Eurocom is launching the highly upgradeable and customizable Nightsky RX415 Superlaptop with 15.6" display, Intel Core i7-13900HX processor, NVIDIA GeForce RTX 4070 or 4060 graphics, up to 64 GB DDR5-5600 memory and up to 16 TB of solid state storage.

"The EUROCOM Nightsky RX415 offers high level of customization and user upgradeability as part of Eurocom's design principles. It is heavy duty, yet lightweight with aluminium alloy chassis." Mark Bialic, Eurocom President said. "The EUROCOM Nightsky RX415 is designed for both professional users as well as gamers. Unlike any other laptop on the market it comes loaded with 10 physical ports providing unprecedented connectivity.M Mark Bialic, Eurocom President said. "With the Eurocom Trade in Program Customers can now get up to 25% off a brand new EUROCOM Nightsky RX415 with an eligible Trade-In."

At Snapdragon Summit, Qualcomm Technologies, Inc. today announced the most powerful computing processor it has ever created for the PC: Snapdragon X Elite. This groundbreaking platform ushers in a new era of premium computing by delivering a massive leap forward with best-in-class CPU performance, leading on-device AI inferencing, and one of the most efficient processors in a PC with up to multiple days of battery life. As AI transforms how we interact with our PCs, Snapdragon X Elite is designed to support the intelligent and power-intensive tasks of the future that will enable powerful productivity, rich creativity, and immersive entertainment experiences from anywhere.

"Snapdragon X Elite represents a dramatic leap in innovation for computing as we deliver our new, custom Qualcomm Oryon CPU for super-charged performance that will delight consumers with incredible power efficiency and take their creativity and productivity to the next level," said Kedar Kondap, Senior Vice President & General Manager of Compute & Gaming, Qualcomm Technologies, Inc. "Powerful on-device AI experiences will enable seamless multitasking and new intuitive user experiences, empowering consumers and businesses alike to create and accomplish more." PCs powered by Snapdragon X Elite are expected mid-2024.

YEYIAN GAMING, a leader in innovative pre-built gaming PCs, peripherals, and computer components, is thrilled to announce the market launch of eight new gaming desktop PCs powered by the latest INTEL Core i9/i7/i5 14th Gen unlocked CPUs. Four of the eight new models are available exclusively for purchase on Newegg. These newly launched models are meticulously crafted to redefine the gaming experience, catering to both professional gamers and avid enthusiasts alike.

The highlight of this remarkable launch is the fusion of INTEL 14th gen processors with NVIDIA RTX 4000 series graphics cards, culminating in an unparalleled gaming extravaganza that redefines the boundaries of what's possible in the gaming world.

Azza has introduced its new Cube 240 and Cube 360 liquid AIO coolers, compatible with Intel's upcoming LGA1851 socket for Arrow Lake processors. The new LGA1851 socket offers more contact pins than the previous LGA1700 socket, but it maintains the same dimensions and mounting spacing, allowing many existing coolers to remain compatibility. As we see with the latest Reddit post of the Azza Cube 360 installation manual, the LGA1851 socket will retain cooler compatibility with the current LGA1700 socket. For users planning to upgrade to the upcoming Arrow Lake platform, the cooler installation will be the least of their worries if their mounting brackets are compatible.

However, one notable change with LGA1851 is the higher maximum dynamic pressure, signifying increased mounting pressure from CPU coolers. But that only sometimes leads to new mounting mechanisms for coolers. In addition to Azza, Noctua's coolers, like NH-U12, have also confirmed signs of Arrow Lake support, as you can see here.

According to sources close to Reuters, NVIDIA is reportedly developing its custom CPUs based on Arm instruction set architecture (ISA), specifically tailored for the client ecosystem, also known as PC. NVIDIA has already developed an Arm-based CPU codenamed Grace, which is designed to handle server and HPC workloads in combination with the company's Hopper GPU. However, as we learn today, NVIDIA also wants to provide CPUs for PC users and to power Microsoft's Windows operating system. The push for more vendors of Arm-based CPUs is also supported by Microsoft, which is losing PC market share to Apple and its M-series of processors.

