In the last two weeks, six new Linux laptops have hit the market (or were announced). "The Linux hardware scene is getting better by the day," writes the site FOSS Weekly:

• Star Labs teases its new StarFighter Linux Laptop with a 4K (10-bit IPS) display.

• MNT Research introduces a "more affordable" 7-inch mini Linux laptop, the MNT Pocket Reform.

• KDE's Slimbook 4 is here with AMD Ryzen 7 5700U processor and a better battery, starting from $1,000. "Buying from Slimbook supports KDE development too," notes Gaming on Linux, adding that there's a choice of 14 or 15.6 inch displays.

• TUXEDO's Pulse 15 — Gen2 (also with an AMD Ryzen 7 5700U processor) has a 15-inch HiDPI WQHD 165Hz display, along with eight cores and 16 threads. (And the Register notes its twin cooling fans, "allowing them to overclock the chip and run it at 35W," and a choice of distros.)

• Pre-orders have opened for the Roma — the first RISC-V Laptop (which may ship in September). Ars Technica reports they're offering "free Silicon upgrades" — that is free system-on-a-chip and system-on-module upgrades for its quad-core RISC-V CPU. And there's also a companion NPU/GPU, notes a blog post at RISCV.org, "for the fastest, seamless RISC-V native software development available." (As well as "early access to next-generation laptop and accessory upgrades at generous discounts or for free.") The blog post calls it a "Web3-friendly platform with NFT creation and publication plus integrated MetaMask-style wallet."

• System 76's "Lemur" Alder Lake- and coreboot-powered laptop arrives with 14 hours of battery life.

Wall Street analysts estimate TSMC will grow second-quarter revenue 43 percent quarter-over-quarter to $18.1 billion. Intel, on the other hand, is expected to see sales decline 2 percent sequentially to $17.98 billion in the same period, according to estimates collected by Yahoo Finance. The Register reports: The potential for TSMC to surpass Intel in quarterly revenue is indicative of how demand has grown for contract chip manufacturing, fueled by companies like Qualcomm, Nvidia, AMD, and Apple who design their own chips and outsource manufacturing to foundries like TSMC. This trend has created a quandary for Intel. The semiconductor giant has traditionally manufactured the chips it designs as part of its integrated device manufacturing model but the company is now increasingly reliant on TSMC and other foundries for certain components, while expanding its own manufacturing capacity in the West.

The kicker is that Intel plans to use this increased capacity to produce more of its own chips while also supporting its revitalized foundry business, which hopes to take business from TSMC and South Korea's Samsung, the industry's other leading-edge chipmaker, in the future. This new strategy by Intel is called IDM 2.0, and it means the chipmaker will have to juggle two somewhat conflicting objectives:

- taking foundry market share away from TSMC and Samsung by convincing various fabless chip designers to use its plants;
- and using leading-edge nodes from TSMC and Samsung for certain components to compete with fabless companies like AMD and Nvidia. "Samsung has already surpassed Intel as the largest semiconductor company by revenue, so TSMC potentially growing larger than the x86 giant further underscores the tentative position Intel is in," concludes the report.

AMD said it is investigating a potential data breach after RansomHouse, a relatively new data cybercrime operation, claims to have extorted data from the U.S. chipmaker. From a report: An AMD spokesperson told TechCrunch that the company "is aware of a bad actor claiming to be in possession of stolen data," adding that "an investigation is currently underway." RansomHouse, which earlier this month claimed responsibility for a cyberattack on Shoprite, Africa's largest retailer, claims to have breached AMD on January 5 to steal 450 GB of data. The group claims to be targeting companies with weak security, and claimed it was able to compromise AMD due to the use of weak passwords throughout the organization.

"An era of high-end technology, progress and top security... there's so much in these words for the crowds. But it seems those are still just beautiful words when even technology giants like AMD use simple passwords to protect their networks from intrusion," RansomHouse wrote on its data leak site. "It is a shame those are real passwords used by AMD employees, but a bigger shame to AMD Security Department which gets significant financing according to the documents we got our hands on -- all thanks to these passwords." Brett Callow, a ransomware expert and threat analyst at Emsisoft, told TechCrunch there's no reason to doubt the group's claims.

