AnandTech reports: It's no secret that Intel's enterprise processor platform has been stretched in recent generations. Compared to the competition, Intel is chasing its multi-die strategy while relying on a manufacturing platform that hasn't offered the best in the market. That being said, Intel is quoting more shipments of its latest Xeon products in December than AMD shipped in all of 2021, and the company is launching the next generation Sapphire Rapids Xeon Scalable platform later in 2022. Beyond Sapphire Rapids has been somewhat under the hood, with minor leaks here and there, but today Intel is lifting the lid on that roadmap.

Currently in the market is Intel's Ice Lake 3rd Generation Xeon Scalable platform, built on Intel's 10nm process node with up to 40 Sunny Cove cores. The die is large, around 660 mm2, and in our benchmarks we saw a sizeable generational uplift in performance compared to the 2nd Generation Xeon offering. The response to Ice Lake Xeon has been mixed, given the competition in the market, but Intel has forged ahead by leveraging a more complete platform coupled with FPGAs, memory, storage, networking, and its unique accelerator offerings. Datacenter revenues, depending on the quarter you look at, are either up or down based on how customers are digesting their current processor inventories (as stated by CEO Pat Gelsinger). Further reading: Intel Arc Update: Alchemist Laptops Q1, Desktops Q2; 4M GPUs Total for 2022.

AMD on Monday completed the acquisition of Xilinx, creating a company that can offer various types of compute devices, including CPUs, GPUs, and FPGAs. Tom's Hardware reports: AMD CEO Dr. Lisa Su told analyst Patrick Moorhead that the first processor combining Xilinx technologies will arrive in 2023, which is in contrast to the company's previous integration efforts. After AMD bought ATI Technologies in 2006, it took the company five years to build its first accelerated processing units (which included AMD's x86 cores and ATI's GPU). This time AMD inked a long-term development pact with Xilinx and was able to work collaboratively even before the regulators approved the transaction. It remains to be seen what exactly AMD plans to offer, but it is reasonable to expect the new processor to feature AMD's x86 cores and Xilinx's programmable engines.

The move will help AMD to continue expanding its presence in the datacenter sector and offer unique solutions that will combine IP ingredients designed by the two companies. Interestingly, the first fruits of the deal are expected to materialize next year. [...] The Xilinx business will become AMD's Adaptive and Embedded Computing Group (AECG), led by former Xilinx CEO Victor Peng. As a result, Xilinx will maintain its leadership for at least a while. Furthermore, AMD's embedded business will cease to be a part of the company's enterprise and semi-custom unit and will merge into AECG, which might be good news as executives from the enterprise division will now spend more time on EPYC CPUs. "The acquisition of Xilinx brings together a highly complementary set of products, customers and markets combined with differentiated IP and world-class talent to create the industry's high-performance and adaptive computing leader," said Lisa Su, chief executive of AMD. "Xilinx offers industry-leading FPGAs, adaptive SoCs, AI inference engines and software expertise that enable AMD to offer the strongest portfolio of high-performance and adaptive computing solutions in the industry and capture a larger share of the approximately $135 billion market opportunity we see across cloud, edge, and intelligent devices."

Intel won a historic victory in its court fight over a record 1.06 billion-euro ($1.2 billion) competition fine, in a landmark ruling that upends one of the European Union's most important antitrust cases. From a report: The EU General Court ruled on Wednesday that regulators made key errors in a landmark 2009 decision over allegedly illegal rebates that the U.S. chip giant gave to PC makers to squeeze out rival Advanced Micro Devices (AMD). While the surprise ruling can be appealed one more time, it's a stinging defeat for the European Commission, which hasn't lost a big antitrust case in court for more than 20 years. The Luxembourg-based EU court said the commission provided an "incomplete" analysis when it fined Intel, criticizing it for failing to provide sufficient evidence to back up its findings of anti-competitive risks.

