A new set of patches implement EC, UCSI, and PSY drivers for the ARM-based HUAWEI MateBook E Go laptops powered by Qualcomm Snapdragon SoCs. In turn these new Linux kernel patches get a lot more functionality working for these Huawei ARM64 laptops.
Arm News Archives
350 Arm open-source and Linux related news articles on Phoronix since 2007.
For those interested in making use of Linux on the Qualcomm Snapdragon X1 Elite laptops that have been appearing since earlier this year, there's a new embedded controller (EC) driver posted for the Linux kernel for this EC that's found on most of the X1 laptop models.
Some Qualcomm processors/SoCs on the mainline Linux kernel are left vulnerable to Spectre security issues since Qualcomm hasn't upstreamed patches for properly treating affected CPU cores to their relevant mitigations. But a new patch series from a Google engineer is working to get those Qualcomm CPU security mitigations in order.
The ARM64 (AArch64) architecture changes have been submitted for the now-open Linux 6.13 merge window.
With this week's release of SVT-AV1 2.3 for open-source AV1 encoding citing significant performance improvements for running on ARM, I was eager to see how well this AV1 encoder would be performing on the new System76 Thelio Astra ARM developer desktop powered by Ampere Altra. Here are some benchmarks showing those big speed-ups for ARM-based AV1 encoding.
While the mainline Linux kernel has begun seeing initial support for various Snapdragon X1 Elite laptops, various feature limitations are outstanding before these Qualcomm-powered laptops really become usable for daily use. For instance, just a few days ago the audio firmware was finally upstreamed to make setting up X1 Elite laptops easier. Another important feature as an example is CPUFreq driver support for CPU frequency scaling to ensure optimal performance and power efficiency.
While last week Qualcomm canceled their Snapdragon X Elite Dev Kit as a $899 USD mini PC built for Windows 11 on ARM and powered by the X1 Elite SoC, the upstreaming Linux support for it is continuing.
While ARM-based SoCs with Simultaneous Multi-Threading (SMT) aren't too common, there do exist some such as select models of the Huawei Kunpeng server SoC with SMT or there HiSilicon Kirin 9000S. As such Huawei/HiSilicon engineers have been working to expose SMT controls on ARM64 for the Linux kernel.
For more than one year Arm engineers have been working on Guarded Control Stack "GCS" support for the Linux kernel as a means of protecting against return-oriented programming (ROP) sttacks with modern AArch64 processors. It looks like for Linux 6.13 this Arm GCS support will be ready for upstreaming.
We are not done yet seeing new Arm cores still impacted by the Speculative Store Bypass handling errata. Merged to Linux 6.12 on Friday was adding the speculative SSBS workaround for the Cortex-A715, Neoverse-N3, and Microsoft Azure Cobalt 100 cores.
After years of AmpereComputing talking about AmpereOne AArch64 server processors, it looks like we are finally on the cusp of seeing broader availability of the processors and servers/motherboards for this ARM server platform up to 192 cores. At the end of August I finally received a temporary review system with the AmpereOne A192-32X flagship SKU. That server was the Supermicro ARS-211M-NR and is supposed to be seeing availability real soon. Now the latest on the AmpereOne front is Giga Computing (Gigabyte) announcing general availability of their servers.
All of the ARM SoC and platform updates have been sent out for the Linux 6.12 merge window. Exciting this cycle is finally having initial support for the Raspberry Pi 5 plus supporting several more Snapdragon X1 Elite laptops.
The 64-bit ARM changes were submitted in advance for the now-open Linux 6.12 kernel merge window. There is work for Arm on the confidential computing side this cycle and other new features.
While not quite as exciting as the latest ARM64 laptops sporting the new Qualcomm Snapdragon X1 series SoCs, the Lenovo ThinkPad X13s laptop using the older Snapdragon 8cx Gen 3 is now available to boot and install using the generic ARM64 images of the upcoming Ubuntu 24.10.
