Manjaro
Manjaro is a user-friendly, open-source Linux distribution based on Arch Linux, emphasizing accessibility, stability, and the latest software while preserving Arch's flexibility and performance.[1] It employs a rolling release model with a unique cascading repository system that delays and tests updates from Arch's repositories to enhance reliability for everyday use.[2] Developed as an approachable entry point to the Arch ecosystem, Manjaro supports multiple desktop environments and automatic hardware configuration, making it suitable for beginners, developers, and organizations seeking a customizable operating system.[3] The project originated in Europe, with development centered in Austria, France, and Germany, and its first release occurred on July 10, 2011.[4] Led by key contributors including Philip Müller as co-founder and lead developer, Manjaro evolved from a community-driven initiative into a professionally backed effort under Manjaro GmbH & Co. KG, established to provide enterprise-grade support and services.[5] Over the years, it has grown to include official editions with popular desktop environments like GNOME, KDE Plasma, and Xfce, alongside community-maintained variants, and expanded hardware support including ARM architectures for devices like single-board computers and laptops.[6] Manjaro's philosophy centers on balancing cutting-edge updates with user-centric stability, using tools like the Calamares installer for straightforward setup and Pamac for graphical package management via the pacman system, supplemented by support for Flatpak and Snap.[2] It maintains close synchronization with Arch Linux's repositories but holds packages in testing branches for quality assurance, reducing the risk of breakage common in pure rolling releases.[3] The distribution also offers multiple kernel options for hardware compatibility and includes pre-configured multimedia codecs and drivers, appealing to creative professionals and IT environments.[1] As of 2025, Manjaro continues to release themed stable snapshots approximately every six months—such as the recent Zetar edition—while providing ongoing rolling updates, fostering a vibrant community through forums and wikis for troubleshooting and customization.[7] Its commitment to open-source principles and business-oriented features, like optimized IT infrastructure tools, positions it as a versatile alternative in the Linux landscape.[8]Introduction
Overview
Manjaro is a user-friendly Linux distribution based on Arch Linux, focusing on accessibility for beginners while offering the flexibility and power of its underlying architecture to a wider audience. It strikes a balance between providing cutting-edge software and prioritizing system stability, making it suitable for users transitioning from more traditional distributions.[1] At its core, Manjaro utilizes a rolling release model, delivering continuous updates to keep the system current without requiring major version upgrades, but incorporates a delay in package synchronization from Arch repositories for thorough testing to minimize disruptions. This approach enhances reliability for everyday use. The distribution supports multiple desktop environments out of the box, such as KDE Plasma, GNOME, and XFCE, allowing users to select based on their needs for resource efficiency or feature richness. Complementing these are integrated tools like Manjaro Hardware Detection (MHWD), which automates the identification and installation of drivers for hardware components, including graphics cards, to streamline setup.[2][9] Manjaro targets intermediate to advanced Linux enthusiasts who seek Arch's customization and performance without the steep installation and maintenance curve, including gamers benefiting from optimized drivers, developers requiring up-to-date tools, and general desktop users valuing ease and stability. As of 2025, it continues as a vibrant, actively developed project overseen by the Manjaro Team and supported by a global community, with official editions centered around its flagship desktop options.[1]Development Philosophy
Manjaro's development philosophy centers on making Arch Linux more accessible to a wider audience by simplifying its minimalist and do-it-yourself ethos while preserving core open-source principles and user control.[2] This approach aims to deliver the speed, power, and cutting-edge software of Arch in a more stable and user-friendly package, targeting both beginners and advanced users through pre-configured tools and intuitive interfaces.[2] By prioritizing ease of use without compromising configurability, Manjaro seeks to empower users who may find Arch's manual installation and maintenance processes daunting.[2] A key tenet is the emphasis on stability over immediacy in updates, achieved through a multi-branch repository system that includes unstable, testing, and stable branches. The unstable branch syncs multiple times daily with Arch Linux packages, allowing early access to the latest software, while the testing branch refines these updates with community feedback over approximately 7-10 days before promotion to stable, which undergoes an additional ~2 weeks of validation to minimize breakage risks.[10] This cascading stability model balances the benefits of a rolling release—providing continuous updates without major version upgrades—with robust testing to ensure reliability for everyday use.[10][1] Development is fundamentally community-driven and volunteer-based, supported by structured resources such as official forums, a comprehensive wiki, and user-friendly tools like the Pamac graphical package manager to facilitate participation and ease of maintenance.[11] Manjaro upholds a commitment to free and open-source software principles, funded primarily through sponsorships, donations, and enthusiast contributions, while offering optional proprietary drivers via tools like Manjaro Hardware Detection (MHWD) for hardware compatibility where open-source alternatives fall short.