According to Geekerwan, Apple's latest M4 silicon has achieved a remarkable milestone by using liquid nitrogen to chill Apple's M4 iPad Pro. This unconventional approach unlocked great single-core performance, surpassing even the M3 Max and M2 Ultra processors in Geekbench v6 benchmark tests. The setup involved cooling the M4 iPad Pro, equipped with a 3+6 core configuration, using a Kingpin Cooling T-Rex Rev 4 CPU LN2 pot filled with liquid nitrogen. This extreme cooling allowed the M4 processor to operate at an astonishing 4.41 GHz during the benchmark run, resulting in a staggering single-core score of 4,001 points. This score represents a 28% increase over the M3 Max found in the 16-inch MacBook Pro and an impressive 44% improvement over the M2 Ultra powering the Mac Studio.

Notably, the M4's single-core performance is capable of reaching scores in the 3,000s. With liquid nitrogen cooling, it suprases the 4,000-point mark, making this achievement all the more remarkable. While the M4's multi-core performance did not match the lofty expectations set by its single-core power, it still managed to achieve a score of 13,595 points, outperforming both the M3 Max and M2 Ultra, which scored 20,957 and 21,330 points, respectively. This was done on the 3+6 core configuration with three P-cores and six E-cores, which is not the top-end M4 configuration. This shows that with adequate cooling, like MacBooks, the upcoming M4 Pro and M4 Max chips could achieve much higher performance than their predecessors.

The rollout of SiPearl's much-anticipated Rhea processor for European supercomputers has been pushed back by a year to 2025, but the delay comes with a silver lining - a significant upgrade in core count and potential performance. Originally slated to arrive in 2024 with 72 cores, the homegrown high-performance chip will now pack 80 cores when it eventually launches. This decisive move by SiPearl and its partners is a strategic choice to ensure the utmost quality and capabilities for the flagship European processor. The additional 12 months will allow the engineering teams to further refine the chip's architecture, carry out extensive testing, and optimize software stacks to take full advantage of Rhea's computing power. Now called the Rhea1, the chip is a crucial component of the European Processor Initiative's mission to develop domestic high-performance computing technologies and reduce reliance on foreign processors. Supercomputer-scale simulations spanning climate science, drug discovery, energy research and more all require astonishing amounts of raw compute grunt.

By scaling up to 80 cores based on the latest Arm Neoverse V1, Rhea1 aims to go toe-to-toe with the world's most powerful processors optimized for supercomputing workloads. The SiPearl wants to utilize TSCM's N6 manufacturing process. The CPU will have 256-bit DDR5 memory connections, 104 PCIe 5.0 lanes, and four stacks of HBM2E memory. The roadmap shift also provides more time for the expansive European supercomputing ecosystem to prepare robust software stacks tailored for the upgraded Rhea silicon. Ensuring a smooth deployment with existing models and enabling future breakthroughs are top priorities. While the delay is a setback for SiPearl's launch schedule, the substantial upgrade could pay significant dividends for Europe's ambitions to join the elite ranks of worldwide supercomputer power. All eyes will be on Rhea's delivery in 2025, mainly from Europe's governments, which are funding the project.

The 63rd edition of the TOP500 reveals that Frontier has once again claimed the top spot, despite no longer being the only exascale machine on the list. Additionally, a new system has found its way into the Top 10.

The Frontier system at Oak Ridge National Laboratory in Tennessee, USA remains the most powerful system on the list with an HPL score of 1.206 EFlop/s. The system has a total of 8,699,904 combined CPU and GPU cores, an HPE Cray EX architecture that combines 3rd Gen AMD EPYC CPUs optimized for HPC and AI with AMD Instinct MI250X accelerators, and it relies on Cray's Slingshot 11 network for data transfer. On top of that, this machine has an impressive power efficiency rating of 52.93 GFlops/Watt - putting Frontier at the No. 13 spot on the GREEN500.

AMD has reached a significant milestone, capturing a record-high share of the X86 CPU market in the first quarter of 2024, according to the latest report from Mercury Research. This achievement marks a significant step forward for the chipmaker in its long battle against rival Intel's dominance in the crucial computer processor space. The surge was fueled by strong demand for AMD's Ryzen and EPYC processors across consumer and enterprise markets. The Ryzen lineup's compelling price-to-performance ratio has struck a chord with gamers, content creators, and businesses seeking cost-effective computing power without sacrificing capabilities. It secured AMD's 23.9% share, an increase from the previous Q4 of 2023, which has seen a 19.8% market share.

