Main Linux problems on the desktop, 2018 edition or why Linux sucks

In this regularly but rarely updated article, which is without doubt the most comprehensive list of Linux distributions' problems on the entire Internet, we only discuss their main problems and shortcomings (which may be the reason why some people say Linux distros are not ready for the desktop) while everyone should keep in mind that there are areas where Linux has excelled other OSes: excellent package management within one distro, multiple platforms and architectures support out of the box, usually excellent stability, no widely circulating viruses or malware, complete system reinstallation is almost never required, besides, Linux is extremely customizable, easily scripted and it's free as in beer.

Again, let me reiterate it, this article is primarily about Linux distributions, however many issues listed below affect the Linux kernel (the core of Linux distros and Android) as well.

This is not a Windows vs. Linux comparison, however sometimes you'll find comparisons with Windows or Mac OS as a point of reference (after all, their market penetration is in an order of magnitude higher). Most issues listed below are technical by nature, however some of them are "political" (it's not my word - it's what other people say) - for instance when companies refuse to release data sheets or they release incomplete data sheets for hardware, thus Linux users don't get all the features or respective drivers have bugs almost no one in the Linux community can resolve.

I want to make one thing crystal clear - Windows, in some regards, is even worse than Linux and it has its own share of critical problems. Off the top of my head I want to name the following quite devastating issues with Windows: • devastating Windows rot, • no enforced file system and registry hierarchy (I have yet to find a single serious application which can uninstall itself cleanly and fully), • svchost.exe, • no true safe mode, • no clean state, • the user as a system administrator (thus viruses/​malware - most users don't and won't understand UAC warnings), • no good packaging mechanism (MSI is a fragile abomination), • no system-wide update mechanism (which includes third party software), • Windows is extremely difficult to debug, • Windows boot problems are often fatal and unsolvable unless you reinstall from scratch, • Windows is hardware dependent (especially when running from UEFI), • Windows updates are terribly unreliable and they also waste disk space, • there's no way to cleanly upgrade your system (there will be thousands of leftovers), etc.

Probably you've heard many times that Android thus Linux is conquering the entire world since it's running on the majority of smart phones (which are indeed little specialized computers but not desktops). However there are two important things to keep in mind - firstly, Android is not Linux (besides, have you seen anyone running Android on their desktop or laptop?). Android contains the only Linux component - the kernel (moreover, it's a fixed old version (3.0.x, 3.4.x or 3.10.x as for 2016) which is maintained and supported solely by Google). Secondly, Android is not a desktop OS, it's an OS for mobile phones, tablets and other touch screen devices. So, this article is not about Android, it's about a horde of Linux distributions and Open Source Software included by these distributions (called "distro" below).

Miguel de Icaza, the creator of Gnome and Mono, opined about Linux problems in a similar way, here's his opinion where he reiterates a lot of things mentioned below. He stopped using Linux in 2012, saying about his Mac the following, "Computing-wise that three week vacation turned out to be very relaxing. Machine would suspend and resume without problem, Wi-Fi just worked, audio did not stop working, I spend three weeks without having to recompile the kernel to adjust this or that, nor fighting the video drivers, or deal with the bizarre and random speed degradation that my ThinkPad suffered", highlighting problematic areas in Linux. Recently Linus Torvalds expressed his utter disappointment with the state of Linux on the desktop.

Ubuntu developers decided to push Ubuntu as a viable gaming platform and they identified the topics which need to be addressed in order to achieve this goal. Uncannily the list, they've come up with, matches the list, you can read below, almost verbatim. In 2017 Ubuntu (as most other Linux distors) still struggled with GPUs, HiDPI, Network Manager and two dozens of other problematic areas. Fedora chimed in as well.

Some Fedora developers proposed changing this distro so it provides stable APIs/ABIs and avoids regressions if possible.

Feel free to express your discord in the comments section.


Greenish items on the list are either partially resolved, not crucial, questionable, or they have workarounds.

This list desperately needs to be reorganized because some of the problems mentioned here are crucial and some are not. There's a great chance that you, as a user, won't ever encounter any of them (if you have the right hardware, never mess with your system and use quite a limited set of software from your distro exclusively).

Here are a few important considerations before you start reading this article:

  • If you believe Linux is perfect and it has no problems, please close this page.
  • If you think any Linux criticism is only meant to groundlessly revile Linux, please close this page.
  • If you think the purpose of this article is to show that "nothing ever works in Linux or Linux is barely usable", you are wrong, please close this page.
  • If you believe Linux and Linux users will work/live fine without commercial software and games, please close this page.
  • If you think I'm here to promote Windows or Mac OS, please close this page.
  • If you think I'm here to spread lies or FUD about Linux, please close this page immediately and never ever come back. What are you doing here anyway? Please go back to flame wars and defamations.

Keep in mind that this list serves the purpose of showing what needs to be fixed in Linux rather than finding faults in it.

(For those who hate reading long texts, there's a TL;DR version below). So Linux sucks because ...

