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AAEON Launch Multi-Touch Panel PCs Powered by Intel Processor N-series

Leading IPC provider AAEON today announced the release of two new Panel PCs: the ACP-2106, which features a 10" WXGA screen, and the ACP-2076, equipped with a 7" WSVGA Projected Capacitive Multi-Touch screen. Compared to its previous Panel PC offerings, both the ACP-2106 and ACP-2076 offer substantial improvements in processing power, with a choice of either the Intel Processor N50 or Intel Processor N97 CPU. Moreover, both new additions to the range support up to 32 GB of DDR5, compared to the 8 GB of DDR3L offered by the previous generation. With these improvements, the ACP-2106 and ACP-2076 are clearly designed for use in more advanced and taxing industrial and commercial applications, with retail and industrial automation thought to be primary target markets.

The ACP-2076 grants users a 7" display with 1024 x 600 resolution, while the ACP-2106's 10" screen offers a slightly higher resolution of 1280 x 800. Both PCs are also equipped with an HDMI 1.4b port, making them suitable for applications that require dual-display capabilities, such as smart kiosks. Both models also provide wide viewing angles and high brightness levels, with the ACP-2076 achieving 320 cd/m² and the ACP-2106 reaching 300 cd/m², ensuring consistent visibility in a variety of environments.

ASRock Intel Z890 Motherboard Series Pictured—OC Formula, Taichi, PG Nova, Steel Legend

ASRock has a pretty comprehensive lineup of upcoming Socket LGA1851 motherboards based on the top Intel Z890 chipset, which the company will launch alongside the new Intel Core Ultra 2-series "Arrow Lake-S" desktop processors later this month. The company's Z890 lineup has been leaked to the web by VideoCardz. The lineup covers nearly every brand extension by ASRock, addressing a wide category of PC users, from the entry level that just wants an office desktop to harness the CPU power of the new processors, to the two distinct classes of the enthusiast segment—one which overclocks, and the other that needs every possible premium I/O from this platform, with the bulk of the lineup targeting gaming PC builders across price-segments.

At the very top are ASRock Z890 Taichi OCF and the ASRock Z890 Taichi. The Taichi OCF is the spiritual successor to the OC Formula series by ASRock targeting professional overclockers. It has the strongest possible CPU VRM solution from the company, the largest selection of overclocker-friendly features, and a 1 DIMM per channel (1DPC) memory configuration, for the highest possible memory overclocks. The Taichi OCF has most if not all of the I/O goodies ASRock has to offer. For this, you'll have to seek out the regular ASRock Z890 Taichi, with its four DDR5 memory slots, nearly the same overclocking feature-set as the Taichi OCF, but some added toys, such as Thunderbolt 4. The Z890 Taichi Lite is an interesting product—it has nearly all features that place it into the high-end segment, such as that 8-layer PCB, a strong CPU VRM, and premium onboard audio, among others; but skips on the bulk of the dramatic flair of the Z890 Taichi.

Intel Confirms 13th Gen and 14 Gen Core Voltage Issues Fixed with 0x12B Microcode

Intel 13th Gen and 14th Gen Core processor models based on the 8P+16E "Raptor Lake" silicon are prone to an infamous bug that caused their performance and stability to irreversibly degrade over time due to excessive voltage. This was isolated to a faulty microcode. Intel responded to this by extending the warranty of affected processor models, and releasing a slew of CPU microcode updates encapsulated into motherboard UEFI firmware updates, through PC OEMs and motherboard vendors, with the latest such microcode update being 0x12B. There's good news—Intel extensively tested affected processor models and confirmed that the 0x12B microcode fixes this issue. It is crucial that you update your motherboard BIOS (UEFI firmware) to the latest version, which contains this microcode.

The Verge recently interviewed Intel spokesperson Thomas Hannaford on this topic, who stated that the company had identified four scenarios causing processors to irreversibly degrade, and had recommended mitigations to stable processors before the degradation set in, with the latest microcode update fixing all outstanding scenarios. If a processor is unstable (i.e. degradation has set in), the firmware update is of no use, and you should just get the processor replaced under warranty. Intel extended the warranty to cover even the very first purchases of affected processor models. "Yes, we're confirming this is the cause and that it is fixed," Intel spokesperson Thomas Hannaford tells The Verge.