AMD's GPU technology is returning to mobile handsets with Samsung's Exynos 2200 system-on-chip, which was announced on Tuesday. The Register reports: The Exynos 2200 processor, fabricated using a 4nm process, has Armv9 CPU cores and the oddly named Xclipse GPU, which is an adaptation of AMD's RDNA 2 mainstream GPU architecture. AMD was in the handheld GPU market until 2009, when it sold the Imageon GPU and handheld business for $65m to Qualcomm, which turned the tech into the Adreno GPU for its Snapdragon family. AMD's Imageon processors were used in devices from Motorola, Panasonic, Palm and others making Windows Mobile handsets. AMD's now returning to a more competitive mobile graphics market with Apple, Arm and Imagination also possessing homegrown smartphone GPUs.

Samsung and AMD announced the companies were working together on graphics in June last year. With Exynos 2200, Samsung has moved on from Arm's Mali GPU family, which was in the predecessor Exynos 2100 used in the current flagship Galaxy smartphones. Samsung says the power-optimized GPU has hardware-accelerated ray tracing, which simulates lighting effects and other features to make gaming a better experience. [...] The Exynos 2200 has an image signal processor that can apparently handle 200-megapixel pictures and record 8K video. Other features include HDR10+ support, and 4K video decoding at up to 240fps or 8K decoding at up to 60fps. It supports display refresh rates of up to 144Hz.

The eight-core CPU cluster features a balance of high-performing and power-efficient cores. It has one Arm Cortex-X2 flagship core, three Cortex-A710 big cores and four Cortex-A510s, which is in the same ballpark as Qualcomm's Snapdragon 8 Gen 1 and Mediatek's Dimensity 9000, which are the only other chips using Arm's Armv9 cores and are made using a 4nm process. An integrated 5G modem supports both sub-6GHz and millimeter wave bands, and a feature to mix LTE and 5G signals speeds up data transfers to 10Gbps. The chip also has a security processor and an AI engine that is said to be two times faster than its predecessor in the Exynos 2100.

ArsTechnica: So here's a crazy story. Samsung was supposed to have a big SoC launch on Tuesday, but that launch did not happen. Samsung didn't cancel or delay the event. The January 11 date was announced, but when the time for the event came, nothing happened! Samsung pulled a no-call no-show for a major product launch. [...] The Exynos 2200 was (?) shaping up to be a major launch for Samsung. It is, after all, the first Samsung SoC with the headline-grabbing feature of having an AMD GPU. The two companies announced this deal a year ago, and we've been giddy about it ever since. The Exynos 2200 is (or was) going to debut in the Galaxy S22. That launch event is currently scheduled for February 8, assuming Samsung doesn't ghost everyone again.

An anonymous reader quotes a report from Ars Technica: Apple hasn't stopped selling Intel Macs just yet, but it's safe to say that we'll never see a Mac with one of Intel's 12th-generation Core processors in it. But that minor detail isn't stopping the Hackintosh community from supporting new Intel and AMD processors and platforms. The developers behind OpenCore, the most powerful and actively maintained bootloader for loading macOS on standard PC hardware, improved its Alder Lake support in this month's release, version 0.7.7. In a blog post over the weekend, the developers also detailed their efforts to update OpenCore and its associated software to work with Intel's Z690 chipset.

The key to building a functional Hackintosh is normally to build a PC that's as close as possible to actual Intel Mac hardware -- most crucially, the CPU, GPU, and chipset. OpenCore's job is to bridge whatever gap is left between your PC and real Mac hardware so that macOS boots and works properly. It adds support for reading and booting macOS filesystems, loads kernel extensions to support additional hardware, tells macOS how to handle your system's audio outputs and USB ports, and spoofs hardware to take advantage of macOS's built-in support (if, for example, your PC has a GPU that is similar to but not quite identical to a GPU included in a real Intel Mac). As OpenCore has developed and matured, it has gotten better at bridging larger and larger gaps between PC hardware and "real" Macs. It can get old versions of macOS like Tiger (10.4) and Snow Leopard (10.6) up and running on old hardware, and it can even be used to run newer macOS versions on real Macs that Apple has dropped from the official support list. It can even run macOS on AMD processors, albeit with some caveats for software that relies on Intel-specific functionality. The still-active Hackintosh Reddit community is full of people running macOS on all kinds of different hardware.