[11][12] This volunteer ecosystem fosters collaborative input across flagship editions managed by the core team, community editions with flexible schedules, and unofficial spins created by contributors.[11] To promote inclusivity, Manjaro supports multiple architectures, including x86_64 and ARM devices as of 2025, enabling deployment on diverse hardware from desktops to single-board computers.[13] Internationalization efforts include multilingual documentation and interfaces in languages such as English, German, Spanish, French, and Turkish, broadening global accessibility.[11] Tools like the Calamares graphical installer further cater to non-expert users by streamlining setup and configuration, aligning with the goal of making Linux approachable for newcomers without sacrificing depth for experienced users.[2]History
Founding and Early Years
Manjaro was founded in 2011 by Philip Müller, known online as "philm", in Germany, alongside co-founders Roland, Guillaume, Wlad, and Allesandro.[14][15] The project emerged as a response to the strengths of Arch Linux—its rolling-release model, vast package repository, and customizability—while seeking to overcome the distribution's reputation for complexity and manual configuration, which often deterred novice users. By prioritizing user-friendliness, Manjaro aimed to deliver Arch's cutting-edge software ecosystem in a more accessible package, complete with graphical tools for installation and hardware setup.[14][15] Development began modestly, with the team focusing on core enhancements like automated hardware configuration and a streamlined installer to enable easy booting from live USB media. The inaugural major release, version 0.8 codenamed "Askella", debuted on August 20, 2012, introducing the Xfce Edition as the flagship variant, built on Linux kernel 3.4.9.[16] This was swiftly followed by KDE Plasma and GNOME editions later in 2012, each optimized for live USB testing and featuring the Manjaro Hardware Detection (MHWD) tool for seamless driver management of graphics cards, printers, and other peripherals.[17][18] These early editions marked Manjaro's shift from alpha prototypes in 2011 to a viable desktop distribution, emphasizing out-of-the-box functionality without sacrificing Arch's performance.[16] A key early hurdle was developing a comprehensive testing infrastructure from the ground up, as the project adopted a three-branch model—unstable for initial Arch imports, testing for community validation, and stable for production releases—to ensure reliability in a rolling environment. This required custom scripting and repository management tools, initially handled by a small core team without external frameworks. Concurrently, community expansion accelerated through the launch of official forums in 2012, which served as a central resource for troubleshooting, feedback, and collaboration, fostering rapid user engagement and contributions that bolstered the distribution's evolution.[19][20] By 2014, Manjaro had solidified its early momentum, attaining top rankings on DistroWatch and attracting sponsorships from hardware partners to refine compatibility tools, alongside growing adoption driven by its balance of simplicity and power—hallmarks that distinguished it from pure Arch installations.Major Milestones and Controversies
In 2016, Manjaro began development for ARM architecture, enabling the distribution to run on a wider range of devices including single-board computers and embedded systems, marking an expansion beyond x86 hardware; official integration occurred in 2019.[21] The project underwent a significant rebranding in 2017 with the release of Manjaro 17.0 "Gellivara" on March 7, which shifted to a versioned release model using six-month cycles named after celestial objects, improving predictability for users while maintaining rolling-release foundations. In September 2019, Manjaro GmbH & Co. KG was founded to enable full-time employment of developers, commercial partnerships, and enterprise services, transitioning the project from community-driven to professionally backed.[22] During the 2020s, Manjaro expanded into enterprise-oriented tools, including hardened editions and management utilities for professional deployments, reflecting growing adoption in business environments.[23] The 2021 release of Manjaro 21.1.0 "Pahvo" on August 17 featured major improvements to the Calamares installer.[24] Manjaro has faced ongoing criticism for its package delay model, which prioritizes stability by holding updates from Arch repositories, leading to debates on whether this compromises the distribution's access to the latest software. On April 15, 2025, Manjaro launched version 25.0 "Zetar," featuring upgraded KDE Plasma 6.3 desktop environment with improved theming and performance, alongside optimized NVIDIA drivers for better GPU acceleration in gaming and creative workloads.[25] In September 2025, a major update caused widespread boot failures for some users due to kernel and GRUB incompatibilities, sparking discussions on update stability and leading to temporary rollback recommendations.[26] By 2024, Manjaro shifted to more transparent testing processes for updates, publishing detailed changelogs and beta branches earlier to reduce surprises in stable releases.[27]Editions and Variants
Official Editions