Intel's Flagship 128-Core Xeon 6980P Processor Sets Record $17,800 Flagship Price

The title has no typo, and what you are reading is correct. Intel's flagship 128-core 256-threaded CPU Xeon 6980P compute monster processor carries a substantial $17,800 price point. Intel's Xeon 6 "Granite Rapids" family of processors appears to be its most expensive yet, with the flagship SKU now carrying more than a 50% price increase compared to the previous "Emerald Rapids" generation. However, the economics of computing are more nuanced than simple comparisons. While the last generation Emerald Rapids Xeon 8592+ (64 cores, 128 threads) cost about $181 per core, the new Granite Rapids Xeon 6980P comes in at approximately $139 per core, offering faster cores at a lower per-core cost.

The economics of data centers aren't always tied to the cost of a single product. When building total cost of ownership models, factors such as power consumption, compute density, and performance impact the final assessment. Even with the higher price of this flagship Granite Rapids Xeon processor, the economics of data center deployment may work in its favor. Customers get more cores in a single package, increasing density and driving down cost-per-core per system. This also improves operational efficiency, which is crucial considering that operating expenses account for about 10% of data center costs.

US Government to Allow Some Semiconductor Fabs to Circumvent Environmental Laws

According to a recent Reuters report, the US government, under Biden's administration, will allow a few criteria-matching semiconductor fabs to circumvent environmental protection laws. On Wednesday, President Joe Biden signed legislation that effectively enables these fabs to not follow the strict regulations designed for maximum preservation of the environment. The Semiconductor Industry Association has noted that without this new legislation, companies that are extending facilities on US soil would be significantly slowed down due to the National Environmental Policy Act (NEPA) of 1969. The CHIPS Act's primary force driver isn't just domestic production but near-future completion so that future geopolitical shifts don't impact US companies. The speed of getting permits to manufacture advanced chips is essential for every CHIPS Act recipient company, like Intel, Samsung, TSMC, and Micron.

Sid Meier's Civilization VII Gets Official PC Requirements

Firaxis Games has published full PC system requirements for the upcoming Sid Meier's Civilization VII strategy game that will be launched on February 11th next year, and it looks like it won't need a powerful hardware, at least unless you want to run it at 4K/UHD resolution and with high graphics preset. Unfortunately, Firaxis Games has not revealed any details regarding support for NVIDIA DLSS or AMD FSR, at least not yet.

According to details, you'll need at least an Intel Core i3-10100 or AMD Ryzen 3 1200 CPU, 8 GB of RAM, and either an NVIDIA GeForce GTX 1050, AMD Radeon RX 460, or an Intel Arc A380 graphics card. Of course, these are minimum requirements so expect the game to run at 1080p resolution at 30 FPS and Low graphics preset. The game will also need 20 GB of SSD storage and Windows 10/11 64-bit OS. The recommended requirements, which should run the game at Medium graphics preset, 1080p resolution, and 60 FPS, include an Intel Core i5-10400 or AMD Ryzen 5 3600X CPU, 16 GB of RAM, and an NVIDIA GeForce RTX 2060, AMD Radeon RX 6600, or an Intel Arc A750 graphics card.

Intel Updates "AI Playground" Application for Local AI Models with "Lunar Lake" Support

Intel has announced the release of an updated version of its AI Playground application, now optimized for the new Intel Core Ultra 200V "Lunar Lake" series of processors. This latest iteration, version 1.21b, brings a host of new features and improvements designed to make AI more accessible to users of Intel's AI-enabled PCs. AI Playground, first launched earlier this year, offers a user-friendly interface for various AI functions, including image generation, enhancement, and natural language processing. The new version introduces several key enhancements. These include a fresh, exclusive theme for 200V series processor users, an expanded LLM picker now featuring Phi3, Qwen2, and Mistral models, and a conversation manager for saving and revisiting chat discussions. Additionally, users will find adjustable font sizes for improved readability and a simplified aspect ratio tool for image creation and enhancement.

One of the most significant aspects of AI Playground is its ability to run entirely locally on the user's machine. This approach ensures that all computations, prompts, and outputs remain on the device, addressing privacy concerns often associated with cloud-based AI services. The application is optimized to take advantage of the Xe Cores and XMX AI engines found in the Intel Core Ultra 200V series processors, allowing even lightweight devices to perform complex AI tasks efficiently. Intel has also improved the installation process, addressing potential conflicts and providing better error handling. The company encourages user engagement through its Intel Insiders Discord channel, helping the community around AI Playground's development and use. Although the models users can run locally are smaller in size, usually up to 7 billion parameters with 8/4-bit quants, having a centralized application to help run them locally is significant for slowly embedding AI in all aspects of personal computing.