The creation of custom processors for PCs that Arm ISA would power makes the decades of x86-based applications either obsolete or in need of recompilation. Apple allows users to emulate x86 applications using the x86-to-Arm translation layer, and even Microsoft allows it for Windows-on-Arm devices. We are left to see how NVIDIA's solution would compete in the entire market of PC processors, which are expected to arrive in 2025. Still, the company could make some compelling solutions given its incredible silicon engineering history and performant Arm design like Grace. With the upcoming Arm-based processors hitting the market, we expect the Windows-on-Arm ecosystem to thrive and get massive investment from independent software vendors.

Thanks to the information from Windows Report, we have received numerous details regarding Qualcomm's upcoming Snapdragon Elite X chip for laptops. The Snapdragon Elite X SoC is built on top of Nuvia-derived Oryon cores, which Qualcomm put 12 off in the SoC. While we don't know their base frequencies, the all-core boost reaches 3.8 GHz. The SoC can reach up to 4.3 GHz on single and dual-core boosting. However, the slide notes that this is all pure "big" core configuration of the SoC, so no big.LITTLE design is done. The GPU part of Snapdragon Elite X is still based on Qualcomm's Adreno IP; however, the performance figures are up significantly to reach 4.6 TeraFLOPS of supposedly FP32 single-precision power. Accompanying the CPU and GPU, there are dedicated AI and image processing accelerators, like Hexagon Neural Processing Unit (NPU), which can process 45 trillion operations per second (TOPS). For the camera, the Spectra Image Sensor Processor (ISP) is there to support up to 4K HDR video capture on a dual 36 MP or a single 64 MP camera setup.

The SoC supports LPDDR5X memory running at 8533 MT/s and a maximum capacity of 64 GB. Apparently, the memory controller is an 8-channel one with a 16-bit width and a maximum bandwidth of 136 GB/s. Snapdragon Elite X has PCIe 4.0 and supports UFS 4.0 for outside connection. All of this is packed on a die manufactured by TSMC on a 4 nm node. In addition to marketing excellent performance compared to x86 solutions, Qualcomm also advertises the SoC as power efficient. The slide notes that it uses 1/3 of the power at the same peak PC performance of x86 offerings. It is also interesting to note that the package will support WiFi7 and Bluetooth 5.4. Officially coming in 2024, the Snapdragon Elite X will have to compete with Intel's Meteor Lake and/or Arrow Lake, in addition to AMD Strix Point.

Phytium, a Chinese semiconductor company that faced U.S. government sanctions from 2021, has introduced its latest data center processor, the 64-core Feiteng Tengyun S2500. Designed for cloud and high-performance computing applications, this processor features a large-capacity shared L3 cache, enhanced security capabilities for cloud servers, and improved memory subsystem reliability. The Feiteng Tengyun S2500 features 64 FTC661 cores developed by Phytium, which are based on Armv8 ISA. Reportedly, the CPU features 64 MB of L3 cache and 512 KB of L2 per core, bringing the total to 96 MB of processor cache. Compared to the previous generation line, the S2500 brings an L3 cache and TDP of 150 Watts, up from 90 Watts of previous generation.

This is Phytium's first new CPU in several years, raising questions about its production capacity and access to foundries, given its sanctions-related restrictions. It is currently unknown which foundry will manufacture the Feiteng Tengyun S2500, and we expect to hear more about it as (if) units get shipped. So far only display units have made appearance. Nonetheless, the company has continued its hardware development efforts and garnered interest in collaborating with Huawei to unify hardware and software ecosystems, which has yet to come to fruition.

To enable professionals worldwide to build and run AI applications right from their desktops, NVIDIA and AMD are powering a new line of workstations equipped with NVIDIA RTX Ada Generation GPUs and AMD Ryzen Threadripper PRO 7000 WX-Series CPUs. Bringing together the highest levels of AI computing, rendering and simulation capabilities, these new platforms enable professionals to efficiently tackle the most resource-intensive, large-scale AI workflows locally.