Manjaro maintains three primary official editions, each centered on a distinct desktop environment to cater to different user preferences and hardware capabilities. The KDE Plasma edition serves as a flagship offering, providing a highly customizable and feature-rich interface that balances modern aesthetics with extensive configuration options for both novice and experienced users.[28] Introduced as one of the initial editions in 2012, it emphasizes flexibility through tools like Latte Dock for advanced panel and docking customization.[29] The GNOME edition, added in 2013, adopts a minimalist design focused on intuitive workflows, gesture-based navigation, and seamless integration with extensions for personalization.[30] It includes the Extensions app to facilitate the management and installation of add-ons that enhance productivity and usability without overwhelming the core experience.[29] The XFCE edition, available since 2012, prioritizes lightweight performance and stability, making it ideal for older hardware or resource-constrained systems while retaining essential desktop functionalities.[28] Its efficient resource usage ensures smooth operation on modest specifications, appealing to users seeking reliability over visual extravagance.[30] In addition to these desktop-focused editions, Manjaro offers official variants such as the Minimal edition, which provides a bare-bones base system for users to construct custom setups by selecting components post-installation, and the Architect installer, a command-line interface tool for advanced, CLI-driven installations tailored to specific needs.[31] All official editions share the Calamares graphical installer for straightforward setup and configuration.[29] As of November 2025, all editions include multiple Linux kernel options, up to the 6.16 series, for robust hardware support and Mesa 25.2 for graphics acceleration, ensuring compatibility with contemporary applications and drivers.[32][33] The development team selects and maintains these editions based on user popularity metrics and long-term sustainability, applying updates simultaneously across the stable branch to preserve consistency.[34]Community and Third-Party Derivatives
The Manjaro community has developed several unofficial editions tailored to specific user needs and hardware, extending the base system's flexibility beyond official releases. The Manjaro i3 edition, maintained by community contributors, provides a lightweight tiling window manager environment using the i3 WM, appealing to power users seeking efficient, keyboard-driven workflows without a traditional desktop environment. Similarly, the Sway community edition, introduced in preview form in January 2021, focuses on Wayland compositing for improved performance and security on modern hardware, building on the i3 syntax for seamless transition. Architecture-specific variants, such as those optimized for the Pinebook Pro laptop, integrate Manjaro ARM with custom configurations for ARM-based devices, enabling smooth operation on single-board computers like those from Pine64. Third-party derivatives have emerged as independent projects inspired by Manjaro's user-friendly approach to Arch Linux, often adopting its installation tools while diverging for specialized purposes. EndeavourOS, launched in July 2019, serves as an Arch-based distribution with a Manjaro-inspired graphical installer using Calamares, prioritizing simplicity and minimalism for users transitioning from Ubuntu-like systems. Garuda Linux, founded in March 2020, functions as a gaming-optimized fork with aesthetic enhancements like custom themes and performance tweaks, such as Zen kernel optimizations and BTRFS snapshots for system stability. A prominent example of a community-driven project is Manjaro Linux ARM, an official community effort supporting single-board computers including Raspberry Pi and Pinebook devices, with ongoing unstable branch updates throughout 2025, such as kernel and Plasma enhancements in January and August. Among discontinued variants, the Manjaro Budgie edition, once a community spin featuring the Budgie desktop for a modern, Solus-inspired interface, ceased active maintenance after its 2021 release, with users now relying on non-official ISOs or manual installations via package managers. These derivatives maintain varying degrees of independence from Manjaro's core infrastructure; community editions typically leverage Manjaro's repositories while incorporating custom desktop environments, scripts, and themes for niche functionality. In contrast, third-party projects like Garuda and EndeavourOS often shift to direct Arch Linux repositories for faster package access and reduced delay, adding proprietary optimizations or visual customizations without relying on Manjaro's testing branches.Core Features
Installation and Configuration
Manjaro provides a user-friendly installation process through the graphical Calamares installer, accessible directly from the live ISO image, which allows users to boot into a fully functional desktop environment for testing hardware compatibility and features before committing to the installation.[35] The installer supports automated partitioning alongside manual options for advanced users, enabling custom layouts such as resizing existing partitions for dual-boot setups with operating systems like Windows, where BIOS/UEFI boot order adjustments may be required post-installation.[35] Additionally, Calamares includes built-in support for full-disk encryption using LUKS, as well as options to encrypt specific partitions, ensuring secure setups without needing command-line intervention.[36] Hardware configuration is streamlined via Manjaro Hardware Detection (MHWD), a core tool that automatically identifies system components upon boot or post-install and recommends appropriate drivers, such as proprietary NVIDIA modules for optimal graphics performance versus open-source alternatives like Nouveau for broader compatibility.[18] MHWD integrates seamlessly during the installation phase if internet access is available, installing necessary kernel modules and firmware; users can later verify or switch configurations using the commandmhwd -a [pci](/page/PCI) for automatic setup or manual selection via graphical interfaces.[12] This approach minimizes manual troubleshooting, particularly for GPUs, audio, and network devices, while maintaining flexibility for custom tweaks.