Intel is seeking to be paid interest of $624 million on the overturned $1.1 billion fine it received from the European Commission back in 2009. From a report: The antitrust ruling was overturned at the beginning of the year, and so Intel has gone to EU General Court seeking compensation and interest on the fine. In fact, Intel is claiming back almost half of that original fine, based on the European Central Bank's refinancing rates. In case you need a reminder on all of this: Intel allegedly took part in anti-competitive practices that saw it offer conditional rebates to key OEMs such as Dell, HP, and Lenovo, making it difficult for competitors (read AMD, or ARM if you prefer, but really AMD) to compete with their own CPUs. The European Commission concluded in 2009 that Intel had indeed behaved in such a way between October 2002 and December 2007 and hit it with one of the largest ever fines at the time at a cool $1.1 billion. Intel appealed the decision unsuccessfully in 2012, but in 2014 it brought the case to the European Court of Justice, which sent it back to the General Court in 2017. The case has been going back and fourth ever since.

Microprocessors from Intel, AMD, and other companies contain a newly discovered weakness that remote attackers can exploit to obtain cryptographic keys and other secret data traveling through the hardware, researchers said on Tuesday. From a report: Hardware manufacturers have long known that hackers can extract secret cryptographic data from a chip by measuring the power it consumes while processing those values. Fortunately, the means for exploiting power-analysis attacks against microprocessors is limited because the threat actor has few viable ways to remotely measure power consumption while processing the secret material. Now, a team of researchers has figured out how to turn power-analysis attacks into a different class of side-channel exploit that's considerably less demanding.

The team discovered that dynamic voltage and frequency scaling (DVFS) -- a power and thermal management feature added to every modern CPU -- allows attackers to deduce the changes in power consumption by monitoring the time it takes for a server to respond to specific carefully made queries. The discovery greatly reduces what's required. With an understanding of how the DVFS feature works, power side-channel attacks become much simpler timing attacks that can be done remotely. The researchers have dubbed their attack Hertzbleed because it uses the insights into DVFS to expose -- or bleed out -- data that's expected to remain private. The vulnerability is tracked as CVE-2022-24436 for Intel chips and CVE-2022-23823 for AMD CPUs. The researchers have already shown how the exploit technique they developed can be used to extract an encryption key from a server running SIKE, a cryptographic algorithm used to establish a secret key between two parties over an otherwise insecure communications channel.

Slashdot reader MojoKid writes: AMD unveiled new details of its technology roadmap Thursday at its 2022 Financial Analyst Day. Chief among them were disclosures on the company's next-gen RDNA 3 GPU architecture, Zen 4 CPU architecture and Phoenix Point laptop SoC. AMD's new RDNA 3 GPU architecture for Radeon graphic cards and mobile will be a chiplet-based design, much like the company's Ryzen CPU offering. AMD also confirmed that RDNA 3 GPUs would be fabricated on a 5nm process, likely TSMC N5. The company continued to note that an "optimized graphics pipeline" will enable yet higher clock rates, while the GPU's "rearchitected compute unit" will have ray-tracing performance improvements over RDNA 2 as well. AMD says that RDNA 3 GPUs are coming later this year, with RDNA 4 arriving likely in late 2023.

Meanwhile, AMD's Zen 4 is set to be the "world's first 5nm CPU," arriving later this year with an 8 to 10 percent instructrions per clock lift and greater than 15 percent single-threaded performance gain. Zen 4 will also support DDR5, AVX-512 extensions for AI workloads and a massive 125 percent increase in memory bandwidth. AMD is claiming a 35% multithreaded performance lift for Zen 4.

And, its Phoenix Point laptop platform SoC will be both Zen 4 and RNDA 3 infused. This is a first for AMD, since typically its laptop product's integrated graphics trail the company's current-gen GPU architecture by at least a generation. Phoenix point is set to arrive likely in the first half of 2023.