Bringing AI Innovation to the Desktop
Advanced AI tasks typically require data-center-level performance. Training a large language model with a trillion parameters, for example, takes thousands of GPUs running for weeks, though research is underway to reduce model size and enable model training on smaller systems while still maintaining high levels of AI model accuracy. The new NVIDIA RTX GPU and AMD CPU-powered AI workstations provide the power and performance required for training such smaller models, as well as local fine-tuning, and helping to offload data center and cloud resources for AI development tasks. The devices let users select single- or multi-GPU configurations as required for their workloads.

Intel's upcoming Meteor Lake processor family will see the light of the day in mobile version only, with a big re-brand of the Intel Core i naming structure. Slated for a December 14th launch, we are eager to see the official performance figures. However, we are in for a treat today as we have some early performance figures thanks to Geekbench. According to the GB5 run found by BenchLeaks, Intel's Core Ultra 9 185H CPU has appeared to show its configuration, early performance, and boost frequency that is reaching beyond the 5.0 GHz mark.

As the GB5 run suggests, Core Ultra 9 185H is a 16-core CPU with 22 threads, running at 2.5 GHz base frequency. There are six P-cores, eight E-cores, and two SoC-cores on the package of this SKU. During boost, the CPU can reach up to 5.1 GHz and was paired with 64 GB of DDR5 memory. Interestingly, the CPU scored 1849 points in single-threaded tests and 9832 points in multi-threaded tests, which currently doesn't beat top-end Intel mobile HX SKU like i9-13980HX. However, we estimate this was an early engineering sample, and the final product will be more performant.

EK, the leading manufacturer of premium liquid cooling gear, is excited to announce full compatibility of the EK-Quantum Velocity² D-RGB 1700 and Magnitude 1700 water blocks with the recently unveiled Intel 14th Gen Raptor Lake Refresh CPUs and the upcoming new Z790 motherboards. The Raptor Lake refresh series CPUs feature faster cores for improved multi-tasking, gaming, streaming, and more - up to 6 GHz, with an unmatched overclocking experience. Of course, a capable cooling solution is paramount for the CPU to boost to these high frequencies. This is where EK's Quantum water blocks come in.

The EK-Quantum Velocity² water blocks mark the first EK product series to feature EK-Matrix7 compatibility. Since its launch, this innovative product has garnered multiple design and performance accolades. These water blocks use a socket-specific cooling engine to ensure the best performance and optimal flow with low restrictions on every platform. Since the Z790X platform is based on the LGA1700 socket, the EK-Quantum Velocity² 1700 water blocks are fully compatible with the CPU socket and IHS geometry of Intel 14th Gen Core CPUs. The same goes for the EK-Quantum Magnitude 1700, which fits the Raptor Lake Refresh CPUs perfectly.

CORSAIR, a world leader in enthusiast components for gamers, creators, and PC builders, today announced its range-wide compatibility and readiness for Intel's new 14th Generation Intel Core processors. With a enormous range of tested and validated components such as DDR5 memory, all-in-one liquid CPU coolers, innovative and reliable power supplies, and blazing fast M.2 SSDs, you can be confident that CORSAIR components will pair exceptionally with the latest in Intel processors to help your PC reach its full potential.

The latest Core processors utilize Intel's new Performance Hybrid Architecture, featuring more efficiency-cores for the best gaming experience—even while streaming and encoding video. Other features, such as Intel Thread Director to keep background tasks from slowing down games and Smart Cache for smoother gameplay and faster load times, make 14th Gen Core processors a great choice for PC gaming. But it's not enough to just have the CPU; you need to complete your system with components that can keep up and tap into its full potential, and that's where CORSAIR comes in.

Ever since the creation of A64FX for the Fugaku supercomputer, Fujitsu has been plotting the development of next-generation CPU design for accelerating AI and general-purpose HPC workloads in the data center. Codenamed Monaka, the CPU is the latest creation for TSMC's 2 nm semiconductor manufacturing node. Based on Armv9-A ISA, the CPU will feature up to 150 cores with Scalable Vector Extensions 2 (SVE2), so it can process a wide variety of vector data sets in parallel. Using a 3D chiplet design, the 150 cores will be split into different dies and placed alongside SRAM and I/O controller. The current width of the SVE2 implementation is unknown.

