The European Commission has paid Intel €515.55 million ($536 million) in interest following the partial annulment of a 2009 antitrust fine. The payment comes after the General Court of the European Union overturned most of the original €1.06 billion penalty in 2022, leaving only €376 million of the fine intact. The court's ruling found significant flaws in the Commission's economic analysis of Intel's market practices between 2002 and 2007. At issue were Intel's volume-based rebates to computer manufacturers, which the Commission had claimed prevented fair competition with AMD in the x86 processor market. The General Court determined that regulators failed to adequately demonstrate the anti-competitive effects of these pricing strategies. EU antitrust commissioner Teresa Ribera confirmed the interest payment, which reimburses Intel for capital held by regulators during the 13-year legal proceedings.

The case began in 2009, with the Commission ruling that Intel had used its market position to restrict competitor access through targeted rebate programs in years prior. Intel challenged this decision in 2014, leading to multiple appeals before the 2022 judgment. The resolution establishes new parameters for proving anti-competitive behavior in the EU's tech sector oversight. The court's emphasis on rigorous economic analysis impacts ongoing and future competition cases, particularly regarding evaluating complex pricing mechanisms in the technology sector. The payment concludes one of the EU's longest-running competition law cases, though Intel continues to face regulatory scrutiny in multiple jurisdictions. The case's outcome has prompted discussion about the Commission's approach to economic evidence in competition proceedings and the duration of EU antitrust investigations. At the time of financial issues, more than half a billion US Dollars will help Intel resolve internal crises significantly.

AMD is set to share its fourth-quarter results on Tuesday, Feb. 4 facing opportunities and problems in the fast-changing AI chip market as investors are expected to look closely at AMD's AI strategy. Reuters reports that experts think AMD's revenue will increase by over 22% to $7.53 billion. They expect its data center part to make up more than half of total sales at $4.15 billion. Yet, investors still worry about how AMD stands in the AI race. TD Cowen experts and Omdia believe AMD could sell $10 billion worth of AI chips this year, this is twice what AMD itself thinks it will sell, which is $5 billion. However, the scene is getting more complex with Big Tech firms like Microsoft, Amazon, and Meta making their own special chips for AI work. This move to custom chips, along with NVIDIA's strong market position and its popular CUDA software, makes things tough for AMD. The high costs of switching chipmakers also make it hard for AMD to grow its share of the market, however, the ongoing increase in AI spending by tech giants could help balance out these problems. Investors see "customer silicon and NVIDIA as the AI chip market going forward," said Ryuta Makino, analyst at AMD investor Gabelli Funds.

Supply chain issues make AMD's position more difficult as TSMC is boosting its advanced packaging ability to fix bottlenecks, while NVIDIA's production increase of its new "Blackwell" AI chips might restrict AMD's access to manufacturing resources. Yet, AMD's business has some good news, its personal computer unit should grow by almost 33% to $1.94 billion catching up to Intel.

Intel has officially announced that its "Clearwater Forest" Xeon processor family will be arriving somewhere in the first half of 2026. During a recent earnings call, interim co-CEO—Michelle Johnston Holthaus—discussed Team Blue's product roadmap for 2025 and beyond: "this year is all about improving Intel Xeon's competitive position as we fight harder to close the gap to the competition. The ramp of Granite Rapids has been a good first step. We are also making good progress on Clearwater Forest, our first Intel 18A server product that we plan to launch in the first half of next year." Press outlets have (correctly) pointed out that Intel's "Clearwater Forest" Xeon processors were originally slated for release in 2025, so the company's executive branch has seemingly admitted—in a low-key manner—that their next-gen series is delayed. Industry whispers from last autumn posit that Team Blue foundries were struggling with their proprietary 18A (1.8 nm) node process—at the time, watchdogs predicted a postponement of "Clearwater Forest" server processors.

The original timetable had "Clearwater Forest" server CPUs arriving not long after the launch of Intel's latest line of "Sierra Forest" products—288-core models from the Xeon 6-series. The delay into 2026 could be beneficial—The Register proposes that "Xeons bristling with E-cores" have not found a large enough audience. Holthaus disclosed a similar sentiment (in the Q4 earnings call): "what we've seen is that's more of a niche market, and we haven't seen volume materialize there as fast as we expected." Despite rumors swirling around complications affecting chip manufacturing volumes, Intel's temporary co-leaders believe that things are going well. David Zinsner—Team Blue's CFO—stated: "18A has been an area of good progress...Like any new process, there have been ups and downs along the way, but overall, we are confident that we are delivering a competitive process." His colleague added: "as the first volume customer of Intel 18A, I see the progress that Intel Foundry is making on performance and yield, and I look forward to being in production in the second half, as we demonstrate the benefits of our world-class design."