After installation, the Manjaro Settings Manager (MSM) serves as a centralized graphical hub for post-install customization, offering modules to adjust desktop environments, install additional kernels, and fine-tune hardware profiles without terminal commands.[37] For system reliability, Timeshift is readily available as a post-install tool, configurable to create incremental BTRFS snapshots or RSYNC backups, often paired with the timeshift-autosnap-manjaro hook for automatic snapshots during package updates via the Pamac manager.[38] The default setup includes an update notifier integrated into Pamac that alerts users to available system and software updates in the system tray; UFW is available in the repositories for easy installation and enabling of basic security rules.[39]
Accessibility is prioritized from the live environment, with extensive language support selectable during boot or via the Manjaro Settings Manager, including input method frameworks like IBus for multilingual keyboard layouts. Screen reader support is available through Orca, primarily in GNOME editions, with additional setup required for other desktop environments. High-contrast themes, magnifiers, and sticky keys are available in desktop editions like KDE Plasma and GNOME. Manjaro KDE Plasma plans to shift to Wayland as the primary display server in upcoming releases such as 25.1, as announced in June 2025, for improved security and smoothness on modern hardware, while retaining X11 as a fallback option.[40]
Package Management System
Manjaro employs a package management system derived from Arch Linux, utilizing binary packages for efficient software installation and maintenance. The system centers on official repositories that mirror Arch Linux's structure, including the core repository for essential system components, the extra repository for additional popular software, and the community repository for packages maintained by volunteers. Additionally, the multilib repository provides 32-bit compatibility libraries. These repositories are organized into Manjaro-specific branches—unstable for cutting-edge updates, testing for pre-release validation, and stable for production-ready packages—allowing users to select stability levels via configuration in/etc/pacman.conf.[41]
The primary command-line tool is Pacman, Arch Linux's native package manager, which handles synchronization, installation, and removal of packages from the official repositories. For example, users can search for packages with pacman -Ss <keyword>, install them using sudo pacman -S <package>, and perform full system upgrades with sudo pacman -Syu to sync databases and update all installed software. Pacman exclusively accesses Manjaro's official repositories and does not directly support the Arch User Repository (AUR), though AUR packages can be built and installed using helper tools like those integrated in graphical frontends.[42]
Complementing Pacman is Pamac, Manjaro's default graphical user interface (GUI) frontend, which simplifies package management for non-terminal users while providing CLI options via pamac. Pamac supports installations with commands like pamac install <package>, upgrades with pamac upgrade, and removals with pamac remove <package>, offering a unified view of available software through AppStream integration. It natively includes AUR support, enabling users to search, build, and install community-contributed packages directly, such as pamac build <aur-package>, though AUR usage carries risks of untested code. Furthermore, Pamac facilitates Flatpak and Snap package handling, allowing seamless integration of containerized applications from those ecosystems alongside traditional repositories.[43][44]
System updates in Manjaro follow a rolling-release model, where pamac upgrade or pacman -Syu fetches the latest packages from the selected branch, ensuring continuous improvements without major version jumps. This process integrates with Manjaro's kernel management via the mhwd-kernel tool, which leverages Pacman to install or remove kernel variants—such as long-term support (LTS) for stability or mainline for recent features—using commands like sudo mhwd-kernel -i linux<variant>. Users can maintain multiple kernels and switch between them at boot via the GRUB menu, with Pamac providing a GUI for easy selection and updates.[42][45]
A distinctive feature of Manjaro's package system is its use of geographically distributed mirrors, optimized for global download speeds and tailored to specific branches. The pacman-mirrors utility ranks and selects the fastest mirrors from a global pool, configurable in /etc/pacman.d/mirrorlist, reducing latency for users worldwide by prioritizing local servers for core, extra, community, and other repositories. This mirror infrastructure supports efficient syncing across unstable, testing, and stable branches, enhancing accessibility for international users.[46]
