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Samsung Collaborates with SEGA on New Sonic the Hedgehog PRO Plus microSD Cards

Samsung Electronics America, a world leader in advanced memory technology, has expanded its microSD portfolio with a line of new cards inspired by iconic characters from the Sonic the Hedgehog franchise, giving players an exciting new way to celebrate their fandom, while expanding their storage and powering ultra-fast gameplay. Created in collaboration with SEGA, the Sonic the Hedgehog PRO Plus microSDs will feature special designs depicting Knuckles (128 GB), Tails (256 GB), Sonic (512 GB) and Shadow (1 TB).

"Samsung PRO Plus microSD cards provide gamers, content creators and more with an easy, reliable, and secure way to store large amounts of data - delivering Sonic-speed right to your fingertips," said Jim Kiczek, Vice President of Memory Marketing at Samsung Electronics America. "Since debuting more than three decades ago, Sonic has become an icon of pop culture, featured in dozens of games, TV series, and movies. Now, with the Sonic the Hedgehog PRO Plus microSD cards, we're combining the franchise's instantly recognizable characters with the speed and reliability of Samsung PRO Plus microSDs to give your gear the ultimate Sonic boost."

Samsung Introduces Lunar Lake-powered Galaxy Book 5 Pro with 25 Hour Battery Life

Laptops powered by Intel's Lunar Lake family of processors have been seeping out slowly but steadily into the market. Samsung has no intention of sitting idle either, and has lifted the curtains on its Galaxy Book 5 Pro with an impressive AMOLED display and a battery life claim of a stupendous 25 hours. The laptop will be launched in South Korea on January 2, and a global rollout should follow thereafter.

Basically, the Book 5 Pro is the more affordable sibling of the Book 5 Pro 360. As the sharp-eyed amongst you may have already guessed, the Book 5 Pro does not feature the 360° hinge, which allowed the Book 5 Pro 360 to function as a convertible. Now, of course, a lot of people simply do not care about having convertible functionality, and the newly announced notebook is likely targeted at them.

Samsung The Premiere 8K Projector Launched

Samsung Electronics today announced that The Premiere 8K, the company's flagship premium projector, has received the industry's first 8K Association (8KA) certification for 8K projectors. This recognition underscores Samsung's leadership in projection technology while setting a new benchmark for the industry.

"The Premiere 8K receiving the industry's first 8KA certification is a major milestone as it officially demonstrates the new potential of projector technology." said Taeyoung Son, Executive Vice President of Visual Display Business at Samsung Electronics. "We are committed to expanding the 8K ecosystem by continuously and extensively integrating new technologies."

Google Announces Android XR

We started Android over a decade ago with a simple idea: transform computing for everyone. Android powers more than just phones—it's on tablets, watches, TVs, cars and more.

Now, we're taking the next step into the future. Advancements in AI are making interacting with computers more natural and conversational. This inflection point enables new extended reality (XR) devices, like headsets and glasses, to understand your intent and the world around you, helping you get things done in entirely new ways.

Unlock the Infinite Possibilities of XR With Samsung Galaxy AI

Imagine being able to step into any world in an instant—from the bustling streets of New York City to the snowy mountain tops of the Alps. These worlds are no longer merely places to observe from afar. They can now be explored and interacted with simply through a gaze, a gesture or your voice. What once seemed like science fiction has become a reality as eXtended reality (XR) transforms how we engage with the world around us.

XR is an umbrella term for technologies that use digital elements to extend or alter reality by merging the physical and digital worlds together. This includes virtual reality (VR), augmented reality (AR), mixed reality (MR) as well as other similar technologies yet to be developed. XR offers infinite possibilities, creating a dynamic spatial canvas where users' sight, sound and motion combine to interact with the outside world. A world that will unlock unprecedented experiences across core areas of life, from working and learning to entertainment, gaming and even health and wellness.

Marvell Announces Custom HBM Compute Architecture for AI Accelerators

Marvell Technology, Inc. (NASDAQ: MRVL), a leader in data infrastructure semiconductor solutions, today announced that it has pioneered a new custom HBM compute architecture that enables XPUs to achieve greater compute and memory density. The new technology is available to all of its custom silicon customers to improve the performance, efficiency and TCO of their custom XPUs. Marvell is collaborating with its cloud customers and leading HBM manufacturers, Micron, Samsung Electronics, and SK hynix to define and develop custom HBM solutions for next-generation XPUs.

