惯性聚合 高效追踪和阅读你感兴趣的博客、新闻、科技资讯
阅读原文 在惯性聚合中打开

推荐订阅源

美团技术团队
奇客Solidot–传递最新科技情报
奇客Solidot–传递最新科技情报
博客园 - Franky
有赞技术团队
有赞技术团队
博客园 - 司徒正美
量子位
N
News and Events Feed by Topic
T
Threatpost
Last Week in AI
Last Week in AI
D
Darknet – Hacking Tools, Hacker News & Cyber Security
酷 壳 – CoolShell
酷 壳 – CoolShell
C
CERT Recently Published Vulnerability Notes
freeCodeCamp Programming Tutorials: Python, JavaScript, Git & More
I
Intezer
人人都是产品经理
人人都是产品经理
T
Tenable Blog
IT之家
IT之家
雷峰网
雷峰网
腾讯CDC
博客园 - 聂微东
V
Visual Studio Blog
S
SegmentFault 最新的问题
Scott Helme
Scott Helme
Spread Privacy
Spread Privacy
月光博客
月光博客
让小产品的独立变现更简单 - ezindie.com
让小产品的独立变现更简单 - ezindie.com
V
V2EX
大猫的无限游戏
大猫的无限游戏
Apple Machine Learning Research
Apple Machine Learning Research
爱范儿
爱范儿
T
Tailwind CSS Blog
OSCHINA 社区最新新闻
OSCHINA 社区最新新闻
罗磊的独立博客
N
Netflix TechBlog - Medium
J
Java Code Geeks
宝玉的分享
宝玉的分享
F
Full Disclosure
WordPress大学
WordPress大学
A
Arctic Wolf
小众软件
小众软件
AWS News Blog
AWS News Blog
Attack and Defense Labs
Attack and Defense Labs
NISL@THU
NISL@THU
AI
AI
Hugging Face - Blog
Hugging Face - Blog
F
Fortinet All Blogs
云风的 BLOG
云风的 BLOG
N
News | PayPal Newsroom
Cyber Security Advisories - MS-ISAC
Cyber Security Advisories - MS-ISAC
cs.AI updates on arXiv.org
cs.AI updates on arXiv.org