Arm engineer Mihail Atanassov proposed a set of "request for comments" patches this week for adding user submission support to the Panthor DRM driver that is used for handling newer Arm Mali graphics under Linux. This would allow user-space more easily to submit work directly to the GPU hardware without kernel intervention for better performance and management capabilities.
ARM Linux maintainer Arnd Bergmann laid out a proposal with deprecation timeline today for beginning to work toward removing many older ARM boards and obsolete features.
Following Linus Torvalds receiving an Ampere Altra Max workstation from Ampere Computing, he's been dabbling more with ARM64 now that it affords him more AArch64 compute power than his Apple Silicon powered MacBook. Torvalds kicked off the Linux 6.11 merge window by landing some of his own code to further enhance the ARM64 kernel and as we approach the end of the v6.11 merge window this weekend, he's merged some more ARM64 code.
Due to the ARM64 maintainer for the Linux kernel going on holiday, the ARM64 port updates have been submitted ahead of the opening of the Linux 6.11 merge window that will likely be on Monday or otherwise the following week depending upon if a 6.10-rc8 is warranted.
Back in May there were Linux kernel patches posted as a workaround for Arm CPU errata around the Speculative Store Bypass (SSB) handling. Initially this workaround was just noted as the Cortex-X4 and Neoverse-V3 as being affected, but now it turns out many more exciting Arm processor cores are impacted.
Engineers at consulting firm Igalia are exploring NUMA emulation for ARM64 (AArch64) due to the potential of "significant" performance uplift as observed on the popular Raspberry Pi 5 single board computer.
Kernel developer and consultant Johan Hovold spent the last two years working on improving ARM Linux laptop support with a particular focus on the Lenovo ThinkPad X13s powered Qualcomm SoC. Arm funded this Linaro effort and as a result the ThinkPad X13s enjoys pleasant upstream kernel support now. This Arm Linux laptop project has now concluded but sets a nice base for further ARM Linux laptop improvements moving forward.
Arm today announced the latest products in the Armv9 CPU portfolio: the Cortex-X925 as their "ultimate performance" processor and the Cortex-A725 as their processor option for sustained performance.
Merged last week for the Linux 6.10 kernel were all of the 64-bit ARM (ARM64 / AArch64) architecture changes. There is ACPI FACS support, the ability to easily construct FIT images, and a new command-line option for disabling 32-bit application support.
Qualcomm and their partners at Linaro have been busy working on the Linux support for the Snapdragon X Elite as the high-end Arm SoC beginning to roll-out for laptops. The latest Snapdragon X Elite upstreaming is Embedded DisplayPort and DisplayPort support for the Snapdragon X Elite.
The various ARM SoC/platform pull requests were already merged today by Linus Torvalds for the in-development Linux 6.10 kernel.
Merged on Friday to the development codebase for the LLVM/Clang 19 compiler is support for the Arm Neoverse N3, V3, and V3AE SoCs.
The good news is that with the upcoming Linux 6.10 kernel cycle the ARM-based Acer Aspire One laptop will feature "almost full" support for this Qualcomm Snapdragon powered laptop. The downside though it's now a three year old device with far more interesting ARM laptops on the market and more powerful options coming to the market this year.
Queued as part of the ARM64 patches in the various "-next" branches ahead of the Linux 6.10 merge window is a script for being able to build Flat Image Trees (FITs). A Flat Image Tree is the compiled Linux kernel paired with the associated DeviceTree content that is compressed and easily then distributed and executed by capable bootloaders.
Arm China is looking at upstreaming their "Zhouyi" NPU driver into the Linux kernel via the recently-created accelerator "accel" subsystem. The Arm China Neural Processing Unit (NPU) driver in its current form has both an open-source kernel and user-space stack.
The open-source Panthor DRM driver for supporting newer Arm Mali GPUs was queued in drm-misc-next at the start of March ahead of the Linux 6.9 merge window. It ultimately though didn't see a drm-misc-next pull to DRM-Next ahead of the Linux 6.9 merge window and thus being held off until the Linux 6.10 cycle. This week though that drm-misc-next submission to DRM-Next took place as that driver and other changes begin queuing for Linux 6.10.