It's that sort of flexibility that will keep macOS working on 12th-generation Intel CPUs and the Z690 chipset. All of that said, running macOS on newer hardware isn't for the faint of heart, and some things just aren't going to work. Trying to use 12th-gen processors' new efficiency cores (or E-cores) can also cause general slowdowns because macOS doesn't know how to best distribute work between the different types of cores -- macOS doesn't (and never will) support Intel's "Thread Director" technology, which needs to be baked into your operating system to get the best performance. The GPUs from 11th- and 12th-generation Intel processors also won't work in Hackintoshes because they were never supported in real Macs, so you would need to rely on a dedicated AMD GPU to handle display output and other tasks (in real Intel Macs, even iMacs and MacBook Pros with dedicated GPUs still use the integrated Intel GPUs for video and photo encoding and decoding). Apple is still adding support for newer AMD GPUs in macOS releases, presumably so those cards can work in the Mac Pro -- the Radeon RX 6900 series, 6800 series, and RX 6600 XT are all supported -- but Apple could easily decide to stop supporting newer GPUs whenever it wants. And Nvidia GPUs aren't supported at all.

In November 2020, Microsoft took the wraps off its Pluton security chip, with the goal of bringing it to all Windows 10 PCs. It wasn't until this week, that any of Microsoft's OEMs announced their first Pluton-powered PCs. From a report: At CES, Lenovo unveiled its Ryzen-6000-based ThinkPad Z series laptops running Windows 11, which will integrate the Microsoft Pluton processor. The coming ThinkPad Z series laptops will begin shipping in May 2022. Thanks to Pluton, these devices will be able to receive updated firmware using Windows Update. In the ThinkPad Z13 and Z16, Pluton will help protect Windows Hello credentials, according to Microsoft, by further isolating them from attackers. These new ThinkPads will use Pluton as their TPMs to protect encryption keys from physical attacks, Microsoft officials said. Microsoft pioneered Pluton first in Azure Sphere, its Linux-based microcontroller, and in Xbox. In a January 4 blog post, Microsoft officials noted that Pluton can be configured in three ways: As the Trusted Platform Module (TPM); as a security processor for non-TPM scenarios like platform resiliency; or inside a device where OEMs have opted to ship with the chip turned off.

Reader segaboy81 shares a report: When Microsoft announced Windows 11 in June of 2021, it was greeted with mixed reactions by the tech press. Some outlets praised the round corners and modern design elements, while others conjectured that visual elements from the remains of Windows 10x had simply been transplanted onto a stable, familiar base. All the while, Microsoft had been gaining a loyal following with what was purported to be last version on Windows. Windows, like Arch Linux, had essentially become a rolling release. That all changed with the announcement of the Surface Pro 8, Surface Go 3, and Surface Laptop Studio.

The road has been long for many users, mired with controversy regarding TPM 2.0, AMD Ryzen performance pitfalls, and more. We are a full two months into the official release of Windows 11, but driver support for Microsoft's Surface line of devices listed on the official compatibility list is still incomplete. Counting AMD and Intel variants of the Surface Laptop and the 2021 lineup of new hardware, there are 16 base Surface configurations that support Windows 11. Five of them still don't have a Windows 11 driver package two months after release. They are as follows: Surface Go 2, Surface Pro 6, Surface Laptop 2, Surface Laptop 3 (Ryzen), and Surface Studio 2.

AnandTech: The notebook market is a tough nut to crack with a single solution. People want that mix of high performance at the top, cost effectiveness at the bottom, and throughout there has to be efficiency, utility, and function. On the back of a successful ramp last year, AMD is striking the notebook market hot again in 2022 with the launch of its new Ryzen 6000 Mobile processors. These 'Rembrandt' APUs feature AMD's latest RDNA2 graphics, up to eight Zen3+ cores with enhanced power management features, and it uses TSMC's N6 manufacturing process for performance and efficiency improvements. Yesterday AMD disclosed that they would be launching the new Ryzen 6000 Mobile series today -- updated cores, better graphics, more features, all in a single monolithic package a little over 200 mm2.