  • Hardware support:
    1. Video accelerators/​acceleration (also see the X system section).
      • ! NVIDIA Optimus technology and ATI dynamic GPU switching are still not supported on Linux out of the box in most major distros (Mint starting from version 17.2 supports Optimus but quite awkwardly - read the WFM section). AMD hybrid graphics support is lousy and very incomplete.
      • ! Open source drivers have certain, sometimes very serious problems (Intel-!, NVIDIA and AMD):
        • ! The open source NVIDIA driver is much slower (up to ten times) than its proprietary counterpart due to incomplete power management (primarily it's NVIDIA's fault).
        • ! The most recent test shows that open source AMD and NVIDIA drivers struggle to properly support many types of video cards.
        • ! The open source NVIDIA driver does not properly and fully support power management features and fan speed management.
        • ! Proprietary NVIDIA driver has a nasty habit of keeping your GPU at the highest performance level which significantly increases power consumption, and, in case of mobile users, significantly cuts battery life. NVIDIA was made aware of this bug in July 2017 and the issue still persists.
        • multiGPU rendering for games in Linux is not currently possible in any shape or form (no games or solutions). Nouveau (NVIDIA's open source driver) doesn't support OpenCL.
        • Oftentimes both open source and closed source drivers cannot properly detect and/or use monitors: with certain displays you may get black screen, or unsupported resolutions, or out of bandwidth message.
        • !! According to an anonymous NVIDIA engineer, "Nearly Every Game Ships Broken ... In some cases, we're talking about blatant violations of API rules ... There are lots of optional patches already in the driver that are simply toggled on or off as per-game settings, and then hacks that are more specific to games ... Ever wondered why nearly every major game release is accompanied by a matching driver release from AMD and/or NVIDIA?". The open source community simply doesn't have the resources to implement similar hacks to fix broken games, which means that at least for complex AAA games, proprietary drivers will remain the only option.
      • You cannot easily mix proprietary NVIDIA/AMD drivers with open source drivers because the former override system-wide OpenGL/OpenCL libraries. At the end of 2015 NVIDIA started working on implementing a vendor neutral OpenGL dispatch library which can solve this issue. Most likely this issue will be finally resolved in 2018.
      • ! NVIDIA and AMD proprietary graphics drivers don't work reliably for many people (crashes, unsupported new kernel and X server, slow downs, extreme temperatures, a very loud fan, 100% CPU usage, problems resuming after suspend, etc.).
      • Proprietary NVIDIA/AMD graphics drivers don't fully support KMS/VirtualFB and are often late in supporting newer server and kernel releases. Besides, Linux developers do everything to break closed source drivers by changing APIs (to give you an example, each and every kernel from 3.8 to 3.14 included, had changes that rendered NVIDIA binary drivers inoperable, i.e. uncompilable) or making APIs unusable beyond the GPL realm. NVIDIA's blob supports Wayland and Mir.
      • ! A great many users experience severe video and desktop tearing while watching videos and youtube clips (using Adobe Flash) - this issue affects both proprietary (NVIDIA confirmed that this issue plagues Kepler and Maxwell GPUs; an NVIDIA specific workaround exists but it causes performance degradation) and open source GPU drivers. Ostensibly it's an "feature".
      • ! Linux drivers are usually much worse (they require a lot of tinkering, i.e. manual configuration) than Windows/Mac OS drivers in regard to support of non-standard display resolutions, very high (a.k.a. HiDPI) display resolutions or custom refresh rates.
      • ! Under Linux, setting multi-monitor configurations especially using multiple GPUs running binary NVIDIA drivers can be a major PITA.
      • ! GPU voltage tuning will most likely never be supported both for AMD and NVIDIA GPUs which means there's no proper overclocking, or underclocking to save power.
    2. Audio subsystem:
      • PulseAudio is unsuitable for multiuser mode - yes, many people share their PCs (an untested solution can be found here).
      • ! No reliable echo cancellation (if you use a normal microphone and speakers in many cases you won't be able to use Skype and other VoIP services normally). Windows, Android and MacOS implement it on a system level. There's a solution for PulseAudio - hopefully it'll be enabled by default in the future or/and there'll be an easier way to use it.
      • ALSA (the primary sound driver in modern Linuxes) is a constant pain for both developers and users. In 2017 Mozilla silently replaced ALSA with PulseAudio in Firefox which drew a huge amount of flak because it turned out that PulseAudio still didn't work for a lot of people.
      • No reliable sound system, no reliable unified software audio mixing (implemented in all modern OSes except Linux), many old or/and proprietary applications still open audio output exclusively causing major user problems and headaches.
      • Hardly a dealbreaker, but then audio professionals also want to use Linux: high definition audio support (>=96KHz, >=24bit) is too often unusable. (Adobe Flash doesn't work with it, old Linux applications do not work with it or produce broken sound).
      • No volume control for HDMI devices connected to NVIDIA GPUs (notwithstanding ALSA softvol hacks).
    3. Printers, scanners and other more or less peripheral devices:
      • ! There are still many printers which are not supported at all or only barely supported (among them are Lexmark and Canon) - some people argue that the user should research Linux compatibility before buying their hardware. What if the user decides to switch from Windows to Linux when he/she already has some hardware? When people purchase a Windows PC do they research anything? No, they rightly assume everything will work out of the box right from the get-go.
      • Many printer's features are only implemented in Windows drivers.
      • ! Some models of scanners and (web-)cameras are still inadequately supported (again many features from Windows drivers are missing) or not supported at all.
      • Incomplete or unstable drivers for some hardware. Problems setting up some hardware (like sound cards, touchpads in newest laptops, web cameras or Wi-Fi cards, for instance, 802.11ac and USB Wi-Fi adapters are barely supported under Linux and in many cases they are just unusable). Numerous people report that Broadcom and Realtek network adapters are barely usable or outright unusable under Linux.
