is now launching the first phase of Renesas 365 by integrating over 550 variants of the RA family of microcontrollers (MCUs), an industry-leading Arm®-based MCU portfolio together with a full suite of development tools.　　Using model-based evaluation and optimization technology, engineers can now rely on Renesas 365 as an intelligent design environment that actively assists with selecting the right MCU based on full system requirements. Rather than filtering datasheets in isolation, engineers receive guided recommendations informed by pin usage, peripherals, timing, power and how devices align with system building blocks. This means tasks that typically take an engineer an hour reviewing data sheets and tool requirements can now be accomplished in minutes, dramatically reducing evaluation time. This system-level intelligence accelerates design convergence, minimizes downstream rework and enables faster time to market while supporting more robust, efficient and cost-effective embedded designs.　　“The general availability of Renesas 365 marks a pivotal milestone in realizing Renesas’ Digitalization Vision,” said Gaurang Shah, Vice President and General Manager of Embedded Processing at Renesas. “By delivering the first phase of an intelligent design environment that supports early-stage development, we are laying the groundwork for the next phase, where hardware and software subsystem elements will be maintained within Renesas 365. This helps our customers build, scale and sustain next-generation software-defined products faster and at lower cost.”　　Together with the e²studio integrated development environment (IDE), Flexible Software Package (FSP) and smart documentation, engineers can leverage integrated design workflows specifically created for RA MCU devices, including sensing, power management and compiler support.　　Key features of Renesas 365 include:　　Model-based component and system exploration, discovery and selection　　Digital continuity across systems, hardware and software workflows　　AI-assisted guidance on design constraints, resource management, and error resolution　　Over-the-air (OTA) device management for RA MCUs　　Existing customers can link their current projects in e²studio with Renesas 365 and start using the platform immediately, while developers starting a new project are guided through system-level component and solution discovery to identify compatible devices and evaluate feasibility. This system-level context awareness significantly accelerates early-stage development and reduces iterations.　　Digitally Connected Hardware and Software Configurations　　As engineers make modifications to their system, the platform automatically records iterations and connects them with system-level design elements so teams can revisit any previous hardware and software configurations. With a context-aware smart system, Renesas 365 helps identify resource or design constraints, suggests resolutions and assists teams to make design decisions with fewer iterations and confidence. Moreover, Renesas 365 lets customers manage and update RA-based devices even after initial design through an integrated over-the-air (OTA) capability.　　An Open Platform Built for Flexibility　　Renesas 365 is an open, scalable platform that mirrors how electronic systems are developed in the real world. Developers have the option to incorporate third-party components, sensors and partner tools directly into their system designs. This open approach allows teams to evaluate tradeoffs and consider mixed vendor architectures to customize solutions with integrated system-level context.　　Growing the Renesas 365 Ecosystem　　Now under development, the next phase of Renesas 365 will pave the way for completed subsystem building blocks to be modeled as platform-maintained components. As part of this effort, more Renesas product families will be supported, and the component ecosystem will include more third-party devices. Subsystem components such as peripheral configuration, power management and software will be automatically defined, maintained and validated for compatibility. With these customizable building blocks, customers will accelerate time to market, reduce engineering effort, and gain access to cutting-edge technologies.　　Renesas will showcase Renesas 365 at embedded world 2026 in Nuremberg in two separate locations.　　Renesas 365 Booth (Hall 4, Stand 305/4-305): Dedicated to the Renesas 365 solution, Booth 4-305 will feature live demonstrations on integrated RA workflows, model-based system exploration and intelligent validation.　　Renesas Booth (Hall 1, Stand 234/1-234): Showcasing products across Renesas’ comprehensive portfolio of leading-edge semiconductor solutions with presentations and demos.

Key word：

Renesas

Release time：2026-03-18 13:11 reading：849 Continue reading>>

model	brand	Quote
RB751G-40T2R	ROHM Semiconductor
CDZVT2R20B	ROHM Semiconductor
TL431ACLPR	Texas Instruments
BD71847AMWV-E2	ROHM Semiconductor
MC33074DR2G	onsemi

model	brand	To snap up
STM32F429IGT6	STMicroelectronics
BP3621	ROHM Semiconductor
TPS63050YFFR	Texas Instruments
ESR03EZPJ151	ROHM Semiconductor
BU33JA2MNVX-CTL	ROHM Semiconductor
IPZ40N04S5L4R8ATMA1	Infineon Technologies

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