The company has also made major inroads on the data center front with its EPYC server CPUs. AMD's ability to supply capable yet affordable processors has enabled cloud providers and enterprises to scale operations on AMD's platform. Several leading tech giants have embraced EPYC, contributing to AMD's surging server market footprint. Now, it is at 23.6%, a significant increase over the past few years, whereas AMD was just above 10% four years ago in 2020. AMD lost some share to Intel on the mobile PC front due to the Meteor Lake ramp, but it managed to gain a small percentage of the market share of client PCs. As AMD rides the momentum into the second half of 2024, all eyes will be on whether the chipmaker can sustain this trajectory and potentially claim an even larger slice of the x86 CPU pie from Intel in the coming quarters.Below, you can see additional graphs of mobile PC and client PC market share.

Apple today announced the redesigned 11-inch and all-new 13-inch iPad Air, supercharged by the M2 chip. Now available in two sizes for the first time, the 11-inch iPad Air is super-portable, and the 13-inch model provides an even larger display for more room to work, learn, and play. Both deliver phenomenal performance and advanced capabilities, making iPad Air more powerful and versatile than ever before. Featuring a faster CPU, GPU, and Neural Engine in M2, the new iPad Air offers even more performance and is an incredibly powerful device for artificial intelligence. The front-facing Ultra Wide 12MP camera with Center Stage is now located along the landscape edge of iPad Air, which is perfect for video calls. It also includes faster Wi-Fi, and cellular models include super-fast 5G, so users can stay connected on the go. With a portable design, all-day battery life, a brilliant Liquid Retina display, and support for Apple Pencil Pro, Apple Pencil (USB-C), and Magic Keyboard, iPad Air empowers users to be even more productive and creative. The new iPad Air is available in new blue and purple finishes, along with starlight and space gray. The 11-inch iPad Air still starts at just $599, and the 13-inch iPad Air is a fantastic value at just $799. Customers can order the new iPad Air today, with availability beginning Wednesday, May 15.

"So many users—from students, to content creators, to small businesses, and more—love iPad Air for its performance, portability, and versatility, all at an affordable price. Today, iPad Air gets even better," said Bob Borchers, Apple's vice president of Product Marketing. "We're so excited to introduce the redesigned 11-inch and all-new 13-inch iPad Air, offering two sizes for the first time. With its combination of a brilliant Liquid Retina display, the phenomenal performance of the M2 chip, incredible AI capabilities, and its colorful, portable design with support for new accessories, iPad Air is more powerful and versatile than ever."

Apple today unveiled the groundbreaking new iPad Pro in a stunningly thin and light design, taking portability and performance to the next level. Available in silver and space black finishes, the new iPad Pro comes in two sizes: an expansive 13-inch model and a super-portable 11-inch model. Both sizes feature the world's most advanced display—a new breakthrough Ultra Retina XDR display with state-of-the-art tandem OLED technology—providing a remarkable visual experience. The new iPad Pro is made possible with the new M4 chip, the next generation of Apple silicon, which delivers a huge leap in performance and capabilities. M4 features an entirely new display engine to enable the precision, color, and brightness of the Ultra Retina XDR display. With a new CPU, a next-generation GPU that builds upon the GPU architecture debuted on M3, and the most powerful Neural Engine yet, the new iPad Pro is an outrageously powerful device for artificial intelligence. The versatility and advanced capabilities of iPad Pro are also enhanced with all-new accessories. Apple Pencil Pro brings powerful new interactions that take the pencil experience even further, and a new thinner, lighter Magic Keyboard is packed with incredible features. The new iPad Pro, Apple Pencil Pro, and Magic Keyboard are available to order starting today, with availability in stores beginning Wednesday, May 15.