Stability Mechanisms
Manjaro achieves system stability through a tiered branch model that delays the integration of upstream changes from Arch Linux, allowing for thorough vetting before reaching end users. The unstable branch synchronizes multiple times daily with the Arch Linux stable repositories, providing the most current packages but requiring users to handle potential issues independently. Packages then progress to the testing branch, which is periodically snapshot from unstable—typically shortly after Arch synchronizations—for an initial quality assurance phase, where community testers identify regressions and compatibility problems. Finally, the stable branch, which is the default for most installations, incorporates these packages after an additional delay of 1 to 4 weeks in testing, ensuring broader reliability before general release. As of late 2025, the 25.1 development cycle emphasizes enhanced testing for kernels and Plasma updates.[47] Testing protocols in Manjaro emphasize both community involvement and automated processes to maintain reliability. Community quality assurance (QA) occurs primarily through dedicated forum threads, such as the Testing Announcements section, where users on the testing and unstable branches report bugs, perform manual verifications, and contribute feedback on package behavior across diverse hardware configurations. Automated scripts handle regression testing by simulating updates and checking for critical failures, such as boot issues or dependency conflicts, before packages advance. Additionally, Manjaro supports snapshot-based rollback mechanisms, particularly with Btrfs filesystems, using tools like Snapper or Timeshift to create pre- and post-update snapshots of the root partition, enabling users to revert to a previous stable state in case of breakage without data loss.[47][48] Key reliability features further enhance Manjaro's robustness, including hardware-specific kernel configurations managed by the Manjaro Hardware Detection (MHWD) tool, which automatically applies optimized kernel parameters and module blacklisting to prevent conflicts with devices like graphics cards or Wi-Fi adapters. During critical updates, certain packages—such as those involving major kernel or driver changes—may be temporarily held back in the repositories to allow for additional scrutiny, reducing the risk of widespread disruptions. In instances of update-related breaks, such as boot failures reported in September 2025 following a stable branch push, the development team responds with hotfixes, including emergency repository rollbacks and detailed recovery guides disseminated via official channels.[18][26] This approach introduces trade-offs, with Manjaro's stable branch delivering updates more slowly than the immediate pace of pure Arch Linux installations, but user experiences consistently report fewer breakage incidents due to the pre-release testing. For example, community discussions highlight that while Arch users may encounter regressions shortly after upstream releases, Manjaro's model minimizes such events, contributing to higher overall system uptime in daily use.[47][49]Relation to Arch Linux
Architectural Similarities
Manjaro Linux is fundamentally built upon the architecture of Arch Linux, adopting its core package management system, repositories, and initialization framework. At the heart of this shared foundation is the pacman package manager, which handles binary package installation, dependency resolution, and system upgrades in both distributions. Manjaro maintains its own repositories derived from Arch Linux's official repositories, providing access to a vast array of upstream software packages that are synchronized, tested, and rebuilt regularly to ensure compatibility. Additionally, both employ systemd as the default init system for managing services, boot processes, and system states, enabling seamless integration with Arch's service configuration standards. This base architecture supports a rolling release model, where updates are delivered continuously without fixed version numbers or major reinstallations, allowing users to maintain an up-to-date system through perpetual upgrades.[2][50][51] Key shared components further underscore the architectural alignment between Manjaro and Arch Linux. Both distributions support building custom packages from source code using PKGBUILD scripts and the makepkg utility, particularly for the Arch User Repository (AUR). Documentation follows a wiki-style approach in both ecosystems, with Manjaro leveraging the extensive Arch Wiki for in-depth guides on configuration and troubleshooting, promoting a knowledge-sharing model that benefits from community contributions. This overlap emphasizes a mutual philosophy of simplicity and customization, where minimal base installations encourage users to configure systems via plain text files without proprietary graphical tools, aligning with Arch's KISS (Keep It Simple, Stupid) principle and DIY ethos that prioritizes user autonomy and upstream software fidelity.