An anonymous reader quotes a report from Ars Technica: One of the few things that Intel Macs can do that Apple Silicon Macs can't is run operating systems written for Intel or AMD processors inside of virtual machines. Most notably, this has meant that there is currently no legal way to run Windows on an Apple Silicon Mac. Apple Silicon Macs can, however, run operating systems written for Arm processors inside of virtual machines, including other versions of macOS and Arm-compatible versions of Linux. And those Linux VMs are getting a new feature in macOS Ventura: the ability to run apps written for x86 processors using Rosetta, the same binary translation technology that allows Apple Silicon Macs to run apps written for Intel Macs.

Apple's documentation will walk you through the requirements for using Rosetta within a Linux guest operating system -- it requires creating a shared directory that both macOS and Linux can access and running some terminal commands in Linux to get it set up. But once you do those steps, you'll be able to enjoy the wider app compatibility that comes with being able to run x86 code as well as Arm code. Some developers, including Hector Martin of the Asahi Linux project and Twitter user @never_released, have already found that these steps can also enable Rosetta on non-Apple ARM CPUs as long as they're modern enough to support at least version 8.2 of the Arm instruction set. As Martin points out, this isn't strictly legal because of macOS's licensing restrictions, and there are some relatively minor Apple-specific hardware features needed to unlock Rosetta's full capabilities.

At this year's WWDC, Apple announced a surprising new system coming to its Metal 3 gaming API that may sound familiar to PC gamers: MetalFX Upscaling. Ars Technica reports: The system will leverage Apple's custom silicon to reconstruct video game graphics using lower-resolution source images so that games can run more efficiently at lower resolutions while looking higher-res. This "temporal reconstruction" system sounds similar to existing offerings from AMD (FidelityFX Super Resolution 2.0) and Nvidia (Deep Learning Super-Sampling), along with an upcoming "XeSS" system from Intel. Based on how the system is described, it will more closely resemble AMD's system, since Apple has yet to announce a way for MetalFX Upscaling to leverage its custom-made "Neural Engine" system.

By announcing this functionality for some of the world's most popular processors, Apple is arguably letting more game developers build their games and engines with image reconstruction -- even if MetalFX Upscaling isn't open source, unlike AMD's FSR 2.0 system. Still, these image reconstruction systems typically have temporal anti-aliasing (TAA) in common. So long as game devs keep that kind of anti-aliasing in mind with their games and engines, they'll be more likely to take advantage and thus run more efficiently on a wide range of consoles, computers, and smartphones. The report notes that Metal 3 also includes "a new 'resource-loading' API designed to streamline asset-loading processes in video games." The same Metal 3 API benefits will also come to iPadOS 16 later this year.

"Yes, it's possible to get the game Doom running atop this system firmware," reports Phoronix.

Tom's Hardware explains: Originally known as LinuxBIOS, which provides a better clue to its utility value, Coreboot 4.17 supports new motherboards, delivers a new bootloader, supports AMD Platform Secure Boot (PSB), comes with a handful of fixes, and... a port of Doom.

Coreboot is a free and open-source BIOS implementation that supports numerous extensions known as Payloads. These Payloads add functionality to the minimal code that is the basis of Coreboot. Therefore, a great deal of customizability is available to Coreboot users to determine exactly what their BIOS ROMs contain via Payload choices.

To configure Coreboot for a usable setup, one might typically start by adding a bootloader, with a choice of eight available currently according to the official Wiki. Then there is support for various popular OSes, a handful of utilities provided as Payloads, and even some games. If your BIOS flash memory space is large enough, you could even shoehorn in a Linux distribution.
There's a few caveats. (There's no sound or "save game" feature, "and your system will hang on exiting the game.")

But their article still calls Doom "a great new choice if you are bored of the Grub Invaders (Space Invaders) and Tint (Tetris) clone Payloads, bringing 3D gaming to your BIOS."