"iPad Pro empowers a broad set of pros and is perfect for anyone who wants the ultimate iPad experience—with its combination of the world's best displays, extraordinary performance of our latest M-series chips, and advanced accessories—all in a portable design. Today, we're taking it even further with the new, stunningly thin and light iPad Pro, our biggest update ever to iPad Pro," said John Ternus, Apple's senior vice president of Hardware Engineering. "With the breakthrough Ultra Retina XDR display, the next-level performance of M4, incredible AI capabilities, and support for the all-new Apple Pencil Pro and Magic Keyboard, there's no device like the new iPad Pro."

Apple today announced M4, the latest chip delivering phenomenal performance to the all-new iPad Pro. Built using second-generation 3-nanometer technology, M4 is a system on a chip (SoC) that advances the industry-leading power efficiency of Apple silicon and enables the incredibly thin design of iPad Pro. It also features an entirely new display engine to drive the stunning precision, color, and brightness of the breakthrough Ultra Retina XDR display on iPad Pro. A new CPU has up to 10 cores, while the new 10-core GPU builds on the next-generation GPU architecture introduced in M3, and brings Dynamic Caching, hardware-accelerated ray tracing, and hardware-accelerated mesh shading to iPad for the first time. M4 has Apple's fastest Neural Engine ever, capable of up to 38 trillion operations per second, which is faster than the neural processing unit of any AI PC today. Combined with faster memory bandwidth, along with next-generation machine learning (ML) accelerators in the CPU, and a high-performance GPU, M4 makes the new iPad Pro an outrageously powerful device for artificial intelligence.

"The new iPad Pro with M4 is a great example of how building best-in-class custom silicon enables breakthrough products," said Johny Srouji, Apple's senior vice president of Hardware Technologies. "The power-efficient performance of M4, along with its new display engine, makes the thin design and game-changing display of iPad Pro possible, while fundamental improvements to the CPU, GPU, Neural Engine, and memory system make M4 extremely well suited for the latest applications leveraging AI. Altogether, this new chip makes iPad Pro the most powerful device of its kind."

Intel's CEO, Pat Gelsinger, has confirmed that the upcoming 18A process of the Panther Lake CPU generation is on schedule for a mid-2025 release, which aligns with the initial projection. This development marks a significant milestone in the company's ongoing efforts to integrate AI capabilities into its processors. The mid-2025 release date is expected to follow the debut of Intel's Arrow Lake process in late 2024 or early 2025, a release that holds the promise of significant advancements in AI computing. During Intel's Q1 2024 Quarterly Results, Gelsinger expressed confidence in the company's AI capabilities, stating that the Core Ultra platform currently delivers leadership AI performance and that the next-generation platforms, Lunar Lake and Arrow Lake, will launch later this year, tripling AI performance. He also mentioned that the Panther Lake generation, set to release in 2025, will grow AI performance up to an additional 2x.

The Panther Lake generation represents the culmination of three generations of work in a short time and is expected to continue Intel's iterative approach. This transition is marked by a shift from a hybrid architecture, a combination of different types of processors, to a disaggregated die, where different components of the processor are separated, as AI computing becomes increasingly prominent. This strategic move is aimed at optimizing AI performance and flexibility. This marks the third generation of the Intel Core Ultra series, following Ultra 100 (Meteor Lake), Ultra 200 (Arrow Lake), and Lunar Lake (200V). Intel's release strategy mirrors the pattern set by the Hybrid Architecture, with Alder Lake debuting in 2021, followed by Raptor Lake in 2022, and a refreshed Raptor Lake released last year to bridge the gap until LGA 1851 was ready. However, Intel's roadmap has seen adjustments in the past, such as the initial promise of an Arrow Lake release before the end of 2024, which was later retracted. The mid-2025 release of Panther Lake aligns with rumors of Arrow Lake's late 2024 or early 2025 debut, suggesting that the 18A process CPU generation could debut several months after Arrow Lake.

AMD classified the Zenbleed vulnerability, CVE-2023-20593, as a medium-level threat about a year ago. AMD has acknowledged that it could potentially allow an attacker to access sensitive information under certain microarchitectural circumstances. Today, MSI has released new BIOS updates featuring AMD's AM4 AGESA 1.2.0.Ca firmware update. This update addresses the Zenbleed vulnerability affecting AMD's Ryzen 4000 series Zen 2 APUs. MSI is proactively rolling out the new BIOS updates across its range of compatible motherboards. The updates are currently available for almost all X570 motherboards, with support for other chipsets and 400 series motherboards expected to follow soon.