[2][52][51] Community aspects reflect significant overlap, as Manjaro users frequently access Arch Linux's resources, including its forums and wiki, for support on shared components like package building and system maintenance. Both distributions cultivate a community that values upstream software integration and a hands-on approach to system assembly, fostering collaboration among users who contribute to repositories and documentation. Technically, Manjaro maintains parity with Arch in file system structure, adhering to the Filesystem Hierarchy Standard with directories such as /etc for configuration files and /usr for shared data and binaries. Kernel choices are identical in scope, offering the latest stable options from kernel.org for optimal hardware support, while both provide bleeding-edge packages through testing repositories to deliver cutting-edge software without compromising core stability.[2][52][51]Key Differences and Modifications
Manjaro introduces several usability enhancements over Arch Linux's minimalistic installation process, prioritizing accessibility for a broader audience. Unlike Arch, which requires users to manually configure and install desktop environments post-installation, Manjaro offers pre-configured official editions featuring desktop environments such as KDE Plasma, GNOME, and XFCE, complete with themed artwork and optimized settings for immediate use.[9] Graphical tools further simplify management; Pamac serves as a user-friendly frontend for the pacman package manager, enabling software installation, updates, and removal through an intuitive GUI, while MHWD (Manjaro Hardware Detection) automates graphics driver setup by detecting hardware and installing appropriate free or proprietary options with minimal user input.[43][12] To enhance stability, Manjaro implements modifications that buffer against upstream disruptions from Arch's repositories. Package syncing in Manjaro's stable branch is deliberately delayed by 1-4 weeks compared to Arch's immediate availability, allowing developers to test and resolve potential issues before propagation; this contrasts with Arch's bleeding-edge approach, where updates are pushed without such holds.[9] Branch isolation reinforces this through distinct stable, testing, and unstable branches, where the stable branch pulls from testing only after rigorous verification to prevent breakage from upstream changes. Proprietary drivers are readily accessible and often recommended for optimal performance in hardware-intensive scenarios, differing from Arch's default emphasis on open-source options that may require additional configuration.[12] Manjaro's repositories include extras tailored to its ecosystem, such as custom packages for themes, drivers, and optimizations not found in Arch's official repos, fostering a more polished experience. AUR integration is streamlined via Pamac, which supports building and updating AUR packages through simple GUI checkboxes or CLI commands likepamac build, reducing the manual PKGBUILD handling typical in Arch.[43] Philosophically, Manjaro shifts from Arch's KISS (Keep It Simple, Stupid) principle—geared toward experienced users who prefer full control and minimal defaults—to a more hand-holding approach, with enabled services like automatic updates and hardware configuration out of the box for newcomers.[9]
Release and Development Process
Branching and Testing Model
Manjaro's development follows a structured branching model designed to balance the incorporation of upstream Arch Linux changes with rigorous stability testing. The unstable branch acts as the primary integration point, mirroring Arch Linux's stable repositories multiple times per day while incorporating custom Manjaro-specific packages, such as optimized kernels, drivers, and in-house applications.[9] This branch enables rapid adoption of upstream updates but is recommended only for experienced users tolerant of potential disruptions. From the unstable branch, packages are selectively advanced to the testing branch through irregular snapshots, typically aligned with major Arch synchronizations. In the testing branch, developers perform manual quality assurance, including bug identification and compatibility checks, supplemented by community feedback.[9] Once vetted—usually after 1 to 4 weeks—these packages are promoted to the stable branch, which serves as the user-facing default and receives bi-weekly updates to maintain reliability for general audiences.