The CPU is designed to support DDR5 memory and PCIe 6.0 connection for attaching storage and other accelerators. To bring cache coherency among application-specific accelerators, CXL 3.0 is present as well. Interestingly, Monaka is planned to arrive in FY2027, which starts in 2026 on January 1st. The CPU will supposedly use air cooling, meaning the design aims for power efficiency. Additionally, it is essential to note that Monaka is not a processor that will power the post-Fugaku supercomputer. The post-Fugaku supercomputer will use post-Monaka design, likely iterating on the design principles that Monaka uses and refining them for the launch of the post-Fugaku supercomputer scheduled for 2030. Below are the slides from Fujitsu's presentation, in Japenese, which highlight the design goals of the CPU.

Qualcomm is poised to significantly rebrand its PC chip lineup as it transitions from the existing 8cx series to the Snapdragon X Series, designed to differentiate its PC chips from Snapdragon processors in mobile devices. The new Snapdragon X Series will incorporate Qualcomm's Oryon CPU SKU, based on Nuvia's IP and praised for its advanced performance and power efficiency. In addition to the new CPU core, Qualcomm also plans to use a dedicated NPU for accelerating on-device AI applications. However, questions remain regarding the reactions of hardware partners, particularly in response to Qualcomm's request for proprietary power management integrated circuits (PMICs) to be used alongside Oryon SoCs.

This strategic rebranding also entails new logos and badges for the system, symbolizing the shift in the product lineup, and the company plans to introduce a simplified tiering structure for its PC ecosystem. Qualcomm currently holds a dominant position as an Arm-based SoC manufacturer for Windows-on-Arm devices. With this rebranding, Qualcomm hopes to position itself competitively in performance and in marketing as well, with established PC chip providers like AMD and Intel, potentially expanding Arm's market share in the PC industry. Further insights and details regarding the Snapdragon X Series will be revealed during the forthcoming Snapdragon Summit, scheduled from October 24 to 26.

Intel's next-generation Lunar Lake processor has appeared in the SiSoftware Sandra benchmarking suite, and the online database has revealed many details, thanks to a spotting by @Olrak29 of X/Twitter. Considering Intel's Meteor Lake is still two months away from its launch, the presence of Lunar Lake's benchmarks is indeed intriguing. Interestingly, Intel showcased a Lunar Lake laptop at the Intel Innovation 2023 event, and this SiSoft entry might be related to that demo. The data from SiSoft details the system as a "Genuine Inte l(R) 0000 1.00 GHz (5M 20c 3.91 GHz + 2.61 GHz, 3.3 GHz IMC, 4x 2.5 MB + 4 MB L2, 2x 8 MB L3)," hinting at a "Lunar Lake Client System (Intel LNL-M LP5 RVP1)." Deciphering these details, the Lunar Lake system adopts a 4+4 core configuration, utilizing a mix of Lion Cove and Skymont architecture cores tailored for performance and efficiency.

Moreover, the benchmark report pegs this CPU as a low-power laptop variant with a 17 W TDP. While it operates at a 1.0 GHz base frequency, it reached a speed of 3.91 GHz during the testing. However, these numbers should be taken cautiously since it's likely an engineering sample. Cache details are outlined, suggesting a 2.5 MB L2 cache per P-core, an added 4 MB L2 cache for E-cores, and a 16 MB L3 cache. No details on the integrated GPU were revealed, although it's anticipated that Lunar Lake will house Intel's Xe2-LPG graphics and LPDDR5 system memory. Intel has shared that Lunar Lake is scheduled for a 2024 release in mobile/laptop devices, targeting performance-per-watt leadership. Arrow Lake processors, catering to desktops, might share the core architecture and are anticipated to launch around the same timeframe.