There will be 10 new processors, ranging from the traditional portable 15 W and 28 W hardware, up to 35 W and 45 W plus for the high-end gaming machines. AMD is expecting 200+ premium systems in the market with Ryzen Mobile in 2022. At the heart of the design is AMD's Zen 3+ core, which affords an improvement in power management between the cores, but keeps the Zen 3 performance characteristics. The focus here is mainly to improve idle power consumption and power when using accelerators, to help extend the life of ultraportable devices -- AMD is claiming 15-40% lower power between web browsing and video streaming. There is a frequency uplift as well, with the top processors going up to 5.0 GHz. AMD is claiming up to 1.3x single thread performance for the Ryzen 7 6800U.

AMD's $35 billion acquisition of Xilinx is now expected to close in the first quarter of 2022, which is a few months after AMD and Xilinix's originally proposed closing of the deal before the end of 2021. Tom's Hardware reports: AMD has cleared regulatory hurdles in all but China. News filtered out earlier this month that AMD has filed certain undefined 'behavioral remedies' to appease Chinese regulators, and mid-month found news that China's antitrust agency, the State Administration for Market Regulation (SAMR), was still market-testing AMD's proposed remedies.

Here's AMD's statement on the matter: "We continue making good progress on the required regulatory approvals to close our transaction. While we had previously expected that we would secure all approvals by the end of 2021, we have not yet completed the process and we now expect the transaction to close in the first quarter of 2022. Our conversations with regulators continue to progress productively, and we expect to secure all required approvals. There are no additional changes to the previously announced terms or plans regarding the transaction and the companies continue to look forward to the proposed combination creating the industry's high-performance and adaptive computing leader."

An anonymous reader quotes a report from CNBC, written by Todd Haselton: Apple's decision to ditch Intel paid off this year. The pivot allowed Apple to completely rethink the Mac, which had started to grow stale with an aging design and iterative annual upgrades. Following the divorce from Intel, Apple has launched far more exciting computers which, paired with an ongoing pandemic that has forced people to work and learn from home, have sent Apple's Mac business soaring. It wasn't always a given. When Apple announced its move away from Intel in 2020, it was fair to question just how well Apple could power laptops and desktop computers. Apple has used in-house chips for iPhones and iPads but had been selling Intel-powered computers for 15 years. It wasn't clear how well its macOS desktop software would work with apps designed to run on Intel chips, or whether its processors would offer any consumer benefits and keep up with intensive tasks that people turned to MacBooks to run. Those fears were quickly quelled.

The first M1 Apple chip was launched in 2020 in a MacBook Air laptop. It was more powerful than Intel's chip while offering longer battery life and enabling a fanless design, which helped keep Apple's new MacBook Air even quieter. It proved to be an early success. In April 2021, CEO Tim Cook said during the company's fiscal second-quarter earnings call that the M1 chip helped fuel the 70.1% growth in Apple's Mac revenue, which hit $9.1 billion during that quarter. The growth continued in fiscal Q3, when Mac revenue was up 16% year over year. That quarter, it launched the all-new iMac, which offered a redesigned super-thin metal body that looks like a screen propped up on a stand. It's slimmer than the Intel models that came before it, while offering other benefits, like a much better webcam, great speakers and a much sharper display than the models it replaced. And Apple made the launch more exciting by offering an array of colors for the iMac, which it hadn't done since it shipped the 1999 iMac. There was a slowdown in fiscal Q4, when Mac revenue grew just 1.6%, as Apple, like all manufacturers, saw a slowdown from the burst of sales driven by the start of the pandemic and dealt with supply chain woes. But fiscal Q4 sales didn't include revenue from its most exciting new computer of the year.

Apple's fiscal Q1 earnings in January will give an indication of how well all its new computers are selling. But it's clear the move from Intel has allowed Apple to move full speed ahead with its own chip development, much like it does for iPhones and iPads, the latter of which has yet to be matched by any other tablet on the market. It's no longer beholden to delays that plagued Intel, which started to lag behind AMD with its new 7nm chips. And Apple has full control over its "stack," which means it can design new computer hardware and software together, instead of letting the power of another company's chips dictate what its computers can and can't do.