[9] The testing workflow relies on Git-based repository management hosted on Manjaro's GitLab instance, where continuous integration and continuous deployment (CI/CD) pipelines automate package builds and validation. Community involvement is facilitated through access to the -testing repository, allowing users to test and report issues via dedicated announcement channels. Developers utilize tools like manjaro-devtools—a suite for package building, ISO creation, and chroot environments—to streamline these processes.[53][54] Contributions to Manjaro's codebase and packages are handled through pull requests submitted to the project's GitLab repositories, emphasizing incremental and non-disruptive modifications to avoid regressions. All participants are required to adhere to the Manjaro Code of Conduct, which establishes standards for respectful collaboration and inclusive participation across the community.[55] This process ensures that enhancements, such as custom configurations or hardware optimizations, align with the distribution's stability goals. As of 2025, Manjaro has introduced enhanced automation in its ARM testing procedures, enabling more frequent and reliable validation for ARM-based devices through dedicated update cycles. Additionally, the unstable branch has accelerated integration of upstream Arch Linux changes, reducing latency in propagating security and feature updates.[56]Version History and Recent Releases
Manjaro Linux began development in 2011, with its initial release on July 10 as version 0.1, marking the start of a project aimed at simplifying Arch Linux for broader accessibility.[4] Early versions focused on core functionality, with version 0.8.0 "Askella" released on August 20, 2012, introducing a basic Xfce edition alongside experimental KDE and GNOME spins to provide multi-desktop options from the outset. This release emphasized graphical installation via the Manjaro Wizard and hardware detection, though it remained in beta with limited stability.[57] By 2013, iterative updates like 0.8.5 (April 13) and 0.8.6 (June 2) refined kernel support (3.8.x and 3.9.x series) and package management, transitioning toward more robust multi-edition support across Xfce, KDE, and GNOME.[16] The versioning scheme evolved significantly over time. Initially using a 0.x.y format for incremental betas, Manjaro shifted in mid-2015 to a year-month notation (e.g., renaming 0.8.13 to 15.06 in June 2015) to better reflect release timing in its rolling model.[4] By 2019, it adopted the current YY.X scheme for major ISOs (e.g., 19.0), with point releases (e.g., 19.0.1) for updates; this allows snapshot-like stability points while maintaining rolling updates, with older ISOs reaching end-of-life typically 1-2 years after release based on kernel support cycles.[9] Non-LTS kernels in these snapshots become unsupported roughly every 2 months as newer mainlines stabilize, while LTS options (e.g., 6.1, 6.6) extend usability for legacy hardware.[58] In the mid-period, version 17.0 "Gellivara" arrived on March 7, 2017, as a major milestone with Linux kernel 4.9, KDE Plasma 5.9.x, Xfce 4.12, and the return of an official GNOME edition after a hiatus.[59] Key enhancements included improved multi-desktop consistency, the Maia theme for Xfce, and better hardware compatibility, solidifying Manjaro's user-friendly Arch derivative status.[60] Version 20.0 "Lysia," released April 26, 2020, advanced display protocols with Wayland support in the KDE Plasma 5.18 edition, alongside kernel 5.6, GNOME 3.36, and Xfce 4.14; it also integrated Snap and Flatpak by default via Pamac for easier app management.[61] Recent releases have emphasized modern desktops and performance. Manjaro 24.0 "Wynsdey" launched May 13, 2024, featuring Linux kernel 6.9, the debut of KDE Plasma 6.0 (with Wayland HDR and Qt transitions), GNOME 46, and Xfce 4.18; Pamac was updated to libalpm 6.1 for faster AUR handling.[62] The 24.2 "Yonada" point release followed on December 8, 2024, with kernel 6.12, Plasma 6.2 (adding drawing tablet and accessibility tools like colorblindness filters), GNOME 47, and refined Xfce file management in Thunar.[63] The latest major update, Manjaro 25.0 "Zetar," was released on April 14, 2025, incorporating kernel 6.12, Plasma 6.3 (with fractional scaling and Night Light improvements), GNOME 48 (featuring notification stacking and HDR), and Xfce 4.18; it also defaulted to Btrfs filesystem for new installations, enabling native snapshot tools like Snapper for enhanced rollback capabilities.[7] This edition prioritizes stability and gaming optimizations through updated Mesa drivers.| Version | Codename | Release Date | Key Highlights |
|---|---|---|---|
| 0.8.0 | Askella | August 20, 2012 | Basic Xfce with KDE/GNOME experiments; graphical installer debut. |
| 0.8.6 | Askella | June 2, 2013 | Kernel 3.9.x; multi-edition refinement.[16] |