HBM is a critical component integrated within the XPU using advanced 2.5D packaging technology and high-speed industry-standard interfaces. However, the scaling of XPUs is limited by the current standard interface-based architecture. The new Marvell custom HBM compute architecture introduces tailored interfaces to optimize performance, power, die size, and cost for specific XPU designs. This approach considers the compute silicon, HBM stacks, and packaging. By customizing the HBM memory subsystem, including the stack itself, Marvell is advancing customization in cloud data center infrastructure. Marvell is collaborating with major HBM makers to implement this new architecture and meet cloud data center operators' needs.

Enterprise SSD Market Sees Strong 3Q24 Growth, Revenue Soars 28.6% on Surging Demand for High-Capacity Models

TrendForce's latest investigations found that the enterprise SSD market experienced significant growth in 3Q24, driven by robust demand from AI-related applications. Prices surged as suppliers struggled to keep pace with market needs, pushing overall industry revenue up by an impressive 28.6% QoQ. Demand for high-capacity models was especially strong, fueled by the arrival of NVIDIA's H-series products and sustained orders for AI training servers. As a result, the total procurement volume for enterprise SSDs rose 15% compared to the previous quarter.

Looking ahead to 4Q24, TrendForce forecasts a slowdown in enterprise SSD revenue as procurement demand begins to cool. Total procurement volume is expected to dip, with the peak buying period behind and server OEM orders being slightly revised downward. As shipment volume declines, overall industry revenue is also projected to decrease in the fourth quarter.

Marvell Announces Breakthrough Custom HBM Compute Architecture to Optimize Cloud AI Accelerators

Marvell Technology, Inc., a leader in data infrastructure semiconductor solutions, today announced that it has pioneered a new custom HBM compute architecture that enables XPUs to achieve greater compute and memory density. The new technology is available to all of its custom silicon customers to improve the performance, efficiency and TCO of their custom XPUs. Marvell is collaborating with its cloud customers and leading HBM manufacturers, Micron, Samsung Electronics, and SK hynix to define and develop custom HBM solutions for next-generation XPUs.

HBM is a critical component integrated within the XPU using advanced 2.5D packaging technology and high-speed industry-standard interfaces. However, the scaling of XPUs is limited by the current standard interface-based architecture. The new Marvell custom HBM compute architecture introduces tailored interfaces to optimize performance, power, die size, and cost for specific XPU designs. This approach considers the compute silicon, HBM stacks, and packaging. By customizing the HBM memory subsystem, including the stack itself, Marvell is advancing customization in cloud data center infrastructure. Marvell is collaborating with major HBM makers to implement this new architecture and meet cloud data center operators' needs.

Quobly Announces Key Milestone for Fault-tolerant Quantum Computing

Quobly, a leading French quantum computing startup, has reported that FD-SOI technology can serve as a scalable platform for commercial quantum computing, leveraging traditional semiconductor manufacturing fabs and CEA-Leti's R&D pilot line.

The semiconductor industry has played a pivotal role in enabling classical computers to scale at cost; it has the same transformative potential for quantum computers, making them commercially scalable and cost competitive. Silicon spin qubits are excellent for achieving fault-tolerant, large-scale quantum computing, registering clock speeds in the µsec range, fidelity above 99% for one and two-qubit gate operations and incomparably small unit cell sizes (in the hundredths of 100 nm²).

Rivals Samsung and SK hynix Join Forces to Standardize LPDDR6-PIM Technology

Samsung Electronics and SK hynix are working together to standardize "Low Power Double Data Rate 6 (LPDDR6) - Processing in Memory (PIM)" technology according to a report from Business Korea. This collaboration seeks to accelerate the development of low power memory products. The cooperation is still in its early stage, the companies initial work is focused on registering the standard with the Joint Electron and Device Engineering Council (JEDEC). Discussions are underway to determine technical requirements, specific characteristics of LPDDR with PIM, such as "internal bandwidth"—the data transfer rate within the memory, unlike the "external bandwidth" between the processor and memory in traditional systems. According to a Samsung Electronics representative, the two companies are in the process of developing a timeline for standardization.