An anonymous reader shares a report: Last month, the open source community was abuzz with excitement following a shocking announcement from System76 that HP was planning to release a laptop running the Pop!_OS operating system. This was significant for several reasons, but most importantly, it was a huge win for Linux users as yet another hardware option was becoming available. Best of all, HP employees have been trained by System76 to offer high-quality customer support. If you aren't aware, System76 support is legendary.

At the time of the announcement, details about the hardware were a bit scarce, but I am happy to report we now have full system specifications for the 14-inch HP Dev One laptop. Most interestingly, there is only one configuration to be had. The developer-focused computer is powered by an octa-core AMD Ryzen 7 PRO 5850U APU which features integrated Radeon graphics. The notebook comes with 16GB RAM and 1TB of NVMe storage, both of which can be user-upgraded later if you choose. The laptop is priced at $1,099.

The United States is on top of the supercomputing world in the Top500 ranking of the most powerful systems. From a report: The Frontier system from Oak Ridge National Laboratory (ORNL) running on AMD EPYC CPUs took first place from last year's champ, Japan's ARM A64X Fugaku system. It's still in the integration and testing process at the ORNL in Tennessee, but will eventually be operated by the US Air Force and US Department of Energy. Frontier, powered by Hewlett Packard Enterprise's (HPE) Cray EX platform, was the top machine by a wide margin, too. It's the first (known) true exascale system, hitting a peak 1.1 exaflops on the Linmark benchmark. Fugaku, meanwhile, managed less than half that at 442 petaflops, which was still enough to keep it in first place for the previous two years. Frontier was also the most efficient supercomputer, too. Running at just 52.23 gigaflops per watt, it beat out Japan's MN-3 system to grab first place on the Green500 list. "The fact that the world's fastest machine is also the most energy efficient is just simply amazing," ORNL lab director Thomas Zacharia said at a press conference.

An anonymous reader shares an excerpt from an opinion piece, written by Macworld's Michael Simon: Apple killed its Touch Bar on the 14-inch and 16-inch MacBook Pro last year, but PC makers seem determined to prove the company wrong. First Dell introduced the XPS 13 Plus which sports a "new capacitive touch experience that allows you to switch between media and function keys easily." The laptop is available for purchase but back-ordered for weeks, and there haven't been any reviews so we don't know for sure how it will be received, but Dell's touch bar concept seems even less useful than Apple's: the buttons are static, they merely float above the actual keyboard, and they don't appear to add any functionality. Then Dell added a touch bar to the trackpad on the Latitude 9330. [...]

Now there's a new PC touch bar, this time on the Voyager a1600, Corsair's first-ever gaming laptop. Corsair hasn't named or even officially announced the new feature -- it only appeared as a sneak peek -- but the company told The Verge that the strip features "10 easy-access customizable S-key shortcut buttons." [...] Corsair's Touch Bar doesn't replace the row of function keys but it is in an odd location -- on the hinge below the display. Even in pictures, it looks incredibly uncomfortable to reach. According to renders, you can still access the Touch Bar when the laptop is closed, which seems like an accident waiting to happen (not to mention a battery drain).

But the biggest question I have is: why? No one shed a tear for the Touch Bar when it was killed. While it has its merits, it was never a proper pro-level feature and the implementation didn't evolve past the original idea. It was too skinny, lacked tactile feedback, required constant scrolling, and didn't actually save time. It looked nice, but even Apple didn't seem to know what to do with it. The MacBook Pro Touch Bar was one of Apple's most polarizing features and it never really caught on with developers. Maybe a niche use like gaming or video conferencing will have better results, but ultimately the Touch Bar, Apple's or otherwise, is a failed concept that should stay in the past.

UnknowingFool writes: The current Linux kernel in development, 5.19, added 495,793 new lines of code for graphic driver updates. David Airlie sent in the new lines as part of Direct Rendering Manager (DRM) subsystem of Linux. The majority of additions were for AMD's RDNA and CDNA platforms but Intel also submitted changes for their DG2 graphics as well. Updates also came from Qualcomm and MediaTek for their GPU offerings.