Intel's freshly uploaded fourth-quarter 2024 "CEO/CFO earnings call comments" document has revealed grand CPU-related plans for 2025 and beyond. One of Team Blue's interim leaders—Michelle Johnston Holthaus—believes that "Nova Lake" processors (a next-generation client family) will arrive in 2026, following a comprehensive rollout of "Panther Lake" CPU products. This official timeline matches previously leaked and rumored development schedules—most notably, in a shipping manifest that was discovered last week. In recent times, industry watchdogs have linked "Nova Lake" to Intel's own 14A node and a TSMC 2 nm process node. Additionally, tipsters pointed to an apparent selection of Coyote Cove performance cores and Arctic Wolf efficiency-oriented cores.

Following yesterday's official announcements, a leaker shared several insights—theorized core configurations and manufacturing details were posted on the Hardware subreddit. Community members were engaged in a debate over Intel's "killing of Falcon Shore," but a plucky contributor—going under the moniker "Exist50"—redirected conversation to all-things "Nova Lake." They believe that Intel has shifted all "compute dies to TSMC" for manufacturing, after a change in plans—initial designs had the "8+16 die" on TSMC's N2P, and the "4+8 die on Intel 18A." Exist50 seemed to have inside track knowledge of product ranges: "Nova Lake (NVL) has a unified HUB/SoC die across mobile and desktop. So yeah, the baseline there is 4+8+4. But there's at least one more die for mobile." The flagship desktop (NVL-S or NVL-SK) chip's configuration could feature as many as sixteen performance cores and thirty-two efficiency cores, due to tile reuse—2x (8P+16E). Exist50 advised Intel CPU enthusiasts to forgo current generation offerings. "Nova Lake" should be: "quite a jump from Arrow Lake (ARL) in terms of MT performance, to say the least. I think anyone who buys ARL will end up regretting it, big time!"

Intel shared some news and updates about its upcoming CPU architectures during the Q4 earnings call. Intel confirmed that "Panther Lake", its next major CPU, is set to be released in late 2025. "Panther Lake" will use Intel's latest 18A manufacturing process and might be part of the Core Ultra 300 series. "Panther Lake" is rumored to combine next-generation "Cougar Cove" P-cores with existing "Skymont" E-cores both in the Compute complex, and in the SoC tile as low-power island E-cores. However, Intel hasn't confirmed if it will be available for desktop systems.

The following CPU architecture, "Nova Lake", is set to debut in 2026. Unlike "Panther Lake", we know "Nova Lake" will work on desktop computers. This suggests desktop users might need to wait until 2026 for an upgrade unless Intel surprises us with a desktop version of "Panther Lake" or an alternative option.

MAINGEAR, the leader in premium-quality, high-performance gaming PCs, today unveiled a variety of custom-configurable "50 Series" gaming desktops, featuring NVIDIA's newly revealed GeForce RTX 5080 and RTX 5090 GPUs. Available across seven gaming chassis options—MG-1, North, shroud, shroud Signature Edition, Rush, Force, and Zero, as well as all Workstations—these systems can be custom configured with NVIDIA GeForce RTX 50-series GPUs and the latest CPU options from AMD and Intel to set a new benchmark for desktop gaming performance and customization.

Building on the excitement from CES 2025, MAINGEAR's "50 Series" also introduces non-APEX configurations of the hot new Rush and Force desktops, featuring 360 mm and 420 mm AIO coolers respectively, instead of open loop liquid cooling. Additionally, customers can order Rush desktops with custom chassis artwork for unparalleled personalization - as seen at CES. Available custom designs include Machina, Night Drive and Good Fortune.

Corsair today launched the new edition of its celebrated Vengeance Gaming PCs, featuring NVIDIA GeForce RTX 50 Series graphics cards paired with Intel Core Ultra or AMD Ryzen 9000 Series processors. Powered by NVIDIA Blackwell, GeForce RTX 50 Series GPUs bring game-changing capabilities to gamers and creators. Equipped with massive level of AI horsepower, the RTX 50 Series enables new experiences and next-level graphics fidelity with full ray tracing, further reduces latency with Reflex 2 technology, multiplies performance with NVIDIA DLSS, generates images at unprecedented speed, and unleashes your creativity with NVIDIA Studio.