Following last week's main set of power management updates for Linux 6.9 that saw AMD P-State Preferred Core support and tuning for Intel Meteor Lake, a secondary set of power management subsystem changes were sent out today for this new kernel.
All of the ARM64 (AArch64) feature updates have been merged for the Linux 6.9 kernel. Besides the new SoC and platform hardware support, there are a few ARM64 architecture updates worth pointing out.
The 64-bit Arm (AArch64) little-endian kernel will be ready to support the Rust kernel code with the upcoming Linux 6.9 cycle.
While we are still waiting to get our hands on AmpereOne hardware for Ampere Computing's in-house design Arm cores with up to 192 cores, Friday night Git activity to LLVM has revealed an "Ampere1B" core.
As the first of Arm Mali firmware to be added to the linux-firmware.git repository, the Gen10 Mali "Panthor" firmware has been added as part of the effort on the new open-source Panthor DRM kernel driver currently working its way upstream.
All of the ARM SoC and platform driver changes have been submitted for the Linux 6.8 kernel that include bringing up the latest Qualcomm Snapdragon SoCs, enabling various low-cost gaming handheld console devices, finally upstreaming Google Tensor G1 support, and other hardware additions.
ARM11 MPCore support for the early ARMv6 multi-processor (SMP) support is set to be retired with the upcoming Linux 6.8 kernel cycle.
The upcoming Linux 6.8 kernel cycle will be adding mainline support for several low-cost ARM Linux handheld gaming consoles that are suitable for running retro games, older game emulators, and other lightweight software.
With patches pending for creating an Acer Aspire 1 embedded controller driver, this Qualcomm Snapdragon powered ARM laptop has "almost full support" with the upstream Linux kernel.
All the pieces have been aligned that the mainline Linux 6.8 kernel should be able to boot on the Qualcomm Snapdragon 8 Gen 3 SoC without any out-of-tree patches being necessary.
Ampere Computing has sent out its latest patch attempt at increasing the number of Arm CPU cores supported by the mainline Linux kernel. As it stands at the moment the 64-bit ARM mainline Linux kernel build supports 256 cores, which can be exceeded with Ampere's new AmpereOne processors in a multi-socket configuration.
Microsoft released CBL-Mariner 2.0.20230924 this week as the newest version of their in-house Linux distribution. The driving force behind this release is to get out rebuilt AArch64 packages following the recent GCC security vulnerability that affected Arm 64-bit built software.
The various Arm platform and SoC changes have been submitted for the ongoing Linux 6.6 merge window.
While Ampere Computing's wares with the Altra (Max) and forthcoming AmpereOne families of AArch64 server processors are designed for the data center, if you feel so inclined they have published a guide on being able to run Steam for Linux on these ARM64 processors -- including Steam Play (Proton) for enjoying Windows games on these Linux servers.
While Intel is well known -- and well regarded -- as being one of the top contributors to the Linux kernel as well as being a significant player in many other open-source projects with their countless open-source software contributions over the years, Arm is now trying to better promote their open-source support and open contributions.
A set of 35 patches were posted on Sunday for introducing ARM64 Guarded Control Stack (GCS) support to the Linux kernel. This is akin to x86 Shadow Stack support for hardware-protected stacks of return addresses to help fend off ROP attacks.
The ARM64 (AArch64) architecture code has seen some clean-ups and support for new Arm ISA features with the in-development Linux 6.5 kernel.
Arm and NXP engineers have posted the initial open-source Linux driver patches for an Ethos-U driver for their machine learning processor to enable Linux to dispatch AI inference jobs to the hardware. It's yet another inference/accelerator driver working its way toward the mainline kernel but is off to a rocky start with many code issues being raised.
For helping to ensure optimal performance of AArch64 binaries generated by LLVM/Clang for the Neoverse-V2 processor cores, LLVM 17 Git has received a proper Neoverse-V2 scheduling model.
Arm today announced the new high-end Cortex-X4 CPU core design for delivering their most powerful Cortex compute cluster.
350 Arm news articles published on Phoronix.