| 17.0 | Gellivara | March 7, 2017 | Kernel 4.9; Plasma 5.9.x, GNOME reinstatement.[59] |
| 20.0 | Lysia | April 26, 2020 | Kernel 5.6; Wayland in Plasma, Snap/Flatpak integration.[61] |
| 24.0 | Wynsdey | May 13, 2024 | Kernel 6.9; Plasma 6.0 debut, GNOME 46.[62] |
| 24.2 | Yonada | December 8, 2024 | Kernel 6.12; Plasma 6.2 accessibility enhancements.[63] |
| 25.0 | Zetar | April 14, 2025 | Kernel 6.12; Btrfs default, GNOME 48.[7] |
Hardware and Compatibility
General Hardware Support
Manjaro Linux primarily targets the x86_64 architecture, providing official installation images optimized for Intel and AMD processors commonly found in desktops and laptops. It also offers community-maintained ARM64 (aarch64) support, including editions for single-board computers such as the Raspberry Pi 5, with development builds available since late 2024, though official stable images remain unavailable as of November 2025 and ARM development appears limited.[6][64][65][13][66] Graphics processing units are handled through the Manjaro Hardware Detection (MHWD) utility, which scans the system and installs appropriate drivers for NVIDIA, AMD, and Intel GPUs, including proprietary NVIDIA options and open-source Mesa drivers for AMD and Intel. This tool simplifies configuration for hybrid setups, such as Intel-NVIDIA combinations in laptops, ensuring seamless integration post-installation.[12][18] Peripheral devices benefit from broad out-of-the-box compatibility via the Linux kernel's built-in drivers, supporting Wi-Fi adapters (e.g., those using ath9k or iwlwifi modules), Bluetooth interfaces through BlueZ, and printers via the CUPS printing system, which auto-detects many models over USB or network connections. USB standards up to 4.0 are fully supported by the kernel's USB stack, enabling plug-and-play functionality for storage, input devices, and other peripherals without additional configuration in most cases.[67][68] Manjaro includes kernel modules for virtualization technologies, such as KVM for efficient hardware-accelerated virtual machines on x86_64 systems and VirtualBox support via dedicated host modules that can be installed and loaded automatically. Hardware detection is facilitated by tools like hwinfo, which provides detailed system queries, while the linux-firmware package ensures automatic loading of required firmware blobs for Wi-Fi, GPUs, and other components during boot. Overall, Manjaro demonstrates strong compatibility with modern hardware, supporting the majority of Intel/AMD-based laptops and desktops released in the 2020s.[69][70][71][64]Specific Compatibility Challenges
Manjaro users have reported glitches with NVIDIA Optimus hybrid graphics systems, particularly in configurations involving Intel integrated GPUs and discrete NVIDIA cards, where applications may fail to offload properly to the discrete GPU, leading to performance inconsistencies or black screens as of 2025. These issues were commonly mitigated through the use of theprime-run command to manually launch applications on the NVIDIA GPU.[72][73][74]
Older Wi-Fi chips, such as certain Realtek or Broadcom models, often require manual installation of Dynamic Kernel Module Support (DKMS) packages to ensure compatibility, as the default kernel modules may not load automatically. Users typically install these via the Arch User Repository (AUR), followed by a reboot, to enable wireless functionality on legacy hardware.[75][76]
In edge cases, Manjaro's ARM edition encounters power management challenges on single-board computers (SBCs) like Raspberry Pi models, where aggressive CPU scaling or incomplete ACPI support can lead to higher-than-expected idle power consumption or instability under load. Suspend and resume functionality also presents difficulties on certain AMD APUs, with systems occasionally freezing upon wake-up due to incomplete GPU state restoration in the amdgpu driver. Additionally, the September 2025 unstable branch update introduced GRUB boot failures on legacy BIOS systems, resulting in black screens or boot loops that required manual intervention to resolve.[77][78][79][80][26]
Common workarounds include following detailed forum guides for driver configuration, adding kernel parameters such as nomodeset to the GRUB boot line to bypass video driver loading during early boot, and installing proprietary NVIDIA blobs for enhanced stability in hybrid setups. The Manjaro community has also contributed upstream patches to the Mesa project to improve Vulkan support, addressing rendering artifacts in graphics-intensive applications.[81][82]
Ongoing improvement efforts involve the Manjaro Hardware Detection (MHWD) tool, which automates driver selection and testing across diverse hardware configurations during installation and updates, supplemented by community-reported testing on various devices to identify and patch compatibility gaps.[18][83]