Vengeance PCs with GeForce RTX 50 Series GPUs are NVIDIA NIM-ready RTX AI PCs, supporting the latest NIM microservices—optimized AI models for language, speech, vision, content generation, and more. These systems enable enthusiasts and developers to build AI assistants, productivity plug-ins, and innovative content creation workflows with peak performance.

The U.S. Department of Energy's (DOE) Argonne National Laboratory has released its Aurora exascale supercomputer to researchers across the world, heralding a new era of computing-driven discoveries. With powerful capabilities for simulation, artificial intelligence (AI), and data analysis, Aurora will drive breakthroughs in a range of fields including airplane design, cosmology, drug discovery, and nuclear energy research.

"We're ecstatic to officially deploy Aurora for open scientific research," said Michael Papka, director of the Argonne Leadership Computing Facility (ALCF), a DOE Office of science user facility. "Early users have given us a glimpse of Aurora's vast potential. We're eager to see how the broader scientific community will use the system to transform their research."

Intel has released its latest version of the Arc GPU Graphics Drivers, version 101.6557 Beta. The latest update brings Game On Driver support for a couple of new games as well as improves performance in F1 24 and Sid Meier's Civilization VII games. The new driver update also fixes a single issue where the Intel Graphics Software may incorrectly report number of Xe Cores on certain Intel Arc B-series graphics cards.

According to Intel's release notes, the new driver update adds Game On driver support on Intel Arc B-series and A-series GPUs, and Intel Core Ultra CPUs with integrated Intel Arc GPUs, for Marvel's Spider-Man 2, Kingdom Come: Deliverance II, and Sid Meier's Civilization VII games. It also improves performance on Intel Arc B-series GPUs in F1 24 game (DX12) at High Settings by up to 15.1 percent at 1080p and by up to 12.1 percent at 1440p resolution. The performance uplift also comes to Intel Core Ultra Series 2 CPUs with integrated Intel Arc GPUs in F1 24 (DX12), by up to 12.3 percent at 1080p with Medium Settings, and in Sid Meier's Civilization VII (DX12) by up to 7.7 percent at 1080p with Medium Settings.

DOWNLOAD: Intel Arc GPU Graphics Drivers 101.6557 Beta

Intel's relatively new lineup of Arc B-series "Battlemage" desktop graphics cards consists of B580 and B570 GPUs—these affordable models have been warmly welcomed by reviewers and customers alike. PC hardware enthusiasts—with larger wallets—will be pondering over possible future launches of mid-tier or higher-end SKUs. Industry insiders have not picked up on much chatter regarding possible successors to Team Blue's mid-range Arc "Alchemist" A770 and A750 GPUs. The speculation machine has been fired up again, following the appearance of three new "Battlemage" PC IDs. Intel's Linux kernel has been updated with these new additions—as discovered by Tomasz Gawroński (aka GawroskiT), earlier today.

A brief sentence outlines "3 new PCI IDs for BMG," with no further or follow-up information included. Several industry watchdogs believe that Intel's graphics hardware division has moved on from creating new Xe2 "Battlemage" products—Team Blue representatives have officially admitted that their Xe3 "Celestial" architecture is complete, and its engineers have already started work on the Xe4 "Druid" GPU IP. Instead, the three new identifiers could be linked to a late December leak. At the time, Quantum Bits claimed that Arc B580 variants with larger pools of VRAM were in the pipeline—these "Arc Pro" cards are supposedly workstation-oriented models. Insiders reckon that a product launch is planned for later in 2025.

Intel executives are reportedly dealing with a major challenge that affects its portfolio of European manufacturing facilities—a recent RTÉ News article placed focus on Team Blue's Fab 34 site, located in Leixlip, Ireland. Energy costs are climbing across the globe, but inside sources believe that company leaders have expressed concern regarding the cost of powering the Irish facility. Last week's report posits that senior Intel figures are committed to keeping Fab 34 alive for a while—seemingly unaffected by a widespread cost-cutting initiative—this high-volume production site remains: "critical to its European operation for at least the next seven years."