    4. Laptops, tablets, 2 in 1 devices, etc.:
      • Incomplete or missing support for certain power-saving features modern laptops employ (like e.g. PCIe ASPM, proper video decoding acceleration, deep power-saving states, etc.) thus under Linux you won't get the same battery life as under Windows or MacOS and your laptop will run a lot hotter. Jupiter (discontinued unfortunately), see Advanced Power Management for Linux. Edit July 19, 2018: If you're running supported hardware with Fedora 28 and Linux 4.17 and later, power management must be excellent under Linux aside from watching videos (both online and offline: video decoding acceleration in Linux is still a very sad story).
      • !! Oftentimes you just cannot use new portable devices in Linux, because proper support for certain features gets impletemented too late and distros pick up this support even later.
      • Laptops/notebooks often have special buttons and features that don't work (e.g. Fn + F1-F12 combination or special power-saving modes).
    5. ! Resume after suspend in Linux is unstable and oftentimes doesn't work.
    6. ! An insane number of regressions in the Linux kernel, when with every new kernel release some hardware can stop working inexplicably. I have personally reported two serious audio playback regressions, which have been consequently resolved, however most users don't know how to file bugs, how to bisect regressions, how to identify faulty components.
  • Software support:
    1. X system (current primary video output server in Linux):
      • is largely outdated, unsuitable and even very much insecure for modern PCs and applications.
      • No high level, stable, sane (truly forward and backward compatible) and standardized API for developing GUI applications (like core Win32 API - most Windows 95 applications still run fine in Windows 10 - that's 20 years of binary compatibility). Both GTK and Qt (incompatible GTK versions 1, 2, 3, 4 and incompatible Qt versions 2, 3, 4, 5 just for the last decade) don't strive to be backwards compatible.
      • ! Keyboard shortcut handling for people using local keyboard layouts is broken (this bug is now 13(!) years old).
      • ! doesn't automatically switch between desktop resolutions if you have a full screen application with a custom resolution running - strangely some Linux developers oppose to the whole idea of games on Linux. But since Linux is not a gaming platform and no one is interested in Linux as a gaming platform this problem's importance is debatable. Valve has released Steam for Linux and they are now porting their games for Linux - but that's a drop in the bucket.
      • ! doesn't restore gamma (which can be perceived as increased brightness) settings on application exit. If you play Valve/Wine games and experience this problem run `xgamma -1` in a terminal. You can thank me by clicking the ad at the top of the page ;-)
      • ! Scrolling in various applications causes artifacts.
      • ! allows applications to exclusively grab keyboard and mouse input. If such applications misbehave you are left with a system you cannot manage, you cannot even switch to text terminals.
      • ! Keyboard handling in is broken by design - when you have a pop up or an open menu, global keyboard shortcuts/​keybindings don't (GTK) work (QT).
      • It's fixed as for Qt5 - hopefully most Qt4 applications will be ported to Qt5: another keyboard handling issue is that in many situations applications' shortcuts do not work (Qt4) when you have a keyboard layout other than the English US version.
      • ! For VM applications keyboard handling is incomplete and passing keypresses to guest OS'es is outright broken.
      • ! architecture is inherently insecure - even if you run a desktop GUI application under a different user in your desktop session, e.g. using sudo and xhost, then that "foreign" application can grab any input events and also make screenshots of the entire screen.
      • Adobe Flash Player has numerous problems under Linux (unsupported video acceleration decoding and rendering, video tearing, crashes and frames dropping at 100% CPU usage even on high-end systems). In 2012 Adobe announced that Adobe Flash player wouldn't be supported any longer for any browsers other than Google Chrome. Edit 2016: no, this issue has not been resolved, it's just Adobe Flash Player which is rapidly becoming irrelevant.
      • ! server currently has no means of permanently storing and restoring settings changed by the user (xrender settings, Xv settings, etc.). NVIDIA and ATI proprietary drivers both employ custom utilities for this purpose.
      • !! has no means of providing a tear-free experience, it's only available if you're running a compositing window manager in the OpenGL mode with vsync-to-blank enabled.
      • !! is not multithreaded. Certain applications running intensive graphical operations can easily freeze your desktop (a simple easily reproducible example: run Adobe Photoshop 7.0 under Wine, open a big enough image and apply a sophisticated filter - see your graphical session die completely until Photoshop finishes its operation).
      • ! There's currently no way to configure mouse scroll speed/acceleration under Some mice models scroll erratically under
      • There's no way to replace/​upgrade/​downgrade graphics drivers on the fly (simply put - to restart X server while retaining a user session and running applications).
      • No true safe mode for the server (likewise for KMS - read below). Misconfiguration and broken drivers can leave you with a non-functional system, where sometimes you cannot access text virtual consoles to rectify the situation (in 2013 it became almost a non-issue since quite often nowadays no longer drives your GPU - the kernel does that via KMS).
      • Adding custom modelines in Linux is a major PITA.
      • totally sucks (IOW doesn't work at all in regard to old applications) when it comes to supporting tiled displays, for instance modern 4K displays (Dell UP3214Q, Dell UP2414Q, ASUS PQ321QE, Seiko TVs and others). This is yet another architectural limitation.
      • !! HiDPI support is pretty much non-existent. At the end of 2016 Ubuntu and System76 announced a collaboration to solve this issue.
      • ! Fast user-switching (and also concurrent users' sessions) under works very badly and is implemented as a dirty hack: for every user a new server is started. It's possible to login twice under the same account while not being able to run many applications due to errors caused by concurrent access to the same files. Fast user switching is best implemented in KDE followed by Gnome.