GL.iNet unveiled its latest Wi-Fi 6 AX6000 home router, Flint 2 (GL-MT6000). Designed to fulfill scenarios such as heavy data transfers, hyper hundreds of device connections, and ultra-low latency gaming environments, this device is a modern home and office router capable of
high-performance demanding connectivity.

The Flint 2 is ideal for users with high speed, capacity, and stability requirements. With dual band AX6000, up to 160 MHz bandwidth, 4x4 MU-MIMO support, and eight high-power FEMs. Not only does the Flint 2 extend Wi-Fi coverage to meet the Wi-Fi 6 high-speed, along with the dual 2.5G ports, also allows this device to access 2.5G high-speed broadband with 2.5G intranet transmission capability easily.

The recent development of AI models that are more capable than ever has led to a massive demand for hardware infrastructure that powers them. As the dominant player in the industry with its GPU and CPU-GPU solutions, NVIDIA has reportedly discussed leasing data center space to power its own cloud service for these AI applications. Called NVIDIA Cloud DGX, it will reportedly put the company right up against its clients, which are cloud service providers (CSPs) as well. Companies like Microsoft Azure, Amazon AWS, Google Cloud, and Oracle actively acquire NVIDIA GPUs to power their GPU-accelerated cloud instances. According to the report, this has been developing for a few years.

Additionally, it is worth noting that NVIDIA already owns parts for its potential data center infrastructure. This includes NVIDIA DGX and HGX units, which can just be interconnected in a data center, with cloud provisioning so developers can access NVIDIA's instances. A great benefit that would attract the end-user is that NVIDIA could potentially lower the price point of its offerings, as they are acquiring GPUs for much less compared to the CSPs that receive them with a profit margin that NVIDIA imposes. This can attract potential customers, leaving hyperscalers like Amazon, Microsoft, and Google without a moat in the cloud game. Of course, until this project is official, we should take this information with a grain of salt.

AMD's Ryzen Threadripper Pro 7000 "Storm Peak" CPU series has not received any form of official announcement—we have relied solely on leaks to find out nitty-gritty details about Team Red's Zen 4-based follow-up to the Ryzen Threadripper Pro 5000 lineup. Pre-release samples have been landing online at an increased rate—courtesy of benchmark suite database leaks—with various news sites theorizing that AMD is preparing for an autumn launch window. This prediction is seemingly coming into focus, according to the latest information from insiders at AMD and connected supply chains.

Wccftech reckons that an October 19 launch day has been pencilled in: "Our sources have told us that AMD is all set to unveil its Ryzen Threadripper PRO 7000 CPU family on the 19th of October. This marks more than 1.5 years since the introduction of the Zen 3-based Ryzen Threadripper Pro 5000 CPUs. The new processors will once again be primarily positioned in the premium workstation segment with limited DIY availability. OEMs will be offering their pre-built designs along with DIY TRX50 motherboards from various manufacturers."

Tenstorrent, a company that sells AI processors and licenses AI and RISC-V IP, announced today that it selected Samsung Foundry to bring Tenstorrent's next generation of AI chiplets to market. Tenstorrent builds powerful RISC-V CPU and AI acceleration chiplets, aiming to push the boundaries of compute in multiple industries such as data center, automotive and robotics. These chiplets are designed to deliver scalable power from milliwatts to megawatts, catering to a wide range of applications from edge devices to data centers.

To ensure the highest quality and cutting-edge manufacturing capabilities for its chiplet, Tenstorrent has selected Samsung's Foundry Design Service team, known for their expertise in silicon manufacturing. The chiplets will be manufactured using Samsung's state-of-the-art SF4X process, which boasts an impressive 4 nm architecture.

By error, over the weekend Canada Computers published prices of upcoming Raptor Lake Refresh desktop CPUs—a competing national store, PC-Canada, also prematurely leaked placeholder charges midway through September. Analysis of last month's figures revealed a 4% (on average) price hike over equivalent 13th Gen Core predecessors, although that information could be out-of-date by now. The numbers released by Canada Computers (now removed from their searchable database) are alleged to be closer to the final article, since we are nearing Intel's October 16th launch day of higher-end 14th Gen Core SKUs, comprised of K and KF variants.