Intel Arrow Lake Leak Confirms October 10 Announcement Date For Core Ultra 200 CPUs

Intel's Arrow Lake Core Ultra 200 series CPUs have appeared in a number of leaks now, and some benchmarks of the new chips have even started appearing on sites like Geekbench, however, there are still some questions surrounding the launch date of the new CPUs. Previous leaks indicated that the original mid-October launch was pushed back to October 24, and new information from VideoCardz sheds more light on the exact specifics of the launch, with October 24 pegged as the day Arrow Lake reviews and sales will be available to the public.

According to the leak, Intel will host a private media briefing for a select few press outlets and influencers on October 7. This will be followed by the official public announcement on October 10 and the review embargo and official retail launch on October 24. The October 7 event will reportedly feature a keynote from both Robert Hallock, Intel's VP and general manager of Client AI and technical marketing, and Roger Chandler, vice president of enthusiast PC and workstation product marketing.

Samsung Considers Foundry Division Spin-Off as Poor 3 nm Yields Deter Customers

The grass isn't always greener on the other side, especially as we're running out of sides in the advanced semiconductor manufacturing sector. A recent report by Business Korea highlights Samsung Securities' July publication titled "Geopolitical Paradigm Shift and Industry," which paints a less-than-optimistic picture of Samsung's current state of affairs. The report even evaluates a possible spinoff of Samsung Foundry. The Korean tech giant has faced various business setbacks related to its state-of-the-art 3 nm Gate-All-Around (GAA) FET node. Reports indicate that this node only manages to yield 10-20% of working silicon, making potential customers reluctant to secure partnerships with Samsung. Samsung Securities projects that Samsung Foundry, along with the LSI division, will suffer a 500 billion won (about $385 million) loss this year.

Poor yields and difficulty securing customers have left Samsung facing tough choices, including the possible sale of its massive Foundry unit, which manufactures logic for external customers. It's noteworthy that Samsung is one of only three companies left in the advanced semiconductor manufacturing field, alongside TSMC and Intel. Many companies struggled to deliver results when transitioning to sub-7 nm nodes. Global Foundries dropped out of the race to focus on mature nodes, while Intel faced delays. TSMC has been the only company so far to consistently set and execute its goals, positioning itself as the industry leader. With low yields on the 3 nm GAA FET node, Samsung currently holds 11.5% of the global foundry market share in Q2, while TSMC dominates with 62.3%.

Intel "Lunar Lake" Compute Tile Annotated and PCH Tile Pictured

Some of the first die-shots and annotations of the Intel Core Ultra 200V "Lunar Lake" processor surfaced on the web, thanks to die-shots by GeenWens and Kurnalsalts on Twitter. Be sure to check out our Lunar Lake Technical Deep-dive article to learn the basics of how Lunar Lake is different from "Meteor Lake." Both are disaggregated chiplet-based processors, but Lunar Lake remodels things a bit. All the logic engines of the processor—the CPU, the iGPU, and the NPU, are located in a centralized Compute tile that's built on the TSMC 3 nm process, while all the I/O controllers are spun out to the Platform Controller tile built on TSMC 6 nm, which sit on a Foveros base tile that acts as an interposer, facilitating high-density microscopic connections between the two tiles. The base tile sits on the fiberglass substrate, which also has stacked LPDDR5X memory for either 16 GB or 32 GB of on-package system memory.

The Kurnalsalts annotation provides a good lay of the land for the Compute tile. The most striking aspect of it is the CPU. "Lunar Lake" comes with a 4P+4E core hybrid CPU, but the two kinds of cores do not share a last-level cache or sit in a ringbus, unlike in case of the Compute tile of "Meteor Lake." The four "Lion Cove" P-cores each come with 2.5 MB of dedicated L2 caches, and share a 12 MB L3 cache. The four "Skymont" E-cores are not part of the ringbus connecting the four P-cores, rather they are physically separated, much like the low-power island E-cores on "Meteor Lake." The E-core cluster shares a 4 MB L2 cache among the four E-cores. This E-core cluster is directly connected to the switching fabric of the Compute tile.