The AGESA 1.2.0.Ca firmware update specifically targets the Zenbleed vulnerability in the Zen 2 microarchitecture. Although the vulnerability primarily affects Ryzen 4000 "Renoir" APUs, it also exists in other Zen 2 processors, including the Ryzen 3000 series and certain EPYC and Threadripper CPUs. AMD has already addressed the Zenbleed vulnerability in previous AGESA microcode updates for Ryzen 3000 processors and other platforms, such as EPYC server CPUs and Ryzen mobile CPUs. However, the Ryzen Embedded V2000 CPUs are still awaiting the EmbeddedPi-FP6 1.0.0.9 AGESA firmware update, which is expected to be released by April. While AMD has not explicitly stated whether the security update will impact performance, previous testing of Zenbleed fixes has shown potential performance drops of up to 15% in certain workloads, although gaming performance remained relatively unaffected. Users with AM4 chips based on architectures other than Zen 2, such as Zen+ or Zen 3, do not need to update their BIOS as they are not affected by this specific vulnerability.

According to the report from BenchLife, NVIDIA has started the marketing campaign push for "Premium AI PC," squarely aimed at the industry's latest trend pushed by Intel, AMD, and Qualcomm for an "AI PC" system, which features a dedicated NPU for processing smaller models locally. NVIDIA's approach comes from a different point of view: every PC with an RTX GPU is a "Premium AI PC," which holds a lot of truth. Generally, GPUs (regardless of the manufacturer) hold more computing potential than the CPU and NPU combined. With NVIDIA's push to include Tensor cores in its GPUs, the company is preparing for next-generation software from vendors and OS providers that will harness the power of these powerful silicon pieces and embed more functionality in the PC.

At the Computex event in Taiwan, there should be more details about Premium AI PCs and general AI PCs. In its marketing materials, NVIDIA compares AI PCs to its Premium AI PCs, which have enhanced capabilities across various applications like image/video editing and upscaling, productivity, gaming, and developer applications. Another relevant selling point is the user base for these Premium AI PCs, which NVIDIA touts to be 100 million users. Those PCs support over 500 AI applications out of the box, highlighting the importance of proper software support. NVIDIA's systems are usually more powerful, with GeForce RTX GPUs reaching anywhere from 100-1300+ TOPS, compared to 40 TOPS of AI PCs. How other AI PC makers plan to fight in the AI PC era remains to be seen, but there is a high chance that this will be the spotlight of the upcoming Computex show.

Hardware leaker Raichu, known for accurately predicting Intel's moves, has unveiled intriguing details about the company's forthcoming desktop CPU lineup. According to the leaks, Intel is supposed to introduce a big shift in its desktop CPU naming convention with the arrival of the Core Ultra 200 series, codenamed Arrow Lake-S. This next-generation lineup promises to deliver one of the most significant performance leaps for desktop processors in recent years, marking a substantial departure from Intel's current naming strategy—a change that hasn't been witnessed in over a decade. The Core Ultra 200 series is expected to encompass a diverse range of tiers and variants, catering to various user needs. This includes the overclockable K models for enthusiasts, F variants without integrated graphics, and potentially low-power T models for energy-efficient SKUs. According to Raichu's leaks, the unlocked K-Series models are rumored to include the high-end Core Ultra 9 285K, the mid-range Core Ultra 7 265K, and the budget-friendly Core Ultra 5 245K. While the absence of a 290K part has raised eyebrows, these names resemble Intel's mobile CPU naming conventions.

To enjoy the Core Ultra 200 series, users will need to upgrade to new motherboards featuring the 800-series chipsets and the LGA-1851 socket. Unlike the Core Ultra 200V Lunar Lake models for mobile devices, details about the desktop version have remained scarce, shrouding the impending launch in an air of mystery. While Raichu's leaks carry significant weight, it's essential to approach such information cautiously. There's a possibility that SKUs like the 290K may still be introduced, as a new KS version, aligning with Intel's traditional naming conventions. The Core Ultra 200 series promises to cater to a wide range of desktop users, from the performance-hungry enthusiasts eyeing the Core Ultra 9 285K to budget-conscious consumers seeking the value proposition of the Core Ultra 5 245K. The Core Ultra 7 265K is expected to strike a balance between performance and affordability, targeting the mid-range segment. As more leaks and official information surface, we will continue to provide updates on this release from Intel.