This partnership is notable given how Samsung and SK hynix compete in the high-bandwidth memory (HBM) market. SK hynix beat Samsung in profits reporting 7.3 trillion won in the third quarter, while Samsung made 3.86 trillion won. However, the rise of AI with its increased demand for more memory has shaken up the scene pushing for teamwork instead of wasting resources in developing completely different and unstandardized products. Both firms see PIM technology as a way to grow, previous attempts to independently develop PIM products include Samsung's HBM and LPDDR5-PIM and SK hynix's GDDR6-PIM.

Tenstorrent Closes $693M+ of Series D Funding Led by Samsung Securities and AFW Partners

Santa Clara, CA: Tenstorrent is announcing that it has closed over $693M in its Series D funding round at a pre-money valuation of $2B. Samsung Securities and AFW Partners led the round, which was oversubscribed due to strong demand from investors. Samsung and AFW both have deep relationships with Tenstorrent, and a strong history of investing in pioneering technology companies.

In addition to the leads, many notable investors joined the round including XTX Markets, Corner Capital, MESH, Export Development Canada, Healthcare of Ontario Pension Plan, LG Electronics, Hyundai Motor Group, Fidelity, Baillie Gifford, Bezos Expeditions, and more.

Samsung Electronics Announces New Leadership

Samsung Electronics today announced new leadership for the next phase of the Company's growth and to strengthen its future competitiveness, focusing on the semiconductor business.

Young Hyun Jun, Vice Chairman and Head of Device Solutions (DS) Division, was named CEO and will also become the Head of Memory Business and Samsung Advanced Institute of Technology. Jinman Han was promoted to President and will become the Head of Foundry Business, while Seok Woo Nam will become Chief Technology Officer of Foundry Business, a newly-created position.

Netlist Wins $118 Million in Second Patent Infringement Trial Against Samsung

Netlist, Inc. today announced that it won a $118 million damages award against Samsung Electronics Co., LTD., Samsung Electronics America, Inc., and Samsung Semiconductor, Inc. (together "Samsung") in the United States District Court for the Eastern District of Texas. The award resulted from a jury trial which involved three Netlist patents: U.S. Patent Nos. 7,619,912, 11,093,417 and 10,268,608. The infringing products were all Samsung DDR4 RDIMMs and DDR4 LRDIMMs. Netlist filed the complaint against Samsung in August 2022.

The federal jury's unanimous verdict confirmed that all three Netlist patents had been infringed by Samsung, that none of the patents were invalid, that Samsung willfully infringed those patents, and that money damages were owed to Netlist for the infringement of all three patents.

Server DRAM and HBM Boost 3Q24 DRAM Industry Revenue by 13.6% QoQ

TrendForce's latest investigations reveal that the global DRAM industry revenue reached US$26.02 billion in 3Q24, marking a 13.6% QoQ increase. The rise was driven by growing demand for DDR5 and HBM in data centers, despite a decline in LPDDR4 and DDR4 shipments due to inventory reduction by Chinese smartphone brands and capacity expansion by Chinese DRAM suppliers. ASPs continued their upward trend from the previous quarter, with contract prices rising by 8% to 13%, further supported by HBM's displacement of conventional DRAM production.

Looking ahead to 4Q24, TrendForce projects a QoQ increase in overall DRAM bit shipments. However, the capacity constraints caused by HBM production are expected to have a weaker-than-anticipated impact on pricing. Additionally, capacity expansions by Chinese suppliers may prompt PC OEMs and smartphone brands to aggressively deplete inventory to secure lower-priced DRAM products. As a result, contract prices for conventional DRAM and blended prices for conventional DRAM and HBM are expected to decline.

Samsung Prepares World's First 27-Inch 500 Hz QD-OLED Gaming Display

Samsung Display has reportedly developed the world's first 27-inch OLED panel capable of a 500 Hz refresh rate at 2560x1440p resolution. The new panel utilizes Samsung's QD-OLED (Quantum Dot OLED) technology, which combines the color accuracy of Quantum Dots with the contrast and responsiveness of OLED displays. The panel is nearing the end of its development phase, and Samsung is reportedly in discussions with leading monitor manufacturers, aiming to introduce products featuring the panel to the market by mid-2025. This development adds to the growing competition in the gaming display market. For example, Chinese company Light Soul is preparing to release a 27-inch QD-OLED monitor with 4K resolution, a 240 Hz refresh rate, and a peak brightness of 1000 nits. Meanwhile, LG plans to launch a 45-inch monitor model featuring a 5120x2160 WOLED panel.