The Performance P650 won't beat a top-end Arm chip in a Samsung or Apple smartphone, but the startup believes its designs eventually could. From a report: It's really hard to get a new chip family to catch on when companies like Intel and Qualcomm ship their products by the millions, but SiFive has a faster new design it hopes will carve a niche. The startup on Thursday announced its Performance P650 design, which comes with a 50% speed boost over the P550 that arrived in June. SiFive is one of the most prominent members of RISC-V International, an alliance collectively developing a family of processors using the new RISC-V architecture. That competes against the x86 architecture from Intel and AMD that dominates in PCs and the Arm architecture used by Qualcomm, Samsung, Apple, MediaTek and others to power all smartphones. Unlike x86 and Arm, though, RISC-V is free to use. It's a fresh start its advocates believe will be more economical and efficient.

SiFive doesn't make chips. Instead, it licenses its designs to others that customize them for their own purposes, an approach that's served Arm well. With performance comparable to Arm's two-year-old midrange Cortex A77 design, the P650 won't be ejecting Qualcomm or other Arm designs out of smartphones any time soon. Customers can start evaluating the design in the first quarter of 2022, SiFive said. But if SiFive succeeds with its longer-term plans for better speed, battery life and cost, you could get a SiFive powered phone in a couple years. "By 2023, you're likely to see the first mobile phone with RISC-V," SiFive Chief Executive Patrick Little said in an October interview. "I think we have an excellent shot at the phone."

As wafer costs increase, so are the costs of GPUs. According to a post on the Board Forums, AMD says it's increasing the price of its RX 6000 series GPUs by 10 percent across the board. ExtremeTech reports: This pricing change will apparently occur in the next shipment of GPUs to its partners, which will apparently drive up the price of these GPUs by $20 to $40 USD. This news arrives just in time for the holiday shopping season, when demand for GPUs is expected to increase even more, as if that is even possible.

According to a translation of the board posting, AMD is citing TSMC wafer costs as the reason for the change, and as we reported earlier, sub-16nm prices, including 12nm, 7nm, and 5nm, are said to have increased roughly 10 percent, while TSMC's older nodes have gone up by as much as 20 percent. AMD seems to be passing this price increase along to its partners, who in turn are passing it along to us, the customer, or the scalper, as it were. Then the scalper passes it along to us, the gamers. Although, as Videocardz points out AMD also produces its CPUs at TSMC and there hasn't been a similar across-the-board increase, which is curious.

Years after its failed Steam Machines, Valve is slowly but surely improving the state of Linux gaming. From a report: The company's upcoming Steam Deck handheld runs atop Linux, and its Proton compatibility layer lets it -- and other computers -- play Windows games as well. Now, Valve has officially added support for Nvidia's DLSS machine learning temporal upscaling technique to Proton, potentially bringing big FPS boosts and less flicker in games that support the technology.

Proton 6.3-8 is the first stable release to include support for DLSS, after the feature previously hit experimental builds in October, though it appears you'll still need to set PROTON_ENABLE_NVAPI=1 and dxgi.nvapiHack = False to turn it on. DLSS won't come to the AMD-powered Steam Deck, of course, since it requires proprietary Nvidia machine learning silicon, but we recently learned the Steam Deck will support AMDâ(TM)s arguably much less capable FSR.

An anonymous reader quotes a report from XDA Developers: Last week, we reported that MediaTek is planning to build a chipset for Windows on ARM. As it turns out, the Windows on ARM chipset space could be even hotter than that, because there's a reason that we've only seen Qualcomm SoCs in ARM PCs so far. Qualcomm actually has an exclusivity deal with Microsoft for Windows on ARM, and speaking with people familiar with it, we've learned that the deal is set to expire soon. Other than the fact that Microsoft has publicly said that anyone who wants to can build a Windows on ARM chip, this really shouldn't come as a surprise. Qualcomm didn't just start building PC chips hoping that Microsoft would compile Windows to support it. No, these two companies worked together to make it happen. Because of that, Qualcomm gets to enjoy a bit of exclusivity.