Today, Intel announced it surpassed 500 AI models running optimized on new Intel Core Ultra processors - the industry's premier AI PC processor available in the market today, featuring new AI experiences, immersive graphics and optimal battery life. This significant milestone is a result of Intel's investment in client AI, the AI PC transformation, framework optimizations and AI tools including OpenVINO toolkit. The 500 models, which can be deployed across the central processing unit (CPU), graphics processing unit (GPU) and neural processing unit (NPU), are available across popular industry sources, including OpenVINO Model Zoo, Hugging Face, ONNX Model Zoo and PyTorch. The models draw from categories of local AI inferencing, including large language, diffusion, super resolution, object detection, image classification/segmentation, computer vision and others.

"Intel has a rich history of working with the ecosystem to bring AI applications to client devices, and today we celebrate another strong chapter in the heritage of client AI by surpassing 500 pre-trained AI models running optimized on Intel Core Ultra processors. This unmatched selection reflects our commitment to building not only the PC industry's most robust toolchain for AI developers, but a rock-solid foundation AI software users can implicitly trust."
-Robert Hallock, Intel vice president and general manager of AI and technical marketing in the Client Computing Group

A couple of weeks ago, we reported on NVIDIA directing users of Intel's 13th Generation Raptor Lake and 14th Generation Raptor Lake Refresh CPUs to consult Intel for any issues with system stability. Motherboard makers, by default, often run the CPU outside of Intel's recommended specifications, overvolting the CPU through modifying voltage curves, automatic overclocks, and removing power limits.

Today, we learned that Igor's Lab has obtained a statement from Intel that the company prepared for motherboard OEMs regarding the issues multiple users report. Intel CPUs come pre-programmed with a stock voltage curve. When motherboard makers remove power limits and automatically adjust voltage curves and frequency targets, the CPU can be pushed outside its safe operating range, possibly causing system instability. Intel has set up a dedicated website for users to report their issues and offer support. Manufacturers like GIGABYTE have already issued new BIOS updates for users to achieve maximum stability, which incidentally has recent user reports of still being outside Intel spec, setting PL2 to 188 W, loadlines to 1.7/1.7 and current limit to 249 A. While MSI provided a blog post tutorial for stability. ASUS has published updated BIOS for its motherboards to reflect on this Intel baseline spec as well. Surprisingly, not all the revised BIOS values match up with the Intel Baseline Profile spec for these various new BIOS updates from different vendors. You can read the statement from Intel in the quote below.

GIGABYTE TECHNOLOGY Co. Ltd, a leading manufacturer of motherboards, graphics cards, and hardware solutions, released the latest beta BIOS with Intel Baseline feature on Z790, B760 series motherboards for enhanced stability, regarding the feedback from Intel that high power consumption settings may cause system instability with 13/14th generation CPUs.⁠

GIGABYTE always prioritizes user experience, focusing on both performance and stability. Additionally, as a close ally of Intel, we promptly introduced the Intel Baseline feature with the latest beta BIOS. When using 13th and 14th generation K-SKU CPUs, the Intel Baseline setting will appear in the "Turbo Power Limits" option under "Advanced CPU Settings". After enabling Intel Baseline, the performance will be expected to be limited due to the power setting adjustments.

The US government is investigating the potential national security risks associated with China's involvement in the development of open-source RISC-V chip technology. According to a letter obtained by Reuters, the Department of Commerce has informed US lawmakers that it is actively reviewing the implications of China's work in this area. RISC-V, an open instruction set architecture (ISA) created in 2014 at the University of California, Berkeley, offers an alternative to proprietary and licensed ISAs like those developed by Arm. This open-source ISA can be utilized in a wide range of applications, from AI chips and general-purpose CPUs to high-performance computing applications. Major Chinese tech giants, including Alibaba and Huawei, have already embraced RISC-V, positioning it as a new battleground in the ongoing technological rivalry between the United States and China over cutting-edge semiconductor capabilities.