Across the industry, OLED is being transformed using various technologies, and every panel maker, including Samsung and LG, wants to stay ahead of the curve with high-refresh, high-color accuracy panels. The high-refresh-rate market is currently led by LG UltraGear 27GX790A-B and ASUS ROG Swift PG27AQDP 1440p monitors that max out at 480 Hz. While e-sports players might need the extra 20 Hz, regular users surely wouldn't notice the extra refresh. Nonetheless, it is interesting to see that OLED is getting lots of love in the coming year, and the constant development of it will not stop. We

Applied Materials Breakthrough To Bring OLED Displays to Tablets, PCs and TVs

Applied Materials, Inc. today introduced the MAX OLED solution, a patented OLED pixel architecture and revolutionary display manufacturing technology designed to bring the superior OLED displays found in high-end smartphones to tablets, PCs and eventually TVs.

OLED is the display technology of choice for the world's leading smartphone manufacturers because it offers superior display quality, light and flexible form factors, and durability. However, until today, it has proven challenging to scale OLED display manufacturing to the larger glass panels used to make displays for tablets, PCs and TVs.

Samsung Reaches Key Milestone at New Semiconductor R&D Complex

Samsung Electronics Co., Ltd. today announced that it held a tool-in ceremony for its new semiconductor research and development complex (NRD-K) at its Giheung campus, marking a significant leap into the future. About 100 guests, including those from suppliers and customers, were in attendance to celebrate the milestone. As a state-of-the-art facility, NRD-K broke ground in 2022 and is set to become a key research base for Samsung's memory, system LSI and foundry semiconductor R&D. With its advanced infrastructure, research and product-level verification will be able to take place under one roof. Samsung plans to invest about KRW 20 trillion by 2030 for the complex in an area covering about 109,000 square meters (m²) within its Giheung campus. The complex will also include an R&D-dedicated line scheduled to begin operation in mid-2025.

"NRD-K will bolster our development speed, enabling the company to create a virtuous cycle to accelerate fundamental research on next generation technology and mass production. We will lay the foundation for a new leap forward in Giheung, where Samsung Electronics' 50-year history of semiconductors began, and create a new future for the next 100 years," said Young Hyun Jun, Vice Chairman and Head of the Device Solutions Division at Samsung Electronics.

Samsung Showcases Pioneering Innovations for AI and Automotive Technologies

Samsung's booth at electronica 2024 will provide an immersive experience that embodies the dynamic intersection of human imagination and cutting-edge technology. Visitors will experience firsthand how Samsung is shaping the future of innovation through semiconductor and display technologies. The exhibition will showcase multiple products and demos across various domains, demonstrating the company's commitment to realizing the true potential of AI and unlocking new possibilities in industries ranging from automotive to consumer electronics.

Samsung's Second-Gen 3 nm GAA Process Shows 20% Yields, Missing Production Goals

Samsung's latest semiconductor manufacturing technology is falling short of expectations, as the company struggles to achieve acceptable production rates for its cutting-edge 3 nm chips. The latest rumors indicate that both versions of Samsung's 3 nm Gate-All-Around (GAA) process produce fewer viable chips than anticipated. The initial targets set by the South Korean tech giant were aimed at a 70% yield rate in volume production. However, the first "SF3E-3GAE" iteration of the technology has only managed to achieve between 50-60% viable yield output. More troubling is the performance of the second-generation process, which is reportedly yielding only 20% of usable chips—a figure that falls dramatically short of production goals. The timing is particularly challenging for Samsung as major clients begin to reevaluate their manufacturing partnerships.

Qualcomm has opted to produce its latest Snapdragon 8 Elite processors exclusively through rival TSMC's 3 nm facilities. Even more telling is the exodus of South Korean companies, traditionally loyal to Samsung, who are now turning to TSMC's more reliable manufacturing processes. While Samsung can claim the achievement of bringing 3 nm GAA technology to market before TSMC's competing N3B process, this technical victory rings hollow without the ability to mass-produce chips efficiently. The gap between Samsung's aspirations and manufacturing reality continues to widen. However, Samsung is shifting its focus toward its next technological milestone. Development efforts are reportedly intensifying around a 2 nm manufacturing process, with plans to debut this technology in a new Exynos processor (codenamed 'Ulysses') for the 2027 Galaxy S27 smartphone series.