A VideoCardz reader, Kithana, managed to log all of the gory details prior to Canada Computers removing all traces of embargo-busting data. Their news section has pored over the numbers: "A quick check reveals that new SKUs are expected to see an increase ranging from 0% to 7%. Particularly noteworthy is the fact that the upcoming next-gen Core i5-14600KF is currently listed at the same price point as its predecessor, 13600KF, at $399 CAD. Notably, not present is the Core i9-14900K model on this list."

Intel's Core i5-14600K CPU was benchmarked mid-September, courtesy of ECSM getting their hands on some engineering samples—these examples were put under strain through Cinebench R23, Cinebench 2024, and CPU-Z suites. The ever reliable Benchleaks has kept track of mid-range Raptor Lake Refresh processor leaks—late last week they pointed to a new entry on Geekbench Browser. PC hardware news outlets have reported that reviewers now possess pre-release silicon, so we should be expecting an increase in leaky activity over the next fortnight—Intel's official embargo will likely be lifted on the 14th Gen Core launch day (October 17). Team Blue's Core i5-14600K has popped up a few times via Geekbench 6.2 results—TestKT's build was running on stock settings, and hit a maximum clock of 5.3 GHz (K and KF variants), with an ASUS Z790 TUF PLUS motherboard accompanied by 32 GB of DDR5-5200 memory, while an anonymous bencher fielded a system sporting a Gigabyte Z790 AORUS Master X mainboard and 48 GB DDR5-7600 RAM. The latter had some overclocking on the go; Geekbench 6.2 stats reported clocks reaching 5.7 GHz on the Core i5-14600K.

TestKT's stock 14600K achieved scores of 2819 in single-threaded, and 16666 multi-threaded. Their 14600KF scored 2779 and 16707 (respectively) on the same ASUS platform. The unnamed Gigabyte system wielder tallied 2861 (SC) and 17974 (MC) on an overclocked 14600K. VideoCardz noted that: "this represents a minor increase in single-core performance and approximately an 8% improvement in multi-threaded performance." They brought in a previously leaked higher-end CPU for comparative purposes: "Since the latter score is using the same (Gigabyte) system as in the Core i7-14700KF Geekbench leak, we can now conclude that Core i7 CPU will be at least 8% and 18% faster respectively than the Core i5 SKU. That's, of course, assuming both scores were using OC settings." We will have to wait until the publication of official reviews to find out whether these figures were produced on finalized silicon.

Acer today launched the company's first Chromebook Plus laptops, the Acer Chromebook Plus 515 and Acer Chromebook Plus 514, debuting with Google's Chromebook Plus initiative that offers a new tier of Chromebook performance, emphasizing better hardware designs with upgraded displays and cameras, and paired with new productivity, creativity, and multimedia capabilities.

The Acer Chromebook Plus 515 and Acer Chromebook Plus 514 both have the hardware and technology features customers need to stay productive, entertained and connected. These new models are powered by modern high-performance processors, and high-resolution IPS displays and 1080p crystal clear cameras flanked by narrow bezels to keep the focus on the vibrant visuals.

Intel did put a small spotlight on its upcoming 14th Gen Core "Raptor Lake Refresh" processor series at last week's Innovation event. This very brief aspect of their presentation has received only minor press coverage (in retrospect) since Team Blue did not do a great deal to publicize their "next-gen" release. In a pre-keynote segment on the second day of proceedings, an on-the-floor demonstration focused on AI-related virtual production methods. Craig Raymond, a Team Blue Technologist, showcased a workstation rig that deals with "meta-human" avatar plug-in for Unreal Engine.

Raymond pointed to a PC tower positioned under the work desk and introduced it as "running on our Raptor Lake Refresh right here," he continued: "so, we're showing off some of our brand new hardware for the first time, that is pre-launch, so we're giving everyone a first peek on what that really looks like." A grand total of 12 seconds was dedicated to 14th Gen Core during the second day livestream. They quickly moved onto previewing a Thunderbolt 5-equipped laptop that sat in the demo room. Intel is likely lining up a proper reveal of Raptor Lake Refresh SKUs closer to the expected October 17 launch of higher-end K and KF variants.