QNAP Adds Support for the QuTS hero Operating System to TS-253E and TS-453E NAS

QNAP Systems, Inc., a leading computing, networking, and storage solution innovator, today announced that it has added support for QuTS hero, QNAP's ZFS-based NAS operating system, to the popular TS-253E and TS-453E NAS models. The TS-x53E series is powered by an Intel Celeron J6412 quad-core processor (burst up to 2.6 GHz), which will be available and supported by QNAP for an extended period (up to 2029).

The 2-bay TS-253E is currently the QNAP NAS model with the fewest drive bays that support QuTS hero. Now small-sized organizations can also benefit from ZFS technologies to optimize applications that require utmost reliability, such as data integrity with features like Self-healing and WORM (Write Once, Read Many Times), snapshots (up to 65,536 versions), and inline data deduplication for maximizing storage efficiency. Businesses also can deploy a zero RPO disaster recovery plan by leveraging real-time SnapSync that achieves real-time data synchronization between two NAS.

24-Core Intel Core Ultra 9 285 Falls Short of 8-Core Ryzen 7 9700X in Geekbench Leak

The leaks and rumors surrounding Intel's upcoming Arrow Lake desktop CPU line-up are starting to heat up, with recent rumors tipping the existence of the Core Ultra 9 285K as the top-end chip in the upcoming launch. A new set of Geekbench 6 scores spotted by BenchLeaks on X, however, suggests the Core Ultra 9 285 non-K variant of this CPU might lag its Ryzen 9 counterparts significantly.

The Geekbench 6 test results, which were apparently achieved on an ASUS Prime Z890-P motherboard, reveal performance that falls short of even the current-generation AMD Ryzen 7 9700X, never mind any of the Ryzen 9 variants. The Geekbench 6 multicore score came in at an unimpressive 14,150, while the single-core score was a mere 3,081, falling short of the likes of the AMD Ryzen 7 9700X, which scored up to 19,381 and 3,624 in multi- and single-core tests, respectively. However, there appears to be more to this story—namely an odd test configuration that could heavily skew the test results, since the "stock" Intel Core Ultra 9 285K scores significantly higher in the Geekbench 6 charts than this particular 285 seems to.

Huawei Starts Shipping "Ascend 910C" AI Accelerator Samples to Large NVIDIA Customers

Huawei has reportedly started shipping its Ascend 910C accelerator—the company's domestic alternative to NVIDIA's H100 accelerator for AI training and inference. As the report from China South Morning Post notes, Huawei is shipping samples of its accelerator to large NVIDIA customers. This includes companies like Alibaba, Baidu, and Tencent, which have ordered massive amounts of NVIDIA accelerators. However, Huawei is on track to deliver 70,000 chips, potentially worth $2 billion. With NVIDIA working on a B20 accelerator SKU that complies with US government export regulations, the Huawei Ascend 910C accelerator could potentially outperform NVIDIA's B20 processor, per some analyst expectations.

If the Ascend 910C receives positive results from Chinese tech giants, it could be the start of Huawei's expansion into data center accelerators, once hindered by the company's ability to manufacture advanced chips. Now, with foundries like SMIC printing 7 nm designs and possibly 5 nm coming soon, Huawei will leverage this technology to satisfy the domestic demand for more AI processing power. Competing on a global scale, though, remains a challenge. Companies like NVIDIA, AMD, and Intel have access to advanced nodes, which gives their AI accelerators more efficiency and performance.

Intel's Silver Lining is $8.5 Billion CHIPS Act Funding, Possibly by the End of the Year

Intel's recent financial woes have brought the company into severe cost-cutting measures, including job cuts and project delays. However, a silver lining remains—Intel is reportedly in the final stages of securing $8.5 billion in direct funding from the US government under the CHIPS Act, delivered by the end of the year. The potential financing comes at a crucial time for Intel, which has been grappling with financial challenges. The company reported a $1.6 billion loss in the second quarter of 2024, leading to short-term setbacks. However, thanks to sources close to the Financial Times, we learn that Intel's funding target will represent the CHIPS Act's largest share, leading to a massive boost to US-based semiconductor manufacturing.