In November, a group of 18 US lawmakers from both chambers of Congress urged the Biden administration to outline its strategy for preventing China from gaining a dominant position in RISC-V technology, expressing concerns about the potential impact on US national and economic security. While acknowledging the need to address potential risks, the Commerce Department noted in its letter that it must proceed cautiously to avoid unintentionally harming American companies actively participating in international RISC-V development groups. Previous attempts to restrict the transfer of 5G technology to China have created obstacles for US firms involved in global standards bodies where China is also a participant, potentially jeopardizing American leadership in the field. As the review process continues, the Commerce Department faces the delicate task of balancing national security interests with the need to maintain the competitiveness of US companies in the rapidly evolving landscape of open-source chip technologies.

Qualcomm Technologies, Inc. today expands the leading Snapdragon X Series platform portfolio with Snapdragon X Plus. Snapdragon X Plus features the state-of-the-art Qualcomm Oryon CPU, a custom-integrated processor that delivers up to 37% faster CPU performance compared to competitors, while consuming up to 54% less power. This remarkable advancement in CPU performance sets a new standard in mobile computing, enabling users to accomplish more with greater efficiency. Snapdragon X Plus is also designed to meet the demands of on-device AI-driven applications, powered by the Qualcomm Hexagon NPU capable of 45 TOPS, making it the world's fastest NPU for laptops. This platform is a significant leap in computing innovation and is set to transform the PC industry.

"Snapdragon X Series platforms deliver leading experiences and are positioned to revolutionize the PC industry. Snapdragon X Plus will power AI-Supercharged PCs that enable even more users to excel as radical new AI experiences emerge in this period of rapid development and deployment," said Kedar Kondap, senior vice president and general manager of compute and gaming, Qualcomm Technologies, Inc. "By delivering leading CPU performance, AI capabilities, and power efficiency, we are once again pushing the boundaries of what is possible in mobile computing."

Dynabook Americas, Inc., the gold standard for long-lasting, professional-grade laptops, today unveiled the latest generation of its hyperlight 14-inch premium business laptop - the Portégé X40L-M. Now engineered with cutting-edge Intel Core Ultra (Series 1) processors and packing advanced AI capabilities, this powerful laptop redefines productivity, performance, and security for today's on-the-go professionals, while meeting Intel EVO platform and Windows 11 Secured-core PC standards.

"The Portégé X40L-M is a testament to Dynabook's commitment to delivering premium, cutting-edge solutions that empowers professionals to achieve more in their work," said James Robbins, General Manager, Dynabook Americas, Inc. "With the integration of Intel's latest Core Ultra processors, advanced AI capabilities, and seamless Windows 11 with Copilot integration, the Portégé X40L-M sets a new standard for productivity, performance, and innovation in the business laptop market."

Intel is preparing to unveil its cutting-edge Xeon 6 series server CPUs, known as Granite Rapids and Sierra Forest. These forthcoming processors are set to deliver a significant boost in performance, foreshadowing a new era of computing power, albeit with a trade-off in increased power consumption. Two days ago, Yuuki_Ans posted information about the Beechnut City validation platform. Today, he updated the X thread with more information that Intel is significantly boosting core counts across its new Xeon 6 lineup. The flagship Xeon 6 6980P is a behemoth, packing 128 cores with a blistering 500 Watt Thermal Design Power (TDP) rating. In fact, Intel is equipping five of its Xeon 6 CPUs with a sky-high 500 W TDP, including the top four Granite Rapids parts and even the flagship Sierra Forest SKU, which is composed entirely of efficiency cores. This marks a substantial increase from Intel's previous Xeon Scalable processors, which maxed out at 350-385 Watts.

The trade-off for this performance boost is a dramatic rise in power consumption. By nearly doubling the TDP ceiling, Intel can double the core count from 64 to 128 cores on its Granite Rapids CPUs, vastly improving its multi-core capabilities. However, this focus on raw performance over power efficiency means server manufacturers must redesign their cooling solutions to accommodate Intel's flagship 500 W parts adequately. Failure to do so could lead to potential thermal throttling issues. Intel's next-gen Xeon CPU architectures are shaping up to be one of the most considerable generational leaps in recent memory. Still, they come with a trade-off in power consumption that vendors and data centers will need to address. Densely packing thousands of these 500-Watt SKUs will lead to new power and thermal challenges, and we wait to see future data center projects utilizing them.