One thing I wasn't able to learn is when the deal will expire, only that it's the thing holding back other chip vendors from competing in the space. It's possible that Samsung might want to throw its hat into the ring with its Exynos processors too, especially given its recent partnership with AMD for graphics power. This is also presumably why Apple Silicon Macs aren't officially supported for running Windows 11, so hopefully that will change as well. [...] Between MediaTek's Executive Summit and Qualcomm's Investor Day, there's been a very clear message that ARM SoC vendors absolutely believe that the 'Wintel' partnership is going to fade and that the transition to ARM isn't just happening, it's inevitable. Naturally, that means that all of these companies are going to want to be part of it when it opens up. Qualcomm has quite a head start though, given that it's been doing this for a few years and on top of that, it's going to start building its own custom silicon thanks to its Nuvia acquisition.

America's push to manufacturer more products domestically gets an in-depth look from CNET — including a new Intel chip factory outside of Phoenix.

CNET calls it a fork in the road "after squandering its lead because of a half decade of problems modernizing its manufacturing..." With "a decade of bad decisions, this doesn't get fixed overnight," says Pat Gelsinger, Intel's new chief executive, in an interview. "But the bottom is behind us and the slope is starting to feel increasingly strong...." More fabs are on the way, too. In an enormous empty patch of dirt at its existing Arizona site, Intel has just begun building fabs 52 and 62 at a total cost of $20 billion, set to make Intel's most advanced chips, starting in 2024. Later this year, it hopes to announce the U.S. location for its third major manufacturing complex, a 1,000-acre site costing about $100 billion. The spending commitment makes this year's $3.5 billion upgrade to its New Mexico fab look cheap. The goal is to restore the U.S. share of chip manufacturing, which has slid from 37% in 1990 to 12% today. "Over the decade in front of us, we should be striving to bring the U.S. to 30% of worldwide semiconductor manufacturing," Gelsinger says...

But returning Intel to its glory days — and anchoring a resurgent U.S. electronics business in the process — is much easier said than done. Making chips profitably means running fabs at maximum capacity to pay off the gargantuan investments required to stay at the leading edge. A company that can't keep pace gets squeezed out, like IBM in 2014 or Global Foundries in 2018. To catch up after its delays, Intel now plans to upgrade its manufacturing five times in the next four years, a breakneck pace by industry standards. "This new roadmap that they announced is really aggressive," says Linley Group analyst Linley Gwennap. "I don't have any idea how they are going to accomplish all of that...."

Gelsinger has a tech-first recovery plan. He's pledged to accelerate manufacturing upgrades to match the technology of TSMC and Samsung by 2024 and surpass them in 2025. He's opening Intel's fabs to other companies that need chips built through its new Intel Foundry Services (IFS). And he's relying on other foundries, including TSMC, for about a quarter of Intel's near-term chipmaking needs to keep its chips more competitive during the upgrades. This three-pronged strategy is called IDM (integrated design and manufacturing) 2.0. That's a new take on Intel's philosophy of both designing and making chips. It's more ambitious than the future some had expected, in which Intel would sell its factories and join the ranks of "fabless" chip designers like Nvidia, AMD and Qualcomm that rely on others for manufacturing...

Shareholders may not like Gelsinger's spending-heavy strategy, but one community really does: Intel's engineers... Gelsigner told the board that Intel is done with stock buybacks, a financial move in which a company uses its cash to buy stock and thereby increase its price. "We're investing in factories," he told me. "That's going to be the use of our cash...."

"We cannot recall the last time Intel put so many stakes in the ground," said BMO Capital Markets analyst Ambrish Srivastava in a July research report after Intel announced its schedule.
Intel will even outpace Moore's law, Gelsinger tells CNET — more than doubling the transistor count on processors every two years. "I believe that you're going to see from 2025 to 2035 a very healthy period for Moore's Law-like behavior."

Although that still brings some risk to Intel's investments if they have to pass the costs on to customer, a Linley Group analyst points out to CNET. "Moore's Law is not going to end when we can't build smaller transistors. It's going to end when somebody says I don't want to pay for smaller transistors."