Samsung Hopes PIM Memory Technology Can Replace HBM in Next-Gen AI Applications

The 8th edition of the Samsung AI Forum was held on November 4th and 5th in Seoul, and among all the presentations and keynote speeches, one piece of information caught our attention. As reported by The Chosun Daily, Samsung is (again) turning its attention to Processing-in-Memory (PIM) technology, in what appears to be the company's latest attempt to keep up with its rival SK Hynix in this area. In 2021, Samsung introduced the world's first HBM-PIM, the chips showing impressive gains in performance (nearly double) while reducing energy consumption by almost 50% on average. PIM technology basically adds the processor functions necessary for computational tasks, reducing data transfer between the CPU and memory.

Now, the company hopes that PIM memory chips could replace HBM in the future, based on the advantages this next-generation memory technology possesses, mainly for artificial intelligence (AI) applications. "AI is transforming our lives at an unprecedented rate, and the question of how to use AI more responsibly is becoming increasingly important," said Samsung Electronics CEO Han Jong-hee in his opening remarks. "Samsung Electronics is committed to fostering a more efficient and sustainable AI ecosystem." During the event, Samsung also highlighted its partnership with AMD, which reportedly supplies AMD with its fifth-generation HBM, the HBM3E.

Apple and Samsung in the Fray to Acquire Intel: Rumor

Apple and Samsung are reportedly in the fray to acquire Intel, according a spectacular rumor cited by Moore's Law is Dead. This would put the list of companies looking to acquire Intel at 3—Apple, Samsung, and Qualcomm. All three are Arm licensees, with unique characteristics. Apple currently has an Arm-based SoC hardware division that makes custom chips for all its devices, including Macs. Samsung would go on to be an overseas parent company for an American heritage company like Intel, but something like this is not unheard of when you consider examples such as Boston Dynamics being acquired by Hyundai Motors, or Westinghouse Nuclear's acquisition by Japan's Toshiba, before changing hands to Canadian Bookfield Partners. Then there's Qualcomm—the American company is having a bit of a falling out with Arm, and the prospect of owning the x86 IP should be tempting.

Intel retains large amounts of market-share in both the PC processor and server processor markets, however, the company's stock price has been on a downward trend for several quarters now, causing its valuation to drop to levels where any of the other big tech companies can afford to buy it out. The company spent close to $10 billion on a GPU architecture project spanning not just a contemporary graphics architecture to power the integrated graphics solutions of its PC processors, but also discrete gaming GPUs; and most importantly, an AI GPU architecture under the "Ponte Vecchio" project. Intel's Xe-HP AI GPU missed its performance targets or was too late to the market, leaving Intel with a gaping hole that it could only fill with a slew of cost-cutting measures. It doesn't help that Intel Foundry is losing its edge, and none of the logic tiles of Core Ultra "Arrow Lake" processor is made on an Intel foundry node.

Samsung Electronics Announces Results for Third Quarter of 2024, 7 Percent Revenue Increase

Samsung Electronics today reported financial results for the third quarter ended Sept. 30, 2024. The Company posted KRW 79.1 trillion in consolidated revenue, an increase of 7% from the previous quarter, on the back of the launch effects of new smartphone models and increased sales of high-end memory products. Operating profit declined to KRW 9.18 trillion, largely due to one-off costs, including the provision of incentives in the Device Solutions (DS) Division. The strength of the Korean won against the U.S. dollar resulted in a negative impact on company-wide operating profit of about KRW 0.5 trillion compared to the previous quarter.

In the fourth quarter, while memory demand for mobile and PC may encounter softness, growth in AI will keep demand at robust levels. Against this backdrop, the Company will concentrate on driving sales of High Bandwidth Memory (HBM) and high-density products. The Foundry Business aims to increase order volumes by enhancing advanced process technologies. Samsung Display Corporation (SDC) expects the demand of flagship products from major customers to continue, while maintaining a quite conservative outlook on its performance. The Device eXperience (DX) Division will continue to focus on premium products, but sales are expected to decline slightly compared to the previous quarter.