Looking ahead, the potential CHIPS Act funding could serve as a catalyst for Intel's resurgence, reassuring both investors and customers about the company's future. A key element of Intel's recovery strategy lies in the ramp-up of production for its advanced 18A node, which should become the primary revenue driver for its foundry unit. This advancement, coupled with the anticipated government backing, positions Intel to potentially capture market share from established players like TSMC and Samsung. The company has already secured high-profile customers such as Amazon and (allegedly) Broadcom, hinting at its growing appeal in the foundry space. Moreover, Intel's enhanced domestic manufacturing capabilities align well with potential US government mandates for companies like NVIDIA and Apple to produce processors locally, a consideration driven by escalating geopolitical tensions.

Intel Releases Arc GPU Graphics Drivers 101.6079 Beta

Intel today released the latest version of the Arc GPU Graphics drivers. Version 101.6079 Beta comes with optimization for EA FC25, Throne and Liberty, and Delta Force. The installer download size of these drivers are "temporarily increased" in size (from around 400 MB to over 800 MB), as these are the first drivers to include support for the Arc Xe2 "Battlemage" integrated graphics of Core Ultra 200V "Lunar Lake" processors, indicating that Intel will soon retire driver payload for older iGPUs such as 11th Gen "Tiger Lake." There are no fixed issues with this release, but the company identified a few new issues as listed below.

DOWNLOAD: Intel Arc GPU Graphics Drivers 101.6079 Beta

Team Group's T-FORCE and T-CREATE DDR5 Memories Unveil Dual-Mode For One-Click Stable Overclocking

T-FORCE, Team Group's gaming brand, and T-CREATE, its creator-focused brand, are launching dual-mode DDR5 overclocking memory modules for Intel and AMD platforms with speeds up to 8000 MHz. This highlights Team Group's industry-leading overclocking capabilities, delivering the ultimate performance for gamers and creators.

T-FORCE, known for pushing the boundaries of performance, and T-CREATE, focused on stable and efficient performance, will offer a range of DDR5 dual-mode overclocking memory modules under their product portfolio. These modules will come in eight speeds, ranging from 6400 MHz to 8000 MHz, catering to diverse needs and providing optimal performance for gaming enthusiasts and content creators managing complex workflows. The dual-mode memory modules will be available in 2x16GB and 2x24GB capacity options. A single 24 GB stick significantly expands memory capacity for handling large workloads, leading to smoother and more efficient performance. The memory modules are fully compatible with Intel XMP 3.0 (Extreme Memory Profile) and AMD EXPO (Extended Profiles for Overclocking) profiles, ensuring seamless one-click overclocking on the latest AMD X870E and Intel Z790 platforms, delivering an exceptional user experience across both platforms.

JPR: Shipments of Graphics AIBs See Significant Surge in Q2 2024

According to a new research report from leading analyst firm Jon Peddie Research (JPR), unit shipments in the add-in board (AIB) market increased in Q2'24 from last quarter and increased year over year. Meanwhile, Nvidia slightly increased market share from last quarter, as well as year over year. In Q2'24, total graphics card shipments increased to 9.5 million units, up from 8.7 million units last quarter.

AMD's quarter-to-quarter total desktop AIB unit shipments increased 9% and increased 3% from last year. Nvidia's quarter-to-quarter unit shipments increased 9.7% and increased 61.9% from last year while continuing to hold a dominant market share position at 88%. Intel, which entered the AIB market in Q3'22 with the Arc A770 and A750, remained flat, as the company has yet to gain significant traction in the add-in board market.
Market share changes quarter to quarter and year to year.

Intel Isolates "Raptor Lake" Vmin Shift Instability Root Cause, New Microcode Update Coming

Back in August, Intel started shipping its 0x129 microcode update for 13/14th generation "Raptor Lake" and "Raptor Lake Refresh" processors. This update fixed incorrect voltage requests to the processor that are causing elevated operating voltage. Intel's analysis showed that the root cause of stability problems is voltage levels that are too high during the operation of the processors. These increases in voltage cause degradation that increases the minimum voltage required for stable operation. Intel calls this "Vmin." Today, the company discovered the root cause of this instability issue and informed users that a new microcode patch is underway. As explained by Intel, the Vmin Shift instability problem stems from a clock tree circuit in the IA core. When exposed to high voltage and temperature conditions, this circuit is vulnerable to reliability degradation. Intel's research has shown that these factors can cause a shift in the duty cycle of the clocks, resulting in system instability.