ZOTAC Technology is announcing a new lineup of enterprise and healthcare-oriented mini PCs designed for specific applications and scalable deployment, as well as a whole new class of external GPU acceleration platforms for Thunderbolt 3-compatible PCs. Aside from the all-new additions, ZOTAC is also refreshing its best-selling performance mini PCs with the newest generations of Intel Core Processors and NVIDIA RTX-enabled GPUs. ZOTAC will debut these rugged, innovative solutions and showcase other AI-ready compute solutions during Hannover Messe 2024, reaffirming ZOTAC's commitment to embrace the AI-driven future.

ZOTAC ZBOX Healthcare Series: Medical AI Solution
With the all-new ZOTAC Healthcare Series, ZOTAC is offering the reputed superior quality and performance of ZOTAC ZBOX Mini PCs to the realm of Healthcare. The ZBOX H39R5000W and ZBOX H37R3500W are equipped with 13th Generation Intel Core i9 or i7 laptop processors, as well as professional-grade NVIDIA RTX Ada Generation laptop GPUs. These mini PCs are ready to power medical imaging, algorithms, and more, with some of the latest and greatest hardware currently available.

Today, Intel announced that it has built the world's largest neuromorphic system. Code-named Hala Point, this large-scale neuromorphic system, initially deployed at Sandia National Laboratories, utilizes Intel's Loihi 2 processor, aims at supporting research for future brain-inspired artificial intelligence (AI), and tackles challenges related to the efficiency and sustainability of today's AI. Hala Point advances Intel's first-generation large-scale research system, Pohoiki Springs, with architectural improvements to achieve over 10 times more neuron capacity and up to 12 times higher performance.

"The computing cost of today's AI models is rising at unsustainable rates. The industry needs fundamentally new approaches capable of scaling. For that reason, we developed Hala Point, which combines deep learning efficiency with novel brain-inspired learning and optimization capabilities. We hope that research with Hala Point will advance the efficiency and adaptability of large-scale AI technology." -Mike Davies, director of the Neuromorphic Computing Lab at Intel Labs

Lenovo is putting finishing touches on the Yoga Slim 7 14 2024, one of the first non-reference laptop to feature Qualcomm's latest Snapdragon X processor. Leaked images circulating on X (formerly Twitter) reveal a sleek and stylish design, with a 14-inch or 14.5-inch display encased in a slim and portable form factor. Qualcomm has previously showcased eye-catching demo reference systems in a striking red color scheme, but Lenovo's Yoga Slim 7 14 2024 marks the first time a significant laptop manufacturer with actual product images incorporating the Snapdragon X chip. The Yoga Slim 7 14 2024 is part of Lenovo's popular Slim laptop lineup, including models powered by Intel and AMD processors. The latest "Gen 8" iteration featured options for AMD Ryzen 7040 series and Intel 13th Gen Core i and Core Ultra series CPUs.

One notable addition to the Snapdragon X-powered model is the inclusion of a dedicated Microsoft Copilot button. Qualcomm has heavily touted the Snapdragon X's Neural Processing Unit (NPU) performance and its ability to directly accelerate various AI and machine learning algorithms on the device. There have been a few comparison points between Meteor Lake with Intel's NPU and Snapdragon X Elite with Qualcomm's NPU. The chipmaker's X Elite and X Plus laptop offerings are expected to arrive soon, and there are strong indications that this may happen during the Computex trade show.Update 17:28 UTC: X user WalkingCat has posted images of Lenovo Thinkpad T14s laptop, which can be seen below.

MSI is here to announce the latest AGESA ComboPI 1.1.7.0 Patch A BIOS update for AM5 next gen CPU support on X670E, X670, B650, A620 motherboards. Users would simply need to update the BIOS to the latest version accordingly. MSI will continue to update the latest news for our users. Please follow MSI's official channels and check the product pages for the latest BIOS updates to guarantee optimal experience, heightened performance, and enhanced stability.

For more about MSI AMD 600 series motherboards, please check here.