Intel is reportedly already engaged in talks with the Irish government—likely negotiating over strategies that will lower its local energy bills in County Kildare. Additionally, other channels are—supposedly—being explored via the EU Chips Act. RTÉ News gathered comments from unnamed senior sources at the recently concluded Davos World Economic Forum—one individual stated that Ireland's (advantageous) lower labor costs are sharply offset by the higher cost of energy. The report claims that Team Blue: "estimates that in Ireland energy costs are 15 cent per kilowatt-hour, around double that in other markets where Intel operates." Fab 34's operating costs have been compared to similarly-equipped facilities in the USA and Israel. Executive sources believe that Ireland-specific problems stem from infrastructure backlogs in the renewable sector, and the fixed cost of delivering energy from offshore wind farms—the latter tends to pass expenses on to customers.

Intel has implemented substantial price cuts across its Xeon 6 "Granite Rapids" server processor lineup, marking a significant shift in its data center strategy. The reductions, quietly introduced and reflected in Intel's ARK database, come just four months after the processors' September launch. The most dramatic cut affects Intel's flagship 128-core Xeon 6980P, which saw its price drop from $17,800 by 30% to $12,460. This aggressive pricing positions the processor below AMD's competing EPYC "Turin" 9755 128-core CPU both absolute and per-core pricing, intensifying the rivalry between the two semiconductor giants. AMD's SKU at 128 cores is now pricier at $12,984, with higher core count SKUs reaching up to $14,813 for 192-core EPYC 9965 CPU based on Zen 5c core. Intel is expected to release 288-core "Sierra Forest" Xeon SKUs this quarter, so we can get an updated pricing structure and compare it to AMD.

Additionally, Intel's price adjustments extend beyond the flagship model, with three of the five Granite Rapids processors receiving substantial reductions. The 96-core Xeon 6972P and 6952P models have been marked down by 13% and 20% respectively. These cuts make Intel's offerings particularly attractive to cloud providers who prioritize core density and cost efficiency. However, Intel's competitive pricing comes with trade-offs. The higher power consumption of Intel's processors—exemplified by the 96-core Xeon 6972P's 500 W requirement, which exceeds AMD's comparable model by 100 W—could offset the initial savings through increased operational costs. Ultimately, most of the data center buildout will be won by whoever can serve the most CPU volume shipped (read wafer production capacity) and the best TCO/ROI balance, including power consumption and performance.

Intel tends to release exclusive desktop processor SKUs for the Chinese market, which tend to come with core configurations and other specs not found in regular SKUs available in the West. The latest such SKU is the Core Ultra 5 230F "Arrow Lake." This chip comes with a unique IHS (integrated heat spreader) design that sees the bulge over the die contracted to a corner. It still has the metal flanks that receive pressure from the socket's retention module. The chip is positioned a notch above the Core Ultra 5 225F, but with an identical core configuration of 6P+4E.

The China-exclusive Core Ultra 5 230F comes with clock speeds of 3.40 GHz base and 5.00 GHz boost for the P-cores, while its E-cores tick at 2.90 GHz base, and 4.40 GHz boost. In comparison, the generally available Core Ultra 5 225F does 3.30 GHz base and 4.90 GHz boost for the P-cores, and 2.70 GHz base with 4.40 GHz boost for the E-cores. Both the 230F and 225F lack integrated graphics. As non-K SKUs, both lack unlocked base frequency multipliers. Each of the six "Lion Cove" P-cores comes with 3 MB of dedicated L2 cache; while the sole "Skymont" E-core cluster shares 4 MB of L2 cache among its cores. The P-cores and E-core cluster share 20 MB of L3 cache. What's with the oddly shaped IHS? We have a theory. It's likely that the chip underneath has the same compact Compute tile as the "Arrow Lake-H" mobile processor, which physically only has 6P+8E cores and 24 MB of L3 cache. The modular nature of "Arrow Lake" also makes it possible for the Graphics tile to be physically absent on F-SKUs. We can't wait for someone to delid this chip.

Intel's Platform Engineering and Client Segments groups are actively looking into ways of reducing computer e-waste, and (in parallel) enhance product repairability. The company's newly proposed "Modular PC Design" is set to take a "sustainable approach" across three key modularity levels: factory, field and user. Team Blue's blog post goes into great detail about revised laptop and mini-PC designs—with the "right-to-repair" movement serving as a major influence. Many "consumer activists and environmental groups" have advocated for improvements in personal computer design—Intel appears to be listening, but a firm release timeline has not been set.