According to a report from Nikkei Asia (paywalled), "The Japanese-made Fugaku captured its fourth consecutive title as the world's fastest supercomputer on Tuesday, although a rival from the U.S. or China is poised to steal the crown as soon as next year." From a report: But while Fugaku is the world's most powerful public supercomputer, at 442 petaflops, China is believed to secretly operate two exascale (1,000 petaflops) supercomputers, which were launched earlier this year. The top 10 list did not change much since the last report six months ago, with only one new addition -- a Microsoft Azure system called Voyager-EUS2. Voyager, featuring AMD Epyc CPUs and Nvidia A100 GPUs, achieved 30.05 petaflops, making it the tenth most powerful supercomputer in the world.

The other systems remained in the same position - after Japan's Arm-based Fugaku comes the US Summit system, an IBM Power and Nvidia GPU supercomputer capable of 148 petaflops. The similarly-architected 94 petaflops US Sierra system is next. Then comes what is officially China's most powerful supercomputer, the 93 petaflops Sunway TaihuLight, which features Sunway chips. The Biden administration sanctioned the company earlier this year. You can read a summary of the systems in the Top10 here.

Microsoft has announced a new edition of Windows 11 designed specifically for the K-8 education sector, dubbed "Windows 11 SE." This new edition of Windows 11 is designed to address fundamental challenges that schools are facing day to day with improved performance, optimized resources, and simple to deploy and manage. From a report: Microsoft says Windows 11 SE has been optimized for education focused low-cost PCs, most of which start at the affordable price of $249 and are powered by low-end Intel and AMD chips. Windows 11 SE was designed with feedback from teachers and school IT admins in mind. Unlike normal Windows 11, Windows 11 SE comes pre-loaded with Microsoft Office out of the box, including Word, PowerPoint, Excel, OneNote, and OneDrive, which can also be used offline as part of a Microsoft 365 license.

Microsoft has also limited some of the multitasking features, including reducing the amount of apps that can be snapped on screen at once to just two; side by side. The Microsoft Store app is also disabled. Windows 11 SE also automatically runs apps in full-screen, which makes sense considering most Windows 11 SE PCs will feature small 11-inch displays. It also removes access to the "This PC" area in File Explorer by default, as it's an area most students don't need to access when working on school work. Windows 11 SE is "cloud backed" meaning it will mirror all your saved documents stored locally to the cloud.

Advanced Micro Devices said Meta Platforms, formerly known as Facebook, is becoming a user of its server processors, further eroding Intel's hold on that lucrative market. From a report: Meta will use AMD Epyc processors in its data center computers, the two companies said Monday at an event. AMD also unveiled a new version of that chip with extra memory, which Microsoft Corp. will use in an offering from its Azure cloud computing service. The chipmaker also showed off a new graphics chip for artificial intelligence workloads and gave hints about its next generation of processors coming in 2022. The addition of Meta, the world's largest social media company, to AMD's customer list means it now supplies all the top operators of the giant computing networks that run the internet. Winning those major spenders was part of Chief Executive Officer Lisa Su's plan to resurrect AMD and have it reach market share levels it had only briefly flirted with amid years of struggling to keep up with Intel.

"Intel is gearing up to go to a war with Nvidia," writes Slashdot reader labloke11. "They have their OneAPI and their GPU. It will be interesting... For me, I like competition." Phoronix reports: While Intel Alder Lake is dominating today's news cycle, Intel and Microsoft also announced today that they have brought oneAPI Level Zero and Intel OpenCL support to Windows Subsystem for Linux (WSL2) while employing Intel graphics hardware acceleration. Similar to NVIDIA bringing CUDA and their accelerated GPU support to WSL2 as well as similar efforts by AMD on the Radeon side, Intel and Microsoft are now having Intel graphics compute working within the Linux confines on Windows 11 or Windows 10 21'H2. Hardware-accelerated oneAPI Level Zero, OpenVINO, and OpenCL on Intel graphics hardware can now be enjoyed within the WSL2 environment when using the latest updates and drivers. Like with the rest of the WSL2 stack and capabilities from other GPU vendors, this is at a near-native level of performance. More information can be found via the Microsoft Command Line blog and Intel blog.