NVIDIA's next-gen Blackwell platform, which includes B-series GPUs and integrates NVIDIA's own Grace Arm CPU in models such as the GB200, represents a significant development. TrendForce points out that the GB200 and its predecessor, the GH200, both feature a combined CPU+GPU solution, primarily equipped with the NVIDIA Grace CPU and H200 GPU. However, the GH200 accounted for only approximately 5% of NVIDIA's high-end GPU shipments. The supply chain has high expectations for the GB200, with projections suggesting that its shipments could exceed millions of units by 2025, potentially making up nearly 40 to 50% of NVIDIA's high-end GPU market.

Although NVIDIA plans to launch products such as the GB200 and B100 in the second half of this year, upstream wafer packaging will need to adopt more complex and high-precision CoWoS-L technology, making the validation and testing process time-consuming. Additionally, more time will be required to optimize the B-series for AI server systems in aspects such as network communication and cooling performance. It is anticipated that the GB200 and B100 products will not see significant production volumes until 4Q24 or 1Q25.

Thanks for the detailed information obtained by The Verge, today we confirm previously leaked details as Sony gears up to unveil the highly anticipated PlayStation 5 Pro, codenamed "Trinity." According to insider reports, Sony is urging developers to optimize their games for the PS5 Pro, with a primary focus on enhancing ray tracing capabilities. The console is expected to feature an RDNA 3 GPU with 30 WGP running BVH8, capable of 33.5 TeraFLOPS of FP32 single-precision computing power, and a slightly quicker CPU running at 3.85 GHz, enabling it to render games with ray tracing enabled or achieve higher resolutions and frame rates in select titles. Sony anticipates GPU rendering on the PS5 Pro to be approximately 45 percent faster than the standard PlayStation 5. The PS5 Pro GPU will be larger and utilize faster system memory to bolster ray tracing performance, boasting up to three times the speed of the regular PS5.

Additionally, the console will employ a more powerful ray tracing architecture, backed by PlayStation Spectral Super Resolution (PSSR), allowing developers to leverage graphics features like ray tracing more extensively. To support this endeavor, Sony is providing developers with test kits, and all games submitted for certification from August onward must be compatible with the PS5 Pro. Insider Gaming, the first to report the full PS5 Pro specs, suggests a potential release during the 2024 holiday period. The PS5 Pro will also feature modifications for developers regarding system memory, with Sony increasing the memory bandwidth from 448 GB/s to 576 GB/s, enhancing efficiency for an even more immersive gaming experience. To do AI processing, there is an custom AI accelerator capable of 300 8-bit INT8 TOPS and 67 16-bit FP16 TeraFLOPS, in addition to ACV audio codec running up to 35% faster.

According to a recently published help guide, spotted by the X/Twitter user @harukaze5719, NVIDIA has addressed reported stability problems users are experiencing with Intel's latest 13th and 14th generation Raptor Lake Core processors, especially the high-performance overclockable K-series models. In a recent statement, NVIDIA recommended that owners of the affected Intel CPUs consult directly with Intel if they encounter issues such as system instability, video memory errors, game crashes, or failures to launch certain applications. The problems seem particularly prevalent when running demanding workloads like gaming on Unreal Engine 5 titles or during shader compilation tasks that heavily utilize the processor and graphics capabilities. Intel has established a dedicated website to provide support for these CPU instability cases. However, the chipmaker still needs to issue a broad public statement and provide a definitive resolution.

The instability is often attributed to the very high frequencies and performance the K-series Raptor Lake chips are designed to achieve, which are among the fastest processors in Intel's lineup. While some community suggestions like undervolting or downclocking the CPUs may help mitigate issues in the short term, it remains unclear if permanent fixes will require BIOS updates from motherboard manufacturers or game patches.

Update: As the community has pointed out, motherboard makers often run the CPU outside of Intel's default spec, specifically causing overvolting through modifying or removing power limits, which could introduce instabilities into the system. Running the CPU at Intel-defined specification must be assured with a BIOS check to see if the CPU is running at specified targets. Intel programs the voltage curve into the CPU, and when motherboard makers remove any voltage/power limits, the CPU takes freedom in utilizing the available headroom, possibly causing system instability. We advise everyone to check the power limit setting in the BIOS for the health of their own system.