There are four scenarios that can cause Vmin Shift: increased motherboard power delivery, eTVB microcode algorithm running at higher performance operating states even at higher temperatures, microcode SVID algorithm requesting higher voltages at higher frequencies and longer durations, and finally microcode and BIOS requesting elevated core voltages. For motherboard power settings, mitigation is switching back to default settings. For the eTVB issue, the fix is a 0x125 microcode update. The 0x129 patch fixes the SVID algorithm, and the fourth condition, where microcode and BIOS request elevated core voltage, is fixed by the upcoming 0x12B microcode update. Intel is reportedly working with OEMs to start rolling out the 0x12B update with no apparent performance degradation. While the timeframe for shipping this update is unknown, we expect to see it soon. Additionally, Intel once again confirmed that the upcoming "Arrow Lake" CPUs don't have these issues.

Intel Arc "Battlemage" GPU Surfaces with 20 Xe2 Cores, 2.85 GHz Clock Speed, and 12 GB VRAM

Intel's upcoming Arc "Battlemage" G21 GPU has made an appearance in Geekbench benchmarks, offering a glimpse into the future of the company's discrete graphics offerings. This next-generation GPU, part of Intel's Xe2 graphics architecture, shows promising performance that puts it almost on par with the current Arc A770 in initial tests. The benchmark results reveal a GPU with 20 Xe2 cores, translating to 160 CUs. Notably, the chip boasts a clock speed of 2,850 MHz. Equipped with 12 GB of memory, this particular model appears to be targeting the mid-range segment of the market.

Identified by the PCI ID "8086:E20B" and listed as "Intel Xe Graphics RI," the GPU scored 97,943 points in Geekbench 6's OpenCL test. This score places it near the Arc A770 and NVIDIA's GeForce RTX 4060, suggesting competitive performance in its class. The test system paired the Battlemage GPU with an Intel Core i5-13600K CPU and 32 GB of DDR5-4800 memory, providing a solid platform for evaluation. One interesting thing to note is that, while these early benchmarks show weak OpenCL performance, Intel didn't historically target this particular API, and the final performance will be higher in actual games that use DirectX 12 or Vulkan APIs, possibly worthy of competing with NVIDIA and AMD solutions.

Intel Updates 64-Bit Only "X86S" Instruction Set Architecture Specification to Version 1.2

Intel has released version 1.2 of its X86S architecture specification. The X86S project, first announced last year, aims to modernize the x86 architecture that has been the heart of PCs since the late 1970s. Over the decades, Intel and AMD have continually expanded x86's capabilities, resulting in a complex instruction set that Intel now sees as partially outdated. The latest specification primarily focuses on removing legacy features, particularly 16-bit and 32-bit support. This radical departure from x86's long-standing commitment to backward compatibility aligns with the simplification of x86. While the specification does mention a "32-bit compatibility mode," we are yet to how would 32-bit apps run. This ambiguity raises questions about how X86S might handle existing 32-bit applications, which, despite declining relevance, still play a role in many computing environments.

The potential transition to X86S comes at a time when the industry is already moving away from 32-bit support. However, the proposed changes are subject to controversy. The x86 architecture's strength has long been its extensive legacy support, allowing older software to run on modern hardware. A move to X86S could disrupt this ecosystem, particularly for users relying on older applications. Furthermore, introducing X86S raises questions about the future relationship between Intel and AMD, the two primary x86 CPU designers. While Intel leads the initiative, AMD's role in the potential transition remains uncertain, given its significant contributions to the current x86-64 standard.

Intel Clearwater Forest Pictured, First 18A Node High Volume Product

Yesterday, Intel launched its Xeon 6 family of server processors based on P-cores manufactured on Intel 3 node. While the early reviews seem promising, Intel is preparing a more advanced generation of processors that will make or break its product and foundry leadership. Codenamed "Clearwater Forest," these CPUs are expected to be the first high-volume production chips based on the Intel 18A node. We have pictures of the five-tile Clearwater Forest processor thanks to Tom's Hardware. During the Enterprise Tech Tour event in Portland, Oregon, Tom's Hardware managed to take a picture of the complex Clearwater Forest design. With compute logic built on 18A, this CPU uses Intel's 3-T process technology, which serves as the foundation for the base die, marking its debut in this role. Compute dies are stacked on this base die, making the CPU building more complex but more flexible.