Samsung is rumored to be assembling a special task force dubbed "Dream Platform One team" tasked with designing a custom in-house Samsung mobile Application Processor (AP) that can take on Apple Silicon. Neowin reports: It's probably fair to say that Samsung hasn't had the best time with its Exynos offerings when compared against rivals like Qualcomm or Apple. To shake its fortunes up, the company also paired up with AMD for its Exynos 2200 GPU, and results were a mixed bag. Both the AMD RDNA 2 Xclipse 920 graphics and the Exynos 2200 CPU were found to be pretty disappointing in terms of power efficiency as they were not much better than the previous Exynos 2100 offering. In a nutshell, the new CPU was around 5% faster while the AMD graphics was around 17% better, both of which were clearly not enough (via TechAltar on Twitter). However, the company is looking to get real serious and down to business come 2025. The new report coincides with a separate report suggesting that Samsung was working on a custom chipset for its Galaxy S series. The downside is that it's not slated for 2025 and will obviously have to compete against whatever Apple offers at that time.

"AMD's Computex 2022 keynote marks the first appearance of company's new Zen 4-based Ryzen 7000 desktop chip in the flesh," writes Slashdot reader MojoKid. "And in its first quick benchmark tease, it's looking pretty buff." Here's an excerpt from a report via HotHardware: AMD Ryzen 7000-series processors that will be the first to ship with Zen 4 cores will include one or two 5nm Zen 4 CCDs -- topping out at 16 cores, just like Zen 3 -- as well as a new cIOD fabricated on 6nm chip process technology. The new cIOD will include PCIe 5.0 and DDR5 support, as well as an RDNA 2-based GPU for basic display support. [...] Initial performance claims regarding solid state storage weren't the only ones made during AMD's Computex keynote, however. As the keynote was wrapping up, Dr. Su showed two demos powered by a Ryzen 7000 series processor.

AMD Ryzen 7000-series processors that will be the first to ship with Zen 4 cores will include one or two 5nm Zen 4 CCDs -- topping out at 16 cores, just like Zen 3 -- as well as a new cIOD fabricated on 6nm chip process technology. The new cIOD will include PCIe 5.0 and DDR5 support, as well as an RDNA 2-based GPU for basic display support. In the second demo, a custom Ryzen 7000 3D image was being rendered in Blender, with an Intel Core i9-12900K 16-core / 24-thread processor running alongside an AMD Ryzen 7000 series 16-core / 32-thread processor. In the time-lapsed demo, the Ryzen 7000-based system finished the render 31% faster than the Intel system.

While AMD wasn't willing to commit to any specific date, the company did confirm that Zen 4 will be here this year, and well before the holiday shopping season. Dr. Su set a timeframe of "Fall" for availability of the new Ryzen 7000 CPUs, as well as the motherboards that will help enable the entire platform. Slashdot reader UnknowingFool also shared the news (via AnandTech).

You can watch the entire AMD Computex 2022 Keynote presentation here.

System76's CEO Carl Richell announced that HP has chosen the Ubuntu-based Pop!_OS operating system to run on its 14-inch developer-focused notebook called "Dev One." Brian Fagioli from BetaNews speculates that a HP acquisition of System76 "could be a possibility in the future -- if this new relationship pans out at least." He continues: HP could be testing the waters with the upcoming Dev One. Keep in mind, System76 does not even build its own laptops, so we could see the company leave the notebook business and focus on desktops only -- let HP handle the Pop!_OS laptops. "We've got you covered. Experience exceptional multi-core performance from the AMD Ryzen 7 PRO processor and multitask with ease. Compile code, run a build, and keep all your apps running with more speed from the 16GB memory. Plus, load and save files in a flash, thanks to 1TB fast PCIe NVMe M.2 storage. We've even added a Linux Super key so shortcuts are a click away. Simply put, HP Dev One is built to help you code better," explains HP.

The company adds, "Pop!_OS is at your service. Create your ideal work experience with multiple tools to help you perform with peak efficiency. Use Stacking to organize and access multiple applications, browsers, and terminal windows. Move, resize, and arrange windows with ease or, let Pop!_OS keep you organized and efficient with Auto-tiling. And use Workspaces to reduce clutter by organizing windows across multiple desktops." Apparently, there will only be one configuration priced at $1,099. So far, no details about a release date have been announced other than "coming soon."