        Related problems: 1) Concurrently logged in users cannot access the same USB flash drive(s).

        2) There are reports that problems exists with configuring audio mixer volume levels.

    2. Wayland:
      • !! Wayland works through rasterization of pixels which brings about two very bad critical problems which will never be solved:

        Firstly, forget about performance/bandwidth efficient RDP protocol (it's already implemented but it works by sending the updates of large chunks of the screen, i.e. a lot like old highly inefficient VNC), forget about OpenGL pass-through, forget about raw compressed video pass-through. In case you're interested all these features work in Microsoft's RDP.

        Secondly, forget about proper output rotation/scaling/ratio change.

      • !! Applications (GUI toolkits) must implement their own font antialiasing - there's no API for setting system-wide font rendering. What??! Most sane and advanced windowing systems work exactly this way - Windows, Android, Mac OS X. In Wayland all clients (read applications) are totally independent.
      • !! Applications (GUI toolkits) must implement their own DPI scaling.
      • The above issues are actually the result of not having one unified graphical toolkit/API (and Wayland developers will not implement it). Alas, no one is currently working towards making existing toolkits share one common configuration for setting font antialiasing, DPI scaling and windows shadowing. At least in theory these issues can be easily solved, in practice we already have three independent toolkits for Wayland (GTK3/Qt5/Enlightenment).
      • !! Applies to the X server/protocol as well: neither, nor Wayland offer a way to extend/modify window's title bars and File Open/Save dialogs. This is a very powerful feature which can be very useful in many situations. Again it's a result of the fact that there's no unified toolkit and no unified window manager (or protocol).
      • XWayland refresh rate is locked to 60Hz - that's actually a serious problem since most games for Linux use the X11 protocol.
    3. Font rendering (which is implemented via high level GUI libraries) issues:
      • CHECKME: ! White or light-colored font antialiasing on dark backgrounds (without Infinality patches which are yet to be included by default by any distro) is horrible.
      • CHECKME: ! ClearType fonts are not properly supported out of the box (for a test I compiled FreeType 2.4.11 with ClearType technology but the results were abysmal). Even though the ClearType font rendering technology is now supported, you have no means to properly configure/tune it.
      • Quite often default fonts look ugly, due to missing good (catered to the LCD screen - subpixel RGB full hinting) default fontconfig settings (this quite unpopular website alone gets over 20% of its visitors seeking to fix bad font (rendering) in Linux).
      • Web fonts under Linux often look horrible in old distros.
      • Font antialiasing is very difficult to implement properly when not using GTK/Qt libraries (Opera had been struggling with font antialiasing for a year before they made it work correctly, Google Chrome had font rendering broken for eight months).
      • (Getting better but we're not yet there) By default most distros come without good or even Windows compatible fonts.
      • Font antialiasing settings cannot be applied on-the-fly under many DE.
      • By default most distros disable good font antialiasing due to patents - more or less resolved in 2012 (however even in 2016 there are still many distros which forget/refuse to enable SPR in freetype2).
    4. The Linux kernel:
      • ! The kernel cannot recover from video, sound and network drivers' crashes (I'm very sorry for drawing a comparison with Windows Vista/7/8 where this feature is implemented and works beautifully in a lot of cases).
      • KMS exclusively grabs video output and disallows VESA graphics modes (thus it's impossible to switch different versions of graphics drivers on the fly).
      • KMS video drivers cannot be unloaded or reloaded.
      • !! KMS has no safe mode: sometimes KMS cannot properly initialize your display and you have a dead system you cannot access at all (a kernel option "nomodeset" can save you, but it prevents KMS drivers from working at all - so either you have 80x25 text console or you have a perfectly dead display).
      • Traditional Linux/Unix (ext4/​reiser/​xfs/​jfs/​btrfs/etc.) filesystems can be problematic when being used on mass media storage.
      • File descriptors and network sockets cannot be forcibly closed - it's indeed unsafe to remove USB sticks without unmounting them first as it leads to stale mount points, and in certain cases to oopses and crashes. For the same reason you cannot modify your partitions table and resize/move the root partition on the fly.
      • In most cases kernel crashes (= panics) are invisible if you are running an X session. Moreover KMS prevents the kernel from switching to plain 640x480 or 80x25 (text) VGA modes to print error messages.
      • Very incomplete hardware sensor support, for instance, hwinfo32/64 detects and shows ten hardware sensor sources on my average desktop PC and over fifty sensors, whilst lm-sensors detect and present just four sources and twenty sensors. This situation is even worse on laptops - sometimes the only readings you get from lm-sensors are cpu cores' temperatures.
      • !! A great number (sometimes up to a hundred) of very serious regressions in every kernel release due to missing QC/QA. Even "stable" x.y.Z kernel updates sometimes have serious regressions.
      • !! The Linux kernel is extremely difficult and cumbersome to debug even for the people who develop it.
      • Under some circumstances the system or's GUI may become very slow and unresponsive due to various problems with video acceleration or lack of it and also due to notorious bug 12309 - it's ostensibly fixed but some people still experience it). This bug can be easily reproduced under Android (which employs the Linux kernel) even in 2016: run any disk intensive application (e.g. under any Android terminal 'cat /dev/zero > /sdcard/testfile') and enjoy total UI unresponsiveness.
      • !! Critical bug reports filed against the Linux kernel often get zero attention and may linger for years before being noticed and resolved. Posts to LKML oftentimes get lost if the respective developer is not attentive or is busy with his own life.
      • The Linux kernel contains a whole lot of very low quality code and when coupled with unstable APIs it makes development for Linux a very difficult error prone process.
    5. Problems stemming from the vast number of Linux distributions:
      • ! No unified configuration system for computer settings, devices and system services. E.g. distro A sets up networking using these utilities, outputting certain settings residing in certain file system locations, distro B sets up everything differently. This drives most users mad.
      • ! No unified installer/package manager/universal packaging format/dependency tracking across all distros (The GNU Guix project, which is meant to solve this problem, is now under development - but we are yet to see whether it will be incorporated by major distros). Consider RPM (which has several incompatible versions, yeah), deb, portage, tar.gz, sources, etc. It adds to the cost of software development.
      • ! Distros' repositories do not contain all available open source software (libraries' conflicts don't even allow that luxury). The user should never be bothered with using ./configure && make && make install (besides, it's insecure, can break things in a major way, and it sometimes simply doesn't work because the user cannot install/configure dependencies properly). It should be possible to install any software by downloading a package and double clicking it (yes, like in Windows, but probably prompting for a user/administrator password). Linux distros. ©2000 Microsoft Germany [Microsoft_Linux_ad]
      • ! Applications development is a major PITA. Different distros can use a) different library versions, b) different compiler flags, c) different compilers. This leads to a number of problems raised to the third power. Packaging all dependent libraries is not a solution, because in this case your application may depend on older versions of libraries which contain serious remotely exploitable vulnerabilities.
      • ! Two most popular open source desktops, KDE and Gnome, can configure only a few settings by themselves thus each distro creates its own bicycle (applications/utilities) for configuring a boot loader/​firewall/​network/users and groups/services/etc.
      • Linux is a hell for ISP/ISV support personnel. Within the organization you can force a single distro on anyone, but it cannot be accomplished when your clients have the freedom to choose.
    6. ! It should be possible to configure pretty much everything via GUI (in the end Windows and Mac OS allow this) which is still not a case for some situations and operations.
    7. No polish and universally followed conventions. Different applications may have totally different shortcuts for the same actions, UI elements may be placed and look differently.
  • Problems stemming from low Linux popularity and open source nature:
    1. ! Few software titles, inability to run familiar Windows software (some applications which don't work in Wine - look at the lines which contain the word "regression" - have zero Linux equivalents).
    2. ! No equivalent of some hardcore Windows software like ArchiCAD/3ds Max/Adobe Premier/Adobe Photoshop/Corel Draw/DVD authoring applications/etc. Home and enterprise users just won't bother installing Linux until they can get their work done.
    3. ! A small number of games and few AAA games for the past six years. The number of available Linux games overall is less than 10% of games for Windows. Steam shows a better picture: 25% of games over there have Linux ports (in January 2018: Windows 39892 titles vs. Linux 9442 titles) but 98-99% out of them are Indies; i.e. AAA titles, especially recent ones, are a rarity in Linux. Wine is very unstable, very regression prone, and no decent D3D 10/11/12 support (to be significantly improved in 2018).
    4. Questionable patents and legality status. USA Linux users cannot play many popular audio and video formats until they purchase appropriate codecs.
  • General Linux problems:
    1. !! There's no concept of drivers in Linux aside from proprietary drivers for NVIDIA/AMD GPUs which are separate packages: almost all drivers are already either in the kernel or various complementary packages (like foomatic/sane/etc). It's impossible for the user to understand whether their hardware is indeed supported by the running Linux distro and whether all the required drivers are indeed installed and working properly (e.g. all the firmware files are available and loaded or necessary printer filters are installed).
    2. !! There's no guarantee whatsoever that your system will (re)boot successfully after GRUB (bootloader) or kernel updates - sometimes even minor kernel updates break the boot process (except for Windows 10 - but that's a new paradigm for Microsoft). For instance Microsoft and Apple regularly update ntoskrnl.exe and mach_kernel respectively for security fixes, but it's unheard of that these updates ever compromised the boot process. GRUB updates have broken the boot process on the PCs around me at least ten times. (Also see compatibility issues below).
    3. !! LTS distros are unusable on the desktop because they poorly support or don't support new hardware, specifically GPUs (as well as Wi-Fi adapters, NICs, sound cards, hardware sensors, etc.). Oftentimes you cannot use new software in LTS distros (normally without miscellaneous hacks like backports, PPAs, chroots, etc.), due to outdated libraries. A recent example is Google Chrome on RHEL 6/CentOS 6.
    4. !! Linux developers have a tendency to a) suppress news of security holes b) not notify the public when the said holes have been fixed c) miscategorize arbitrary code execution bugs as "possible denial of service" (thanks to Gullible Jones for reminding me of this practice - I wanted to mention it aeons ago, but I kept forgetting about that).

      Here's a full quote by Torvalds himself: "So I personally consider security bugs to be just "normal bugs". I don't cover them up, but I also don't have any reason what-so-ever to think it's a good idea to track them and announce them as something special."

      Year 2014 was the most damning in regard to Linux security: critical remotely-exploitable vulnerabilities were found in many basic Open Source projects, like bash (shellshock), OpenSSL (heartbleed), kernel and others. So much for "everyone can read the code thus it's invulnerable". In the beginning of 2015 a new critical remotely exploitable vulnerability was found, called GHOST.

      Year 2015 welcomed us with 134 vulnerabilities in one package alone: WebKitGTK+ WSA-2015-0002. I'm not implying that Linux is worse than Windows/MacOS proprietary/closed software - I'm just saying that the mantra that open source is more secure by definition because everyone can read the code is apparently totally wrong.

      Year 2016 pleased us with several local root Linux kernel vulnerabilities as well as countless other critical vulnerabilities. In 2016 Linux turned out to be significantly more insecure than often-ridiculed and laughed-at Microsoft Windows.