Blog

Tracing a memory leak bug in PID 1 and contributing an upstream fix: a Linux support story | Canonical MAAS installation: bare metal provisioning is easier than ever | Canonical Januscape vulnerability CVE-2026-53359 mitigations available | Canonical Managing Ubuntu on bare metal at scale | Canonical Ubuntu Server: a platform made for enterprise scale | Canonical Building an open source chain of trust: new research uncovers key blockers and ways forward | Canonical Beyond safety and security: Why automotive open source demands dependability  | Canonical DirtyClone Linux kernel local privilege escalation vulnerability fixes available | Canonical pedit COW kernel local privilege escalation vulnerability mitigations | Canonical Canonical becomes Gold Sponsor of Trifecta Tech Foundation | Canonical Challenges designers face in open source (and how to fix them) | Canonical Hunting a 16-year-old SQLite bug with TLA+: is dqlite affected? | Canonical Anbox Cloud on C4A metal: Android, at scale, without friction | Canonical Canonical announces live kernel patching for Arm64 | Canonical How to use RISC-V custom instructions with Ubuntu | Canonical Ubuntu Summit 26.04: connected by open source | Canonical So you need to add microcontrollers to your fleet: now what? | Canonical Validating real-world skills through Canonical Academy | Canonical Virtualized Android comes to Anbox Cloud | Canonical Template: Streamlining open source design contributions | Canonical Beyond Mythos: responding to a new threat landscape | Canonical A look into Ubuntu Core 26: Building a local AI inference appliance in a virtual machine | Canonical This year we celebrate a decade of Ubuntu Server support on the s390x architecture: marking a long-standing collaboration between Canonical and IBM that began at LinuxCon 2015. The first release happened on April 21, 2016, bringing Ubuntu 16.04 LTS (Xenial Xerus) to IBM Z and IBM LinuxONE platforms.  A first for Ubuntu on IBM That […] AI at the edge: simplifying infrastructure with Cisco and Canonical | Canonical The next era of telco clouds: get open infrastructure choice with Sylva and Canonical Kubernetes | Canonical What is RDMA over Converged Ethernet (RoCE)? | Canonical Beyond tokens per watt – using Ubuntu 26.04 LTS for AI Beyond tokens per watt – using Ubuntu 26.04 LTS for AI | Canonical A look into Ubuntu Core 26: Deploying AI models on Renesas RZ/V series for production | Canonical RISC-V profiles – why is RVA23 significant? | Canonical AI with AMD ROCm on Ubuntu: your questions answered | Canonical When distributed workloads stall because nodes cannot exchange small messages quickly and consistently, the network is the limiting factor. How do you solve that problem? InfiniBand offers one solution. InfiniBand is an interconnect, meaning the end-to-end communication system that links compute, storage, and accelerator nodes. It is impl […] Microsoft has announced the preview of Azure Cobalt 200, its second-generation custom Arm silicon. Learn how Ubuntu and Ubuntu Pro support these new VMs from day one, offering seamless deployment, long-term security maintenance, and Kernel Livepatch without requiring engineering or platform changes […] How Canonical Support solves hard Linux performance bugs  – even in 12-year old code | Canonical Securing AI agent workflows on Ubuntu with the new NVIDIA OpenShell snap | Canonical Canonical announces optimized Ubuntu images for TPU virtual machines by Google Cloud | Canonical VMware hypervisor deployment using MAAS | Canonical Migrating from Apache Spark 3 to Spark 4 | Canonical Introducing Workshop: launch sandboxed development environments on Ubuntu with a single command | Canonical Run agentic workloads on Arm and Ubuntu | Canonical Decoding design: How design and engineering thrive together in open source | Canonical Developing web apps with local LLM inference | Canonical A local privilege escalation (LPE) security vulnerability in the Linux kernel, codename “PinTheft,” was publicly disclosed on May 19, 2026. The vulnerability was fixed in the mainline Linux kernel tree. A proof-of-concept exploit was published along with public disclosure. This has been assigned the CVE ID CVE-2026-43494; other discoverin […] Canonical has announced the general availability of Managed Kubeflow on the Microsoft Azure Marketplace. This fully managed MLOps platform allows enterprise AI teams to deploy a production-ready environment in under an hour, eliminating infrastructure maintenance. […] A look into Ubuntu Core 26: Cloud-powered edge computing with AWS IoT Greengrass and Azure IoT Edge | Canonical CVE-2026-46333 (ssh-keysign-pwn) Linux kernel vulnerability mitigations | Canonical Finding the blind spot: How Canonical hunts logic flaws with AI | Canonical A local privilege escalation (LPE) vulnerability affecting the Linux kernel has been publicly disclosed on May 13, 2026. The vulnerability does not have a CVE ID published, but is referred to as “Fragnesia.” The vulnerability affects multiple Linux distributions, including all Ubuntu releases. The affected components are the Linux kernel […] Rethinking BYOD security: protecting data without trusting devices | Canonical Two local privilege escalation (LPE) vulnerabilities affecting the Linux kernel have been publicly disclosed on May 7, 2026. The vulnerabilities have been assigned the IDs CVE-2026-43284 and CVE-2026-43500 and are referred to as “Dirty Frag.” The affected components are Linux kernel modules. The first vulnerability impacts the modules tha […] Three weeks to go: A sneak peek of the Ubuntu Summit 26.04 experience | Canonical How to use Ubuntu on Windows | Canonical A local privilege escalation (LPE) vulnerability affecting the Linux kernel has been publicly disclosed on April 29, 2026. The vulnerability has been assigned CVE ID CVE-2026-31431 and is referred to as Copy Fail. The affected component is a kernel module that provides hardware-accelerated cryptographic functions: algif_aead. The vulnerab […] Run NVIDIA Nemotron 3 Nano Omni locally in a single command | Canonical Why Web Engineering is great | Canonical Ubuntu 16.04 LTS (Xenial Xerus) reached the end of its five-year Expanded Security Maintenance (ESM) window in April 2026. If you are still running 16.04, it is critical to address your support status to ensure continued security and compliance. Your support options Now that 16.04 is in its Legacy phase, you have two primary paths: […] Understanding disaggregated GenAI model serving with llm-d | Canonical From Jammy to Resolute: how Ubuntu’s toolchains have evolved | Canonical Hybrid search and reranking: a deeper look at RAG | Canonical Canonical expands Ubuntu support to next-generation MediaTek Genio 520 and 720 platforms | Canonical In this article, Keirthana TS, a Senior Technical Author at Canonical, breaks down what leadership means to her and how she understood the power of intentional leadership through her journey at Canonical. […] Ubuntu Pro comes to Nutanix bare-metal Kubernetes | Canonical Ubuntu Summit 26.04 is coming: Save the date and share your story! | Canonical How to manage Ubuntu fleets using on-premises Active Directory and ADSys | Canonical Simplify bare metal operations for sovereign clouds | Canonical How to Harden Ubuntu SSH: From static keys to cloud identity | Canonical The “scanner report has to be green” trap | Canonical Modern Linux identity management: from local auth to the cloud with Ubuntu | Canonical Canonical welcomes NVIDIA’s donation of the GPU DRA driver to CNCF | Canonical Hot code burns: the supply chain case for letting your containers cool before you ship | Canonical
RISC-V 101 – what is it and what does it mean for Canonical? | Canonical
Jon Taylor (Jon Taylor) · 2026-04-08 · via Blog