PC World's senior editor, Mark Hachman, managed to corner an important Team Blue staffer during this week's Innovation 2023 event, where Core Ultra "Meteor Lake" processors were presented in an official manner. This CPU family is set to arrive on December 14, but starting out only in mobile form—past leaks have yoyo-ed between rumored plans for desktop variants being alive or getting canned entirely. Michelle Johnston Holthaus—executive vice president and general manager of the Client Computing Group at Intel Corporation—confirmed to PC World in a video interview that Meteor Lake desktop SKUs are scheduled for launch next year. She elaborated on this slightly surprising declaration: "I want one processor family top to bottom for both segments, doesn't everybody?"

Exact details regarding release timings were not disclosed, but previous leaks have indicated that the rest of Intel's 14th Gen Core/Raptor Lake Refresh desktop lineup is due in early 2024—a product launch of 65 W TDP-rated SKUs could coincide with CES 2024. A "Meteor Lake-S" desktop CPU series is speculated to be placed mid-year, while the Arrow Lake generation is believed to be slated for late 2024. Reports have suggested that Meteor Lake has been delayed numerous times due to developmental setbacks—a leaked presentation slide seemed to show MTL-S SKUs (on socket LGA1851) being limited to 35 and 65 W TDPs, thus restricting the range to Core i3 and i5 product lines. Intel's new naming scheme—for the Meteor Lake generation—will assign "Core Ultra 5" instead of "Core i5" if new models land in the "Premium" processor bracket. We are not entirely sure where the future equivalent to "Core i3" will stick in the lower-end hierarchy, but the revised naming system suggests that it will only exist within Intel's "Mainstream" tier—so just a plain "Core 3," without any mention of Ultra performance or feature set.

Team Blue's marketing team has kicked into hype mode—Meteor Lake is launching at the tail end of 2023—with a shift in naming conventions comes another rebranding of internal technologies. The previously identified versatile processing unit (VPU) is now going under a different moniker: "Intel will usher in the age of the AI PC with the upcoming Intel Core Ultra processors, code-named Meteor Lake, featuring Intel's first integrated neural processing unit, or NPU, for power-efficient AI acceleration and local inference on the PC. Intel confirmed Core Ultra will launch Dec. 14." Michael Larabel, principal author at Phoronix, has noticed that newly updated versions of the Linux kernel have the "IVPU" accelerator driver bundled in. This will: "support Meteor Lake's VPU/NPU, while a patch is pending to extend that support for next-generation Arrow Lake processors."

In his opinion, there are some shared aspects across the two CPU generations: "Intel's Arrow Lake NPU appears very similar to that of Meteor Lake with the driver enablement coming down to adding new PCI IDs...(with) this patch adding the new Arrow Lake PCI IDs to the existing Meteor Lake driver code paths for this DRM accelerator driver is all that's needed to enable the VPU." Team Blue jumped two generations ahead at this week's Innovation event—Lunar Lake showed up in a live demo. Larabel believes that this late 2024 CPU family will revolve the dial to a greater degree: "The VPU/NPU with Lunar Lake brings more significant changes with the open-source driver changes already underway there. With Lunar Lake is the new VPU4 IP and the Linux 6.6 kernel with its updated IVPU driver already has initial support there."

The European Commission has re-imposed a fine of around €376.36 million on Intel for a previously established abuse of dominant position in the market for computer chips called x86 central processing units ('CPUs'). Intel engaged in a series of anticompetitive practices aimed at excluding competitors from the relevant market in breach of EU antitrust rules.

With today's decision, we are re-imposing a €376.36 million fine on Intel for having abused its dominant position in the computer chips market. Intel paid its customers to limit, delay or cancel the sale of products containing computer chips of its main rival. This is illegal under our competition rules. Our decision shows the Commission's commitment to ensure that very serious antitrust breaches do not go unsanctioned. - Commissioner Didier Reynders, in charge of competition policy