      The Linux kernel consistently remains one of the most vulnerable pieces of software in the entire world. In 2017 it had 453 vulnerabilities vs. 268 in the entire Windows 10 OS. No wonder Google intends to replace Linux with its own kernel.

      Many Linux developers are concerned with the state of security in Linux because it is simply lacking.

    5. Linux servers might be a lot less secure than ... Windows servers, "The vast majority of webmasters and system administrators have to update their software manually and test that their infrastructure works correctly".

      Seems like there are lots of uniquely gifted people out there thinking I'm an idiot to write about this. Let me clarify this issue: whereas in Windows security updates are mandatory and they are usually installed automatically, Linux is usually administered via SSH and there's no indication of any updates at all. In Windows most server applications can be updated seamlessly without breaking services configuration. In Linux in a lot of cases new software releases require manual reconfiguration (here are a few examples: ngnix, apache, exim, postfix). The above two causes lead to a situation when hundreds of thousands of Linux installations never receive any updates, because their respective administrators don't bother to update anything since they're afraid that something will break.

      August 2016 report from Kaspersky corroborates my thesis: in the first seven months of 2016 the number of infected Linux servers increased by 70%.

      Ubuntu, starting with version 16.04 LTS, applies security updates automatically except for the Linux kernel updates which require reboot (it can be eliminated as well but it's tricky). Hopefully other distros will follow. As much as Ubuntu might be commended they still distribute their downloaded ISO images via HTTP - this is a major security threat because most users won't verify their ISO images using GPG.

    6. !! A new Linux init(!) system systemd has an utterly broken design: systemd can and does segfault, crash and freeze. In a sane world init should never ever crash under no circumstances.

      Edit: systemd has become a lot more stable and reliable recently however this doesn't change the fact that an init daemon should be designed such a way 1) it should never leave the system in an undefined state 2) it should be trivially updateable 3) it should never crash. SystemD however has all these problems combined. I for one also believe that an init daemon should try to boot up to a login prompt whenever possible, however systemd will stop booting after encountering even minor problems with fstab.

      Circa 2015 a simple solution was proposed: process id 1 (init) should be a very simple daemon, which will spawn all dependent systemd subsystems and processes. In this case the system can possibly recover from certain systemd errors. However no one really wants to implement this solution. Instead systemd grows bigger, more complicated and more prone to malfunctioning. Most embedded Linux system builders actually gave up on systemd due to its immoderate memory consumption and complexity.

    7. ! Fixed applications versions during a distro life-cycle. Say, you use DistroX v16.10 which comes with certain software. Before DistroX 18.10 gets released some applications get updated, get new exciting features but you cannot officially install, nor use them.
    8. ! Let's expand on the previous point. Most Linux distros are made such a way you cannot upgrade their individual core components (like kernel, glibc, Xorg, Xorg video drivers, Mesa drivers, etc.) without upgrading your whole system. Also if you have brand new hardware oftentimes you cannot install current Linux distros because almost all of them (aside from rare exceptions) don't incorporate the newest kernel release, so either you have to use alpha/development versions of your distro or you have to employ various hacks in order to install the said kernel.
    9. Some people argue that one of the problems that severely hampers the progress and expansion of Linux is that Linux doesn't have a clear separation between the core system and user-space applications. In other words (mentioned throughout the article) third-party developers cannot rely on a fixed set of libraries and programming interfaces (API/ABI) - in most other OSes you can expect your application to work for years without recompilation and extra fixes - it's often not possible in Linux.
    10. No native or/and simple solutions for really simple encrypted file sharing in the local network with password authentication (Samba is not native, it's a reverse engineered SMB implementation, it's very difficult for the average Joe to manage and set up. Samba 4 reimplements so many Linux network services/daemons - it looks like a Swiss knife solution from outer space).
    11. Glibc by design "leaks" memory (due to heap fragmentation). Firefox for Linux now uses its own memory allocator. KDE Konsole application uses its own memory allocation routines. Neil Skrypuch posted an excellent explanation of this issue here.
    12. ! Just (Gnome) not enough (KDE) manpower ( - three major Open Source projects are seriously understaffed.
    13. ! It's a major problem in the tech industry at large but I'll mention it anyways because it's serious: Linux/open source developers are often not interested in fixing bugs if they cannot easily reproduce them (for instance when your environment substantially differs from the developer's environment). This problem plagues virtually all Open Source projects and it's more serious in regard to Linux because Linux has fewer users and fewer developers. Open Source developers often don't get paid to solve bugs so there's little incentive for them to try to replicate and squash difficult to reproduce bugs.
    14. ! A galore of software bugs across all applications. Just look into KDE or Gnome bugzilla's - some bugs are now ten years old with over several dozens of duplicates and no one is working on them. KDE/Gnome/etc. developers are busy adding new features and breaking old APIs. Fixing bugs is of course a tedious and difficult chore.
    15. ! Steep learning curve (even today you oftentimes need to use a CLI to complete some trivial or non-trivial tasks, e.g. when installing third party software).
    16. ! Poor or almost missing regression testing in the Linux kernel (and, alas, in other Open Source software too) leading to a situation when new kernels may become totally unusable for some hardware configurations (software suspend doesn't work, crashes, unable to boot, networking problems, video tearing, etc.)
    17. GUI network manager in Linux has serious problems. NM cannot change your NIC hardware parameters. You cannot establish PPPoE connections over Wi-Fi.
    18. Poor interoperability between the kernel and user-space applications. E.g. many kernel features get a decent user-space implementation years after introduction.
    19. ! Linux security/permissions management is a bloody mess: PAM, SeLinux, Udev, HAL (replaced with udisk/upower/libudev), PolicyKit, ConsoleKit and usual Unix permissions (/etc/passwd, /etc/group) all have their separate incompatible permissions management systems spread all over the file system. Quite often people cannot use their digital devices unless they switch to a super user.
    20. No (easy to use) application level sandbox (like e.g. SandBoxie) - Fedora is working hard on it. You can now use firejail + firetools.
    21. ! CLI (command line interface) errors for user applications. All GUI applications should have a visible error representation.
    22. ! Certain Linux components have very poor documentation and lack good manuals.
    23. Questionable services for Desktop installations (Fedora, Suse, Mandriva, Ubuntu) - not really important with the advent of systemd.
    24. ! No unified widely used system for package signing and verification (thus it becomes increasingly problematic to verify packages which are not included by your distro). No central body to issue certificates and to sign packages.
    25. There are no native antivirus solutions or similar software for Linux (the existing ones are made for finding Windows viruses and analyzing Windows executives - i.e. they are more or less useless for Linux). Say, you want to install new software which is not included by your distro - currently there's no way to check if it's malicious or not.
    26. !! Most Linux distributions do not audit included packages which means a rogue evil application or a rogue evil patch can easily make it into most distros, thus endangering the end user (it has happened several times already).
    27. ! Very bad backwards and forward compatibility.
      • ! Due to unstable and constantly changing kernel APIs/ABIs Linux is a hell for companies which cannot push their drivers upstream into the kernel for various reasons like their closeness (NVIDIA, ATI, Broadcom, etc.), or inability to control development or co-develop (VirtualBox/​Oracle, VMWare/​Workstation, etc.), or licensing issues (4Front Technologies/OSS).
      • Old applications rarely work in new Linux distros (glibc incompatibilities (double-free errors, memory corruption, etc.), missing libraries, wrong/new libraries versions). Abandoned Linux GUI software generally doesn't work in newer Linux distros. Most well written GUI applications for Windows 95 will work in Windows 10 (21 years of compatibility on binary level).
      • New applications linked only against lib C will refuse to work in old distros. (Even though they are 100% source compatible with old distros).
      • New library versions bugs, regressions and incompatibilities.
      • Distro upgrade can render your system unusable (kernel might not boot, some features may stop working).
      • There's a myth that backwards compatibility is a non-issue in Linux because all the software has sources. However a lot of software just cannot be compiled on newer Linux distros due to 1) outdated, conflicting, no longer available libraries and dependencies 2) every GCC release becoming much stricter about C/C++ syntax 3) Users just won't bother compiling old software because they don't know how to 'compile' - nor they should they need to know how to do that.
      • DE developers (KDE/Gnome) routinely cardinally change UI elements, configuration, behaviour, etc.
      • Open Source developers usually don't care about application behaviour beyond their own usage scenarios. I.e. coreutils developers for no good reasons have broken head/tail functionality which is used by the Loki installer.
      • Quite often you cannot run new applications in LTS distros. Recent examples: GTK3 based software (there's no official way to use it in RHEL6), and Google Chrome (Google decided to abandon LTS distros).
    28. Linux has a 255 bytes limitation for file names (this translates to just 63 four-byte characters in UTF-8) - not a great deal but copying or using files or directories with long names from your Windows PC can become a serious challenge.
    29. ! Current serious issues with the author's own PC:
      1) ALSA's audio mixer works differently from Windows' audio mixer causing an utter confusion.
      2) Suspend (specially in EUFI mode) is totally broken. Suspend doesn't work at all actually - NVIDIA refuses to fix this issue which plagues only Linux.
      3) RPM package manager is broken.
      4) My webcam does not work when being initialized by Skype (it doesn't do anything unusual).
      5) My laptop cannot record audio via its microphone. Alsa developers don't give a flying f*ck - not a single comment from them for the past 1,5 month and counting.
    30. Certain applications that exist both for Windows and Linux start up faster in Windows than in Linux, sometimes several times faster. It's worth noting though that SSD disk users are mostly unaffected.
    31. All native Linux filesystems are case sensitive about filenames which utterly confuses most users. This wonderful peculiarity doesn't have any sensible rationale. Less than 0.01% of users in the Linux world depend on this feature.
    32. !! Most Linux filesystem cannot be fully defragmented unless you compact and expand your partition which is very dangerous. Ext4fs supports defragmentation but only for individual files. You cannot combine data and turn free space into one continuous area. XFS supports full defragmentation though, but by default most distros offer Ext4 and there's no official safe way to convert ext4 to XFS.
    33. Linux preserves file creation time only for certain filesystems (ext4, NTFS, fat). Another issue is that user space utilities currently cannot view or modify this time (ext4 `debugfs` works only under root).
    34. A lot of UNIX problems (PDF, 3MB) apply to Linux/GNU as well.
    35. There's a lot of hostility in the open source community.
    36. This is so freaking "amazing", you absolutely have to read it - the developer behind XScreenSaver fought with Debian developers.
    37. Random ramblings or why you may hate Linux (some are severely outdated/irrelevant/fixed but they are left for posterity to see the innards of the open source movement and community):
      1) KDE: troubleshooting kded4 bugs.
      2) A big discussion on Slashdot as to why people still prefer Windows over Linux.
      3) Another big discussion on Slashdot as to why Linux still lacks.
      4) Any KDE plasmoid can freeze the entire KDE desktop - seems to be fixed in KDE5.
      5) Why Desktop Linux Hasn't Taken Off - Slashdot.
      6) Torvalds Slams NVIDIA's Linux Support - Slashdot.
      7) Are Open-Source Desktops Losing Competitiveness? - Slashdot (A general consensus - No). 8) Broadcom Wi-Fi adapters under Linux are a PITA.