Interest in RISC-V has grown rapidly over the last few years. While many use cases have been deeply embedded, during 2026 we expect to see a rapid increase in the number of chips and boards available to developers that support Linux. In this blog I will look at some of the drivers for this growth, the value proposition of RISC-V and explain why supporting RISC-V is important to Canonical.

What is RISC-V?

RISC-V is an open standard instruction set architecture (ISA). An ISA describes the set of instructions that a CPU executes to run a program. Other examples of modern ISAs include Armv8-A or Intel x86_64. RISC-V was created in 2010, and RISC-V International was founded in 2015 to act as a steward for the specification(s). These are developed through community engagement with industry, academia, and even enthusiastic individuals. 

As an open standard, anyone can create a RISC-V CPU. As a specification it provides foundational technology standards, while allowing innovation both through extensions to the ISA, and also in terms of business models. It is not an implementation of a CPU, but an architecture specification like USB or Ethernet.

Today, RISC-V is widely used and shipping in volume. Most uses of RISC-V have been deeply embedded – which means they are tied to the product they are part of and not available to individual developers, but that situation is changing and improving. During 2026 we expect to see multiple vendors with development boards supporting the RVA23 profile that can run Linux.

There are many reasons to consider using RISC-V, from the philosophy of adopting an open standard architecture, to concerns over technology sovereignty. There are also fundamental business and technology drivers which I will explain in more detail.

Enabling new business models

As a permissively licensed ISA, RISC-V offers the ultimate flexibility for businesses and the open source community. Implementations of RISC-V can be open source, closed source, licensed as IP, or developed for private in-house use.

There are many companies offering RISC-V CPUs as commercial IP, and companies such as Qualcomm and NVIDIA use RISC-V cores within their products.

One strong endorsement of RISC-V has been from Google through the OpenTitan project, where a fully open source CPU is being used as a security root of trust. Google recently announced shipping production silicon in Chromebooks and use in their data centers.

Extensibility powers technology innovation

Unlike most other ISAs, the RISC-V ISA has been specifically designed to be extensible, and  is also split into multiple sets of extensions that you can pick and choose from. This gives user more choice and power in using the ISA for their projects; for example, one could use this ISA to:

  • Use novel data types for AI/ML
  • Use novel techniques or custom instructions for security
  • Control custom accelerators
  • Create a system using a minimal set of instructions for power/area
  • Conduct academic research into novel CPU architectures and microarchitecture

With fields like AI/ML progressing ever more rapidly, having a hardware architecture that allows innovation and experimentation becomes increasingly important. While this flexibility could cause problems for the software ecosystem, RISC-V has multiple ways to manage this, from grouping subsets of instructions together (such as ‘F’ for floating point instructions) to profiles, such as RVA23 which groups together multiple sets of instructions. Furthermore for many deeply embedded use cases, where the developer controls both software and hardware, this is less of a concern.