Intel's proposed new standards will revolve around repairability and upgradability—as explained in their blog: "the right-to-repair emphasizes the importance of being able to fix and upgrade PCs on one's own. Improving repairability requires fundamental changes starting from the design methodology." Team Blue's Modular PC program—for laptops—breaks away from the tradition of utilizing an "all-in-one motherboard." A reference diagram shows off three internal modules: a motherboard package and two "universal" left and right I/O units. These separate boards can be: "utilized across various platforms or market segments leads to cost savings by streamlining the duration of the design cycle and minimizing the engineering investment required. The I/O boards for Premium Modular designs are engineered to be common between the fan-less Thin & Light system, which operates within a 10 W power envelope, and the premium fanned designs, which function within a 20 W (single fan) and 30 W (dual fan, Wi-Fi only SKU) power envelope." Framework recently celebrated its fifth year of operation—its modular laptop designs have seemingly "inspired" a few copycats.

Intel today released the latest version of the Arc GPU Graphics Drivers. Version 101.6460 Beta comes with Game On day-zero optimization for "Final Fantasy VII Rebirth." It improves the performance in this game by up to 12.8% at 1080p with high settings, and up to 11.6% at 1440p with high settings, when tested with an Arc B580. On Core Ultra 200-series integrated graphics, the uplift can be up to 9% with medium settings at 1080p. The drivers fix no new issues, but identify several new teething problems with the Arc B-series GPUs that will be fixed in near-future driver releases.DOWNLOAD: Intel Arc GPU Graphics Drivers 101.6460

Intel's Core Ultra 3 205 processor's spec sheet appeared online for a short period of time—members of the Team Blue subreddit discovered an official product page (now removed) and other related details. In part, discussion focused on the alleged lower-end "Arrow Lake-S" (ARL-S) desktop CPU being "reserved for OEMs." Previously, this SKU's existence was leaked out at various points back in 2024. VideoCardz has kindly preserved the latest set of information, prior to its removal from Intel's official web presence—showing a potential new addition to the Core Ultra 200S (Series 2) lineup.

The Core Ultra 3 205 model appears to slot into a segment previously occupied by (now retired) budget-oriented Pentium and Celeron products—based on the specification sheet listing of a 57 W TDP (aligning with past ratings). The Maximum Turbo Power limit is 76 W. Team Blue has inadvertently revealed that this is an eight-core processor, comprised of four Lion Cove P-Cores and four Skymont E-Cores—so 8 (4P + 4E). The performance-oriented cores can (Max Turbo) boost up to 4.9 GHz, while the efficiency-focused units are capable of reaching up to 4.4 GHz. The on-board AI Boost NPU is rated for a peak rating of 13 TOPS (Int8). The Core Ultra 3 205's GPU seems to only utilize two out of the four available Arc Xe-LPG cores. The product page mentioned that the Core Ultra 3 205 is due for launch in Q1 2025, although the "Market Status = Launched" segment adds to the confusion surrounding this now de-listed SKU.

Fujitsu is a name that we hear less often nowadays, at least in the consumer technology sector. However, the prominent Japanese brand is by no means dormant, and has now unveiled a brand-new laptop that is shockingly light - in fact, it is the lightest laptop available on the market right now that features CoPilot+ functionality. Dubbed the FMV Note U, the ultra-light laptop tips the scales at just around 848 grams, which roughly equates to around 1.87 lbs.

The laptop is powered by the Intel Core Ultra 7 256V or 258V "Lunar Lake" processors, paired with 16 or 32 GB of LPDDR5X-8533 memory. The chip is plenty fast, and will easily suffice for almost any moderately intensive workload thrown its way. There is, unsurprisingly, no room for discrete graphics, which means the admirably performant Arc 140V iGPU has to bear all the weight for GPU tasks. A 64 Wh battery is also present, which, paired with Lunar Lake's commendable efficiency, should allow for decently long runtimes away from the wall.

Hua Hong Semiconductor (HHS) is China's second-largest chip manufacturer; trailing just behind its main rival: Semiconductor Manufacturing International Corporation (SMIC)—a recent recruitment drive has signalled the company's desire to advance further. Nikkei Asia believes that the recruitment of a former Intel executive—Bai Peng—will boost the development of logic chips, and in turn generate greater revenue. A late 2024 reshuffling of leadership positions produced a notable vacancy: company president—Bai Peng assumed this role, effective January 1. His career at Intel spanned three decades—by 2015 he became Team Blue's corporate vice president, although his tenure ended at some point in 2022 (according to a LinkedIn profile).