      9) A Gnome developer laments the state of Gnome 3 development.

      10) Fuck LTS distros: Google Says Red Hat Enterprise Linux 6 Is Obsolete (WTF?! Really?!).
      11) A rant about Gnome 3 APIs.
      12) OMFG: Ubuntu has announced Mir, an alternative to
      13) KDE's mail client cannot properly handle IMAP mail accounts.
      14) Desktop Linux security is a mess (zipped MS Powerpoint presentation, 1.3MB) + 13 HID vulnerabilities.
      15) Yet another Gnome developer concurs that Gnome 3 was a big mistake.
      16) Gnome developers keep fucking hard their users.
      17) Fixed now: KDE developers' yet another fuck up called, "You want to disable files indexing? Really? Fuck you! Eat what we're giving you." 18) Linux "security" is a mess. For the past six months two local root exploits have been discovered in the Linux kernel. Six critical issues have been discovered in OpenSSL (which allow remote exploitation, information disclosure and MITM).

      19) Skype developers dropped support for ALSA. Wow, great, fuck compatibility, fuck old distros, fuck the people for whom PulseAudio is not an option.

      20) Well, fuck compatibility, there are now three versions of OpenSSL in the wild: OpenSSL itself, BoringSSL by Google, LibReSSL by OpenBSD. All with incompatible APIs/ABIs (OpenSSL itself breaks API/ABIs quite often).
      21) KDE developers decided to remove support for the xembed based system tray, so your old applications will not have a system tray icon, unless you patch your system. Wonder-fuck-you-ful. The feature has finally been reintroduced in Plasma 5.5.5 after two years (!!) of users' remonstrance. 22) KDE developers/maintainers silently delete unpleasant user comments on KDE developers ignore bugs posted at

      23) Welcome: PulseAudio emulation for Skype. Audio is not fucked up in Linux you said?