Nvidia is publishing their Linux GPU kernel modules as open-source and will be maintaining it moving forward. Phoronix's Michael Larabel reports: To much excitement and a sign of the times, the embargo has just expired on this super-exciting milestone that many of us have been hoping to see for many years. Over the past two decades NVIDIA has offered great Linux driver support with their proprietary driver stack, but with the success of AMD's open-source driver effort going on for more than a decade, many have been calling for NVIDIA to open up their drivers. Their user-space software is remaining closed-source but as of today they have formally opened up their Linux GPU kernel modules and will be maintaining it moving forward. [...] This isn't limited to just Tegra or so but spans not only their desktop graphics but is already production-ready for data center GPU usage.

AMD announced the Ryzen 5000 C-series for Chromebooks today. "The top chip in the series has eight of AMD's Zen 3 cores, giving systems that use it more x86 CPU cores than any other Chromebook," reports Ars Technica. From the report: The 7nm Ryzen 5000 C-series ranges from the Ryzen 3 5125C with two Zen 3 cores and a base and boost clock speed of 3 GHz, up to the Ryzen 7 5825C with eight cores and a base clock speed of 2 GHz that can boost to 4.5 GHz. For comparison, Intel's Core i7-1185G7, found in some higher end Chromebooks, has four cores and a base clock speed of 3 GHz that can boost to 4.8 GHz.

On their own, the chips aren't that exciting. They seemingly offer similar performance to the already-released Ryzen 5000 U-series chips. The Ryzen 5000 C-series also uses years-old Vega integrated graphics rather than the upgraded RDNA 2 found in Ryzen 6000 mobile chips, which, upon release, AMD said are "up to 2.1 times faster." But for someone who's constantly pushing their Chromebook to do more than just open a Chrome tab or two, the chips bring potentially elevated performance than what's currently available.

An anonymous reader shares a report: A funny thing happened in 2020: AMD won the gaming laptop for the first time ever. Until the Asus Zephyrus G14, we'd never seen a laptop with an AMD CPU and AMD GPU run circles around the competition. Since then, we've repeatedly seen that "AMD laptop" no longer means cheap. But now, AMD is setting its sights higher than mid-range gaming machines -- it just revealed it's building a new CPU aimed at the "pinnacle of gaming performance" with the "highest core, thread and cache ever." The new CPU line is codenamed "Dragon Range," and they'll live exclusively at 55W TDP and up -- enough power that they'll "largely exist in the space where gaming laptops are plugged in the majority of the time," says AMD director of technical marketing Robert Hallock.

An anonymous reader quotes a report from Ars Technica: Qualcomm bought a chipmaking startup called Nuvia back in March of 2021, and later that year, the company said it would be using Nuvia's talent and technology to create high-performance custom-designed ARM chips to compete with Apple's processor designs. But if you're waiting for a truly high-performance Windows PC with anything other than an Intel or AMD chip in it, you'll still be waiting for a bit. Qualcomm CEO Christian Amon mentioned during the company's most recent earnings call that its high-performance chips were on track to land in consumer devices "in late 2023."

Qualcomm still plans to sample chips to its partners later in 2022, a timeframe it has mentioned previously and has managed to stick to. A gap between sampling and mass production is typical, giving Qualcomm time to work out bugs and improve chip yields and PC manufacturers more time to design and build finished products that incorporate the chips. [...] Like Apple's processors, Nuvia's support the ARM instruction set but don't use off-the-shelf ARM Cortex CPU designs. These processor cores have been phenomenally successful in commodity SoCs that power everything from Android phones to smart TVs, and they helped popularize the practice of combining large, high-performance CPU cores and small, high-efficiency CPU cores together in the same design. But they rarely manage to top the performance charts, something that's especially noticeable when they're running x86 code on Windows with a performance penalty.