Industry watchdogs reckon that Hua Hong Semiconductor's freshly established chief will be tasked with advancing semiconductor production technologies. Peng's experience—being a former co-director of Logic Technology Development at the Intel Technology and Manufacturing Group—is cited as a crucial factor in diversifying the firm's product portfolio. HHS foundries produce a lot of 100+ nm-based designs—mostly in the fields of power semiconductors, analog chips, and embedded memory—but two locations are capable of churning out relatively complex silicon via a 40 nm process node. A new plant—based in Wuxi—is supposedly ready to push into sub-forty digits. The latest industry reports suggest that Peng and his colleagues will be focused on improving HSS's manufacturing processes—targeted advancements could open up new product lines: high-end enterprise and AI processors.

ASUS today announced the next-generation ASUS Chromebook CR series of laptops, tailored to meet the needs of K-12 students. The ASUS Chromebook CR series stands out as the ideal companion for students, whether engaged in in-person classroom learning or remote education. The rugged and modular design, featuring replaceable internal parts, guarantees both durability and longevity. With 11.6-inch or 12.2-inch Corning Gorilla Glass touchscreens and a 180° lay-flat or 360°-flippable hinge, the laptops offer flexibility for enriched educational experiences. This design fosters the adventurous mindset of modern students, ensuring an enjoyable and secure learning journey, whether they're engaging in online courses or in-class sessions - ready for every learning journey.

A trusted study partner
For K-12 students, an everyday-use laptop should be invincible. With lively and active users, scratches and knocks are an almost-inevitable part of their daily routine, so the ASUS Chromebook CR series features an all-round rubber bumper for extra peace of mind. The laptops also feature a rugged design that's tested to meet or exceed the MIL-STD-810H US military-grade standard, and use tough Corning Gorilla Glass to protect the touchscreen from scratches. Additionally, the spill-resistant keyboard can cope with minor water spills without harm, so minor splashes on the desk or at the dinner table can be easily drained, cleaned, and dried. Finally, the special fingerprint-resistant finish keeps the laptop cleaner for longer.

ASUS today announced the global launch of its latest education-focused laptops, the BR and CR series, at BETT 2025. Designed to address the evolving needs of modern classrooms, these devices combine upgraded performance, rugged durability and innovative features to empower K-12 students and educators in both in-classroom and hybrid learning environments.

ASUS BR series (BR1204CTA, BR1204FTA, BR1104CTA and BR1104FTA) and CR series (CR1104CTA, CR1104FTA, CR1204CTA, and CR1204FTA) are designed specifically for the needs of K-12 students, educators and IT administrators. Built with reliability and versatility in mind, these laptops enhance classroom learning by supporting diverse teaching methods, streamlining IT management, and empowering students with tools for creativity and collaboration. With new Intel processors, AI-powered features like Microsoft Copilot and thoughtful, student-centered designs, they are set to upgrade digital learning for the next generation.

ONIX has quietly added Intel Arc B580 GPU-based models to its Newegg brand store—signalling the brand's arrival on North American's e-tail landscape. TechPowerUp first picked up on this new manufacturer's existence during Team Blue's introduction of Arc B-series "Battlemage" graphics cards—soon followed up with an updated version of TechPowerUp GPU-Z; adding "PCI vendor detection for ONIX." The emerging Chinese manufacturer's Odyssey OC and Lumi OC models are currently "out of stock" on the Newegg store, but compelling pricing ($10 above Intel's baseline MSRP) has attracted press coverage.

It is not clear whether initial supplies of the two ONIX cards were snapped up quickly, but Newegg states on both listings: "this product is temporarily out of stock because of high demand, we will replenish it as soon as possible." Currently, the Arc B580 Odyssey OC 12 GB (black) model is priced at $259.99, while its Lumi OC (white) sibling goes for $269.99—note: Newegg demands a $9.99 fee for shipping. VideoCardz reckons that ONIX is competing closely with Sparkle—a veteran Intel GPU board partner—and charging less than GUNNIR for equivalent specs/fittings. ONIX's official website features a product page for an Odyssey B570 10 GB model—not listed by Newegg, but we expect it to turn up soon. Intel and its AIBs declared B570's retail availability last week.