      24) UDP connections monitoring is a hell on earth.
      25) Linux has become way too complex even for ... Linux developers.
      26) Linux developers gave up on maintaining API/ABI compatibility even among modern distros and decided to bundle a full Linux stack with every app to virtualize it. This is so f*cked up, I've got no words. Oh, Wayland is required for that, so this thing is not going to take off any time soon.
      27) Out of 20 most played/popular games in Steam only three are available for Linux. I'm not saying it's bad, it's just what it is.
      28) This article is getting unwieldy but fuck it, even Linus admits that API/ABI compatibility in Linux is beyond fucked up: "making binaries for Linux desktop applications is a major fucking pain in the ass. You don’t make binaries for Linux, you make binaries for Fedora 19, Fedora 20, maybe even RHEL5 from 10 years ago. You make binaries for Debian Stable…well actually no, you don't make binaries for Debian Stable because Debian Stable has libraries that are so old that anything built in the last century doesn’t work."
      29) KDE is spiralling out of control (besides, its code quality is beyond horrible - several crucial parts of the KDE SC, like KMail/akonadi, are barely functional): people refuse to maintain literally hundreds of KDE packages.
      30) Google Chrome stopped supporting 32bit distros starting March 2016. They don't care that 64bit distros and applications in some cases require up to 40% more RAM.
      31) Let's have some fun! ... or hatred maybe? Native Linux games do ... not work under Linux. Fuck compatibility. Fuck it! This "OS" is a fucking joke.
      32) QA/QC in Linux you say? Oh, really? Like you're not joking?
      33) In April 2017 Canonical (the company behind Ubuntu) axed the development of their own desktop environment Unity and their own display manager Mir. A lot of people questioned their decision to migrate to Gnome 3 which is not perceived as a PC-friendly desktop environment by the Linux community.
      34) This is so brilliant it will leave you speechless. This is how open source projects should interact more often (it's a sad joke). KWin + Wayland vs. Qt 5.8/5.9, fight!
      35) In 2018 Gnome developers decided that applications must replace title bars with header bars.
      36) This is quite damning: admits that there are no stable Linux kernels, "The most we can do is to unhelpfully state that they are "differently stable”".
  • Software development under and for Linux
    1. ! Stable API nonsense: you cannot develop kernel drivers out of the kernel tree, because they will soon become incompatible with mainline. That's the sole reason why RHEL and other LTS distros are so popular in enterprise. This is why Google is currently developing an alternative to the Linux kernel - even they don't have enough resources and willpower to maintain their own Linux fork.
    2. Games development: no complete multimedia framework.
    3. ! Hostility towards third-party developers: many open source projects are extremely self-contained, i.e. if you try to develop your open source project using open source library X or if you try to bring your suggestions to some open source project, you'll be met with extreme hostility.
    4. A lot of points mentioned above apply to this category, they won't be reiterated.
  • Enterprise level Linux problems:
    1. Most distros don't allow you to easily set up a server with e.g. such a configuration: Samba, SMTP/POP3, Apache HTTP Auth and FTP where all users are virtual. LDAP is a PITA. Authentication against MySQL/any other DB is also a PITA.
    2. ! No software (group) policies.
    3. ! No standard way of software deployment (pushing software via SSH is indeed an option, but it's in no way standard, easy to use or obvious - you can use a sledgehammer to crack nuts the same way).
    4. ! No CIFS/AD level replacement/​equivalent (SAMBA doesn't count for many reasons): 1) Centralized and easily manageable user directory. 2) Simple file sharing. 3) Simple (LAN) computer discovery and browsing.
    5. No native production-ready filesystem with de-duplication, data and metadata checksumming and file compression (please support bcachefs - it has it all). No filesystems at all to support per-file encryption (ext4fs implements encryption for directories starting from Linux 4.1 but it will take months before desktop environments start supporting this feature).
    6. !! No proper RDP/Terminal Services alternative (built-in, standardized across distros, high level of compression, low latency, needs zero effort to be set up, integrated with Linux PAM, totally encrypted: authentication + traffic, digital signature like SSH).

A lot of people who are new to Linux or those who use a very tiny subset of applications are quick to disregard the entire list saying things like, "Audio in Linux works just fine for me." or "I've never had any troubles with video in Linux." Guess what, there are thousands of users who Linux car analogy.
Click to view the full image have immense problems because they have a different set of hardware or software. Do yourself a favour - come and visit Ubuntu or forums and count the number of threads which contain "I have erased PulseAudio and only now audio works for me" or "I have finally discovered I can use nouveau instead of NVIDIA binary drivers (or vice versa) and my problems are gone."

There's another important thing that critics fail to understand. If something doesn't work in Linux, people will not care whose fault it is, they will automatically and rightly assume it's Linux's fault. For the average Joe, Linux is just another operating system. He or she doesn't care if a particular company ABC chose not to support Linux or not to release fully-functional drivers for Linux - their hard earned hardware just doesn't work, i.e. Linux doesn't work. People won't care if Skype crashes every five minutes under some circumstances - even though in reality Skype is an awful piece of software which has tonnes of glitches and sometimes crashes even under Windows and MacOS.

I want to refute a common misconception, that support for older hardware in Linux is a lot better than in Windows. It's partly true but it's also false. For instance neither nouveau nor proprietary NVIDIA drivers have good support for older NVIDIA GPUs. Nouveau's OpenGL acceleration speed is lacking, NVIDIA's blob doesn't support many crucial features found in Xrandr or features required for proper acceleration of modern Linux GUIs (like Gnome 3 or KDE4). In case your old hardware is magically still supported, Linux drivers almost always offer only a small subset of features found in Windows drivers, so saying that Linux hardware support is better, just because you don't have to spend 20 minutes installing drivers, is unfair at best.

Some comments just astonish me: "This was terrible. I mean, it's full of half-truths and opinions. NVIDIA Optimus (Then don't use it, go with Intel or something else)." No shit, sir! I've bought my laptop to enjoy games in Wine/dualboot and you dare tell me I shouldn't have bought in the first place? I kindly suggest that you not impose your opinion on other people who can actually get pleasure from playing high quality games. Saying that SSHFS is a replacement for Windows File Sharing is the most ridiculous thing that I've heard in my entire life.

It's worth noting that the most vocal participants of the Open Source community are extremely bitchy and overly idealistic people peremptorily requiring everything to be open source and free or it has no right to exist at all in Linux.With an attitude like this, it's no surprise that a lot of companies completely disregard and shun the Linux desktop. Linus Torvalds once talked about this: There are "extremists" in the free software world, but that's one major reason why I don't call what I do "free software" any more. I don't want to be associated with the people for whom it's about exclusion and hatred.

Most importantly this list is not an opinion. Almost every listed point has links to appropriate articles, threads and discussions centered on it, proving that I haven't pulled it out of my < expletive >. And please always check your "facts".

I'm not really sorry for citing slashdot comments as a proof of what I'm writing about here, since I have one very strong justification for doing that - the /. crowd is very large, it mostly consists of smart people, IT specialists, scientists, etc. - and if a comment over there gets promoted to +5 insightful it usually* means that many people share the same opinion or have the same experience. This article was discussed on Slashdot, Reddit, Hacker News and in 2017.
* I previously said "certainly" instead of "usually" but after this text was called "hysterical nonsense" (a rebuttal is here) I decided not to use this word any more.