Samsung Plans 400-Layer V-NAND for 2026 and DRAM Technology Advancements by 2027

Samsung is currently mass-producing its 9th generation V-NAND flash memory chips with 286 layers unveiled this April. According to the Korean Economic Daily, the company targets V-NAND memory chips with at least 400 stacked layers by 2026. In 2013, Samsung became the first company to introduce V-NAND chips with vertically stacked memory cells to maximize capacity. However, stacking beyond 300 levels proved to be a real challenge with the memory chips getting frequently damaged. To address this problem, Samsung is reportedly developing an improved 10th-generation V-NAND that is going to use the Bonding Vertical (BV) NAND technology. The idea is to manufacture the storage and peripheral circuits on separate layers before bonding them vertically. This is a major shift from the current Co-Packaged (CoP) technology. Samsung stated that the new method will increase the density of bits per unit area by 1.6 times (60%), thus leading to increased data speeds.

Samsung's roadmap is truly ambitious, with plans to launch the 11th generation of NAND in 2027 with an estimated 50% improvement in I/O rates, followed by 1,000-layer NAND chips by 2030. Its competitor, SK hynix, is also working on 400-layer NAND aiming to have the technology ready for mass production by the end of 2025, as we previously mentioned in August. Samsung, the current HBM market leader with a 36.9% market share have also plans for its DRAM sector intending to introduce the sixth-generation 10 nm DRAM, or 1c DRAM by the first half of 2025. Then we can expect to see Samsung's seventh-generation 1d nm (still on 10 nm) in 2026, and by 2027 the company hopes to release its first generation sub-10 nm DRAM, or 0a DRAM memory that will use a Vertical Channel Transistor (VCT) 3D structure similar to what NAND flash utilizes.

Google's Upcoming Tensor G5 and G6 Specs Might Have Been Revealed Early

Details of what is claimed to be Google's upcoming Tensor G5 and G6 SoCs have popped up over on Notebookcheck.net and the site claims to have found the specs on a public platform, without going into any further details. Those that were betting on the Tensor G5—codenamed Laguna—delivering vastly improved performance over the Tensor G4, are likely to be disappointed, at least on the CPU side of things. As previous rumours have suggested, the chip is expected to be manufactured by TSMC, using its N3E process node, but the Tensor G5 will retain the single Arm Cortex-X4 core, although it will see a slight upgrade to five Cortex-A725 cores vs. the three Cortex-A720 cores of the Tensor G4. The G5 loses two Cortex-A520 cores in favour of the extra Cortex-A725 cores. The Cortex-X4 will also remain clocked at the same peak 3.1 GHz as that of the Tensor G4.

Interestingly it looks like Google will drop the Arm Mali GPU in favour of an Imagination Technologies DXT GPU, although the specs listed by Notebookcheck doesn't add up with any of the specs listed by Imagination Technologies. The G5 will continue to support 4x 16-bit LPDDR5 or LPDDR5X memory chips, but Google has added support for UFS 4.0 memory, something that's been a point of complaint for the Tensor G4. Other new additions is support for 10 Gbps USB 3.2 Gen 2 and PCI Express 4.0. Some improvements to the camera logic has also been made, with support for up to 200 Megapixel sensors or 108 Megapixels with zero shutter lag, but if Google will use such a camera or not is anyone's guess at this point in time.

Intel and Samsung to Form "Foundry Alliance" to Compete With TSMC, Notes Report

Last time we reported on Samsung Foundry, the company publicly apologized for its setbacks in the memory and foundry divisions, especially as its 3 nm GAA FET node has failed to attract new customers. On the other hand, Intel has also been struggling with its Foundry unit bleeding billions of Dollars in a bid to secure its spot as one of the best foundries for companies to manufacture their chips. There is no better pair than two struggling foundries looking for customers and new ways to conduct research than Intel and Samsung. According to an exclusive by South Korean media outlet "MK," it has reportedly been confirmed that Intel approached Samsung to form a "Foundry Alliance" to boost their foundry business units.

According to the source, Intel CEO Pat Gelsinger is reportedly eager to meet with Samsung Electronics Chairman Lee Jae-yong face-to-face to discuss "comprehensive collaboration in the foundry sector." What exactly will happen between the two is still unclear. Back in 2014, GlobalFoundries and Samsung formed a partnership for 14 nm FinFET offerings, and that was a wide success. Jointly developing a node and offering it in their foundry units could be the target goal for Intel and Samsung. At some level, research and development, as well as sharing valuable manufacturing information on yield improvements, should be beneficial for both to put together the final pieces of the semiconductor puzzle.
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