How mature is the software ecosystem?

A common question from people new to RISC-V is “while the hardware side sounds really interesting, how can I be confident my applications will run on it?”. This can be answered in a number of ways, and a future blog will look at the specifics around supporting custom instructions in Ubuntu. However, the short version is that the open source community has already widely adopted RISC-V and provides excellent support for it in many parts of the ecosystem. This includes the Linux kernel, toolchains such as GCC and LLVM and most real-time operating systems too, while Ubuntu has supported RISC-V since 2021.

The standardization efforts around profiles ensure compatibility between different implementations – for example, RVA23-compliant software is portable across any RVA23 hardware.

Why RISC-V matters to Canonical

From Canonical’s perspective, we want to support the ISAs that our community and customers want to use. Wherever open source ports to RISC-V exist, we will try to support them, and provide the same standard of support as other architectures. That means Long Term Support (LTS) versions of Ubuntu will support RISC-V for up to 15 years with a subscription to Ubuntu Pro with legacy support. Ubuntu 24.04 LTS supports the RVA20 profile while from 25.10 onwards (including 26.04 LTS) we will support RVA23. Explaining profiles is a topic for a future blog, but for now suffice to say that most Linux-capable RISC-V hardware will be supported by us for many years to come. 

Where to access and download RISC-V builds

Beyond the generic support Canonical offers at the profile level, we also work with silicon partners to provide specific support for their products. These packages can be accessed on our website. Please note Partner RISC-V builds that are built and hosted by our partners do not benefit from Canonical’s ongoing support programs.

Explore Canonical-supported RISC-V builds> 

Explore partner RISC-V builds >

We also provide a cookbook for vendors to help them build their own Ubuntu images.

View our RISC-V cookbook >

Our launchpad website provides builds of all the packages in our repo. Vendors can also use launchpad to host their own private packages, for example to include custom instructions.

Explore the Ubuntu 25.10 RISC-V repository

Conclusion

RISC-V is disrupting the semiconductor industry and enabling new applications and use cases for custom silicon. While much of the focus has been on hardware, the software community is also very active in developing support for RISC-V and it is already at a good level of maturity. Canonical treats RISC-V as a first-class citizen and our goal is to support it to the same level as competing architectures. We are already well on the way to this goal.

If you are considering using RISC-V in your next project, from Ubuntu Core for IoT and edge devices to Ubuntu Pro and Ubuntu Server, then we’ve got you covered. Why not talk to us about your requirements?

[Contact us]

Further reading and resources

Related posts


Canonical and Ubuntu RISC-V: a 2025 retro and looking forward to 2026

Ubuntu Article

2025: From RISC-V enablement to real execution  2025 was the year that RISC-V readiness gave way to RISC-V adoption. It’s been quite a journey. What began years ago as early architectural exploration and enablement has matured into real silicon, systems, and deployments. In particular, RVA23 provides a  stable and predictable baseline we ...


SpacemiT announces the availability of  Ubuntu on K3/K1 series RISC-V AI computing platforms

Canonical announcements Article

SpacemiT (Hangzhou) Technology Co., Ltd. today announced a  collaboration with Canonical to make  Ubuntu available on SpacemiT’s new K3 SoC and the existing K1 series RISC-V computing platforms. This collaboration marks a deep integration between open-source operating systems and open RISC-V silicon, bringing powerful, flexible, and relia ...


ESWIN Computing launches the EBC77 Series Single Board Computer with Ubuntu

Canonical announcements Canonical News

ESWIN Computing partners with Canonical to unveil a low cost, performant RISC-V SBC with Ubuntu as the preferred operating system We are excited to announce that ESWIN Computing, in collaboration with Canonical, is bringing Ubuntu 24.04 LTS to the ESWIN Computing EBC77 Series Single Board Computer  (SBC for short). The EBC77 is  a cutting ...