The Foveros Direct 3D and EMIB technologies enable large-scale integration on a package, achieving capabilities that previous monolithic single-chip designs could not deliver. Other technologies like RibbonFET and PowerVia will also be present for Clearwater Forest. If everything continues to advance according to plan, we expect to see this next-generation CPU sometime next year. However, it is crucial to note that if this CPU shows that the high-volume production of Intel 18A is viable, many Intel Foundry customers would be reassured that Intel can compete with TSMC and Samsung in producing high-performance silicon on advanced nodes at scale.

ASRock Rack Expands Server Portfolio Powered by Intel Xeon 6900 Series Processors

ASRock Rack Inc., a leading innovative server company, today announced the launch of its new server platforms, powered by Intel Xeon 6900 series processors with Performance-Cores (P-Cores). These advanced platforms are designed to deliver exceptional performance across a wide range of demanding workloads, including High-Performance Computing (HPC), Artificial Intelligence (AI), storage, and networking.

The Intel Xeon 6900 Series Processors are optimized for high performance per core and are delivered in a new class of Intel server platform design. They offer up to 12 memory channels, providing greater memory bandwidth to support demanding environments such as cloud, AI, and HPC. Leveraging these processors, ASRock Rack's newly released platforms—the 1U all-flash storage server 1U8E1S-GNRAPDNO and the GNRAPD12DNO server motherboard—fully maximize throughput with unprecedented compute capability.

Supermicro Adds New Max-Performance Intel-Based X14 Servers

Supermicro, Inc. a Total IT Solution Provider for AI/ML, HPC, Cloud, Storage, and 5G/Edge, today adds new maximum performance GPU, multi-node, and rackmount systems to the X14 portfolio, which are based on the Intel Xeon 6900 Series Processors with P-Cores (formerly codenamed Granite Rapids-AP). The new industry-leading selection of workload-optimized servers addresses the needs of modern data centers, enterprises, and service providers. Joining the efficiency-optimized X14 servers leveraging the Xeon 6700 Series Processors with E-cores launched in June 2024, today's additions bring maximum compute density and power to the Supermicro X14 lineup to create the industry's broadest range of optimized servers supporting a wide variety of workloads from demanding AI, HPC, media, and virtualization to energy-efficient edge, scale-out cloud-native, and microservices applications.

"Supermicro X14 systems have been completely re-engineered to support the latest technologies including next-generation CPUs, GPUs, highest bandwidth and lowest latency with MRDIMMs, PCIe 5.0, and EDSFF E1.S and E3.S storage," said Charles Liang, president and CEO of Supermicro. "Not only can we now offer more than 15 families, but we can also use these designs to create customized solutions with complete rack integration services and our in-house developed liquid cooling solutions."

Intel Launches Gaudi 3 AI Accelerator and P-Core Xeon 6 CPU

As AI continues to revolutionize industries, enterprises are increasingly in need of infrastructure that is both cost-effective and available for rapid development and deployment. To meet this demand head-on, Intel today launched Xeon 6 with Performance-cores (P-cores) and Gaudi 3 AI accelerators, bolstering the company's commitment to deliver powerful AI systems with optimal performance per watt and lower total cost of ownership (TCO).

"Demand for AI is leading to a massive transformation in the data center, and the industry is asking for choice in hardware, software and developer tools," said Justin Hotard, Intel executive vice president and general manager of the Data Center and Artificial Intelligence Group. "With our launch of Xeon 6 with P-cores and Gaudi 3 AI accelerators, Intel is enabling an open ecosystem that allows our customers to implement all of their workloads with greater performance, efficiency and security."

MSI's Introduces New Server Platforms with Intel Xeon 6 Processor Featuring P-Cores

MSI, a leading global server provider, today introduced its latest server platforms, powered by Intel Xeon 6 processor with Performance Cores (P-cores). These new products deliver unprecedented performance for compute-intensive tasks, tailored to meet the diverse demands of data center workloads.

"The demand for data center performance has never been greater, driven by compute-intensive AI, HPC applications, and mission-critical database and analytics workloads," said Danny Hsu, General Manager of Enterprise Platform Solutions. "To meet these demands, IT teams need reliable performance across an increasingly diverse array of workloads." MSI's new server platforms, powered by Intel Xeon 6 processors, deliver high performance across a broad range of tasks, meeting diverse requirements for both performance and efficiency.
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