On a positive note

If you get an impression that Linux sucks - you are largely wrong. For a limited or/and non-professional use Linux indeed shines as a desktop OS - when you run it you can be sure that you are malware free. You can safely install and uninstall software without fearing that your system will break up. At the same time innate Windows problems (listed at the beginning of the article) are almost impossible to fix unless Microsoft starts from scratch - Linux problems are indeed approachable. What's more, Linux, unlike Windows 10, doesn't collect data on you and doesn't send it anywhere. Some points in the article need to be revised and corrected because in 2016 certain issues have either become resolved or more or less irrelevant as pointed by Justin Garrison at Kudos to him!

Also there are several projects underway which are intended to simplify, modernize and unify the Linux desktop. They are systemd, Wayland, file system unification first proposed and implemented by Fedora, and others. Unfortunately no one is working towards stabilizing Linux so the only alternative to Windows in the Linux world is Red Hat Enterprise Linux and its derivatives (CentOS and Scientific Linux).

Many top tier 3D game engines now support Linux natively (with reservations): CryEngine, Unreal Engine 4, Unity Engine, Source Engine 2.0 and others.

Valve Software released Steam for Linux (alas, it only works well under SteamOS and it has compatibility issues with modern Linux distros) and ported the Source engine for Linux and also they developed a Steam gaming machine which is based on Linux. Valve's efforts have resulted in a number of AAA game titles having been made available natively for Linux, e.g. Metro Last Light. Valve since then have ported a lot of their games to Linux.

Here's the list of AAA game titles which have been released more or less recently (in a reverse order, i.e. more recent titles at the beginning of the list):

NVIDIA made their drivers more compatible with bumblebee, however NVIDIA themselves don't want to support Optimus under Linux - maybe because architectures are not very suitable for that. Also NVIDIA started to provide certain very limited documentation for their GPUs.

Linus Torvalds believes Linux APIs have recently become much more stable - however I don't share his optimism ;).

Ubuntu developers listened to me and created a new unified packaging format. More on it here and here. Fedora developers decided to follow Ubuntu's lead and they're contemplating making the installation of third-party non-free software easy and trouble free.

The Linux Foundation formed a new initiative to support critical Open Source Projects.

An application level firewall named Douane has been graciously donated to the Linux community. Thanks a lot to its author!

With the Mesa 11 release in September 2015, OpenGL 4.1 finally become reality under Linux. Hopefully this will entice game publishers to start porting more games for Linux. In June, 2015 the remaining bits of the OpenGL 4.5 stack were implemented in Linux so OpenGL 4.5 is now fully supported in Linux by major open source drivers (Intel, AMD and NVIDIA).

Starting March 2017 you can watch Netflix in Linux.

In 2018 thanks to the DXVK project Linux gamers are now able to run DirectX 11 Windows games on Linux - Wine's own implementation is severly lacking and will probably be replaced with DXVK.

In August 2018 Valve released Proton for Steam: this compatibility layer based on Wine, allows you to run native Windows games from the Steam catalogue in Linux without using any tricks with almost native speed. Its only drawback is that it requires a modern enough GPU which supports Vulkan.


Sometimes I have reasons to say that indeed Linux f*cking sucks shit and I do hate it. Lennart Poettering doesn't give a flying f*ck about how I want to use my system, and I don't even want to mention that those two things used to work previously. "I'm a developer - I know better how users want to use their software and systems", says the average Linux developer. The end result is that most innovations draw universal anger and loathing - Gnome 3, Unity, KDE 4.0 are the perfect examples of this tendency of screwing Linux users.

So my stance towards systemd: I dislike it a whole lot. I've tried it ten times already and this abomination keeps segfaulting (crashing the entire system), it cannot complete the boot process and freezes midway, it's as fickle as the sun in rainy weather. An init system should never ever crash! Do a me favour and run "systemd segfault", "systemd crash", "systemd freeze" on Google and realize this shouldn't ever have made it into production systems and stable distros.

Linux has a tendency to fuck with your data. Over the past three years there have been found at least three critical errors which led to data loss. I'm sorry to say that but that's utterly unacceptable. Also ext4fs sees a scary number of changes in every kernel release.

There are two different camps in regard to the intrinsic security of open and closed source applications. My stance is quite clear: Linux security is a bad joke. There are no code analyzers/antiviruses so you have no way to check if a certain application, which is published as a source code or binaries, is safe to use. Also time and again we've seen that open source projects are hardly reviewed/scrutinized at all which also means that an attacker can send a patch to Linus Torvalds and add a backdoor to the Linux kernel.

Critical bugs which make it impossible to use your hardware/software in Linux stay open for years! I reported the fact that my webcam is broken (completely black output under certain video modes) three (!!) years ago. This webcam is one of the most popular - no one bats an eye. For my new Skylake laptop I filed eight bug reports and seven of them remain open. Six of them have received no response at all. Nil. No one gives a flying fuck.

True inter-distro compatibility? "WTF are you talking about?", ask Linux distro developers. Debian dropped LSB support in 2015. Recently Ubuntu developers decided to make it possible to run new software in old distros by using the SNAPPY packaging format which is basically an application emulation layer. Wow. Effing great. I mean it's great such a thing has been finally implemented but it's the wrong way, guys!

Font problems: in case you've reached this page and you still want good/best/top/free fonts for Linux, download them from here. It seems like many people come to this website looking for the best desktop linux distro in 2016.

A lot of people wonder if Linux can be "solved", i.e. if there's anything that might be done to make Linux a real alternative to Windows and Mac OS X on the desktop. I have to admit that this will be a tall order and at least two well-known companies have already failed: the most recent example is a company from Africa, Ubuntu, and you might be surprised to know that Corel also tried at the beginning of the 21'st century (google for Corel Linux).

Without further ado let's describe the process:

At first, you have to have very deep pockets: we are talking about at least a billion USD in cash for the first five years. When you have that kind of money you create a Linux company.

Then you hire at least 90% of open source developers. You'll have to poach quite a lot of them from RedHat/Intel/Ubuntu/etc., including Linus Torvalds.

Then you start developing a Linux platform while sticking to these principles (also outlined here and here):

If you or your company are seriously thinking about the ramifications of installing Windows 10 and you're pretty scared of the prospects of running the OS which invades your privacy and deprives you of the control of its crucial features (for instance you cannot officially disable telemetry, windows updates, cortana or windows defender) then I guess you're asking yourself a question: what should we do?

First of all, if you're running Windows 7 or Windows 8.1 you're safe at least until year 2023. I would not recommend leaving these OS'es because I'm quite sure they work just fine for you and you have almost zero issues with them, specially if you're a large company and your workstations are locked down so there's no point in migrating to something new and untested just yet.

At the same time if you're buying and deploying new workstations you might consider installing Linux. By doing so you'll be helping the open source community by increasing the userbase and possibly finding, reporting and even eliminating bugs in case you have software developers in your organization. Of course, you might want to run applications which have no equivalents under Linux. In this case you have two options: you may either run Windows as a virtual machine or you may try using Wine. Wine is very powerful software which allows you to run Windows applications under Linux at near native speed (sometimes even faster).