Multiple sources say an unidentified corporation is exploring the complete acquisition of Intel Corporation, according to tech publication SemiAccurate. The report points to an internal memo shared among a small group of top executives at the unnamed firm. A high-level insider confirmed the memo's legitimacy last week, reinforcing speculation that a purchase of Intel may be under serious consideration. SemiAccurate's report indicates that the prospective buyer has enough financial resources to acquire Intel outright, considering the company's current market valuation. Notably, this potential buyer has not been publicly identified in previous discussions about Intel's future, suggesting that planning has occurred behind closed doors. The memo's limited circulation hints that executives treat the proposal cautiously rather than engaging in casual exploratory talks.

Any attempt to purchase Intel would require extensive regulatory review, given the company's role in producing semiconductors for both commercial and government applications. Regulators would likely evaluate issues related to national security, supply chain stability, and competitive impact in the global chip market. While neither Intel nor the unidentified acquirer has issued an official statement on the rumor, we are watching for any signals of formal negotiations. Intel has long been a strategic source of the US semiconductor sector, and its potential ownership change would have to be domestic. If a deal does materialize, it would stand among the largest transactions in the technology field.

Intel Foundry has announced the onboarding of new defense industrial base (DIB) customers, Trusted Semiconductor Solutions and Reliable MicroSystems, as part of the third phase of the Rapid Assured Microelectronics Prototypes - Commercial (RAMP-C) efforts under the Trusted & Assured Microelectronics (T&AM) Program in the Office of the Under Secretary of Defense for Research and Engineering (OUSD (R&E)). The RAMP-C project, awarded through the Strategic & Spectrum Missions Advanced Resilient Trusted Systems (S²MARTS) Other Transaction Authority (OTA), allows DIB customers to take advantage of Intel Foundry's leading-edge Intel 18A process technology and advanced packaging for prototypes and high-volume manufacturing of commercial and DIB products for the U.S. Department of Defense (DoD).

"We are very excited to welcome Trusted Semiconductor Solutions and Reliable MicroSystems to the RAMP-C project we are engaged in with the DoD. The collaboration will drive cutting-edge, secure semiconductor solutions essential for our nation's security, economic growth and technological leadership. We are proud of the pivotal role Intel Foundry plays in supporting U.S. national defense and look forward to working closely with our newest DIB customers to enable their innovations with our leading-edge Intel 18A technology," said Kapil Wadhera, vice president of Intel Foundry and general manager of Aerospace, Defense and Government Business Group.

The newly unveiled GMK G9 is not here to set any records in terms of raw performance. However, it does pack a different trick up its sleeve - impressive storage capabilities, allowing for its use as an affordable NAS. GMK has not revealed any price or availability details as of now, although Liliputing did manage to dig up a retailer listing which reveals that the G1 mini PC will start at an affordable $289 for the base variant with 12 GB of memory and no SSD storage, whereas the same unit with 512 GB of storage will command an extra $30.

The GMK G9 is powered by Intel's N150 processor - a slightly higher-clocked version of the N100, which packs a total of four cores and four threads, a boost clock of 3.6 GHz, and a modest 6-watt TDP. As mentioned previously, the G1 is by no means a performance system, and packs just enough computing grunt to function as a lightweight daily driver or a NAS. The system can be equipped with up to 12 GB of LPDDR5-4800 memory and 64 GB of eMMC storage. To justify its NAS credentials, the G1 packs a whopping four M.2 2280 slots, allowing for a maximum of 32 TB of SSD storage. The port selection is plenty decent as well, including a USB-C port, triple USB-A ports, dual HDMI ports, a 3.5 mm audio jack, and of course, dual 2.5G RJ-45 LAN ports. For the price and the features offered, the G1 sure does like a commendable choice for a nifty little home server.

Intel today released the latest version of the Arc GPU Graphics Drivers. Version 101.6458 WHQL comes with support for the new Arc B570 graphics card the company launched today. The drivers also add support for the Xe-LPG iGPU of Core Ultra 200H series "Arrow Lake-H" mobile processors. For Core Ultra 200-series iGPUs, the drivers add an up to 6.8% performance uplift in "Call of Duty: Black Ops 6." The drivers address an issue with "Indiana Jones and the Great Circle" where the game exhibits inconsistent performance and memory usage. "Shadow of the Tomb Raider" saw an intermittent application crash and display corruption in the game menu with XeSS enabled, which has been fixed. Grab the drivers from the link below.

DOWNLOAD: Intel Arc GPU Graphics Drivers 101.6458 WHQL