Introducing the OSNews Patreon

Since OSNews’ inception in 1997 – yes, this site is that old – a lot has changed on the internet when it comes to earning income. While for a very long time a site like OSNews could sustain itself through revenue from basic ads alone, we’re now far beyond the point where that is feasible – unless we were to introduce ever more intrusive ads, which we’re obviously not going to do.

Our readers are, of course, keenly aware of how expensive it can be to run a website like OSNews, and as such, many of you have asked us over the years for methods of supporting the website financially. We’ve always had a subscriber program for an ad-free version of the site, but we never really advertised it very heavily. Today, that’s going to change.

You can now support OSNews by becoming an OSNews Patreon. With your support, we can keep posting stories every single day, pay the hosting bills, write more interesting articles, access interesting hardware to review for your amusement, and possibly expand into new territories like video reviews to accompany the regular written reviews. Your support will enable us to write reviews of older, vintage devices and software like Palm PDAs, Psion devices, old operating system versions, and much more.

We’ve created three tiers – Silver, Gold, and Platinum – and at each of these tiers you’ll get the ad-free version of OSNews, as well as a silver, gold, or custom comment flair to show off your status as an OSNews Patreon. All of our readers are equal, of course, but OSNews Patreons are just a little more equal.

If you want to support the continued work we do, head on over to the OSNews Patreon page and become an OSNews Patreon. Thank you – all of you, not just OSNews Patreons – for supporting the site!

Important note: since Patreon has ended support for their API, we are not investing engineering hours into full integration of Patreon into OSNews. This means we have to add the rewards to your OSNews account manually. As such, it may take a few hours before your rewards are added to your account, depending on time zones, availability of OSNews staff, and so on. We will obviously do our best to make this process as quick as possible, but please bear with us.

Frequently (?) Asked Questions

Does this mean OSNews will start putting content behind Patreon-only paywalls? No. All of the stories and articles we post will remain freely available as they always have been, and even future articles made possible through Patreon supporters will always be available to everyone. The goal of the OSNews Patreon is to support OSNews as a whole, not just a small part of it.

Can you give some examples of the kinds of articles you want to write that are impossible to do without more financial support? Sure! A great example of an article – or, more likely, series of articles – that I’ve been dying to write is one about one of the last Sun UltraSPARC multiprocessor workstations, fitted with one of the later SunPCI cards. I’m a huge fan of Sun’s workstation hardware, but getting access to relatively old and outdated hardware like this is surprisingly expensive. A successful Patreon could make this a reality.

I also have a massive collection of PDAs, from the late 80s all the way up to the 2000s, that I would love to write more about. That takes a lot of time, and with the support of the OSNews Patreon I might be able to set aside time from my regular job to focus more on writing articles for OSNews. There are tons of other interesting topics that require expenses too, such as SGI’s IRIX, or Psion devices, or even modern computers like the new M1-based Macs.

Will you introduce more tiers and benefits in the future? Possibly. We have a few other ideas that we need to flesh out further and reconsider before making any commitments.

Why is the pricing in euros, and not in dollars or Canadian rubles? The pricing is set in euros, but Patreon shows the amounts converted to your local currency. Some users may still see the euro pricing, however, for instance when using a VPN.

Can I cancel my Patreon or upgrade/downgrade to a different tier? Yes. Patreon as a platform offers all of these options at any time, so you’ll never have to feel tied down or locked into or out of a certain tier.

GhostBSD 20.11.28 released

This release comes with a new live system that leverages ZFS, compression, and replication first introduced in FuryBSD by Joe Maloney. The 20.11.28 release contains numerous improvements, including OS fixes for linuxulator to improve Linux Steam performance, an updated kernel, and GhostBSD userland updates. Userland updates include a MATE desktop upgrade to version 1.24.1, Software Station performance improvements, and numerous application updates.

Does anybody have any experiences with Linuxulator? I’m quite curious about its performance compared to running the same binaries on Linux, and just how easy it is to use.

Why is Apple’s M1 chip so fast?

On Youtube I watched a Mac user who had bought an iMac last year. It was maxed out with 40 GB of RAM costing him about $4000. He watched in disbelief how his hyper expensive iMac was being demolished by his new M1 Mac Mini, which he had paid a measly $700 for.

In real world test after test, the M1 Macs are not merely inching past top of the line Intel Macs, they are destroying them. In disbelief people have started asking how on earth this is possible?

If you are one of those people, you have come to the right place. Here I plan to break it down into digestible pieces exactly what it is that Apple has done with the M1.

It’s exciting to see x86 receive such a major kick in the butt, but it’s sad that the M1 is locked away and only a very, very small number of people will get to see its benefits.

Little things that made Amiga great

In a time when home PC’s were single tasking DOS boxes with 8 character file names and Ataris and Macs were single tasking GUI boxes, hampering any hacker with their glaring lack of a CLI, the Amiga was a champion of both worlds: It combined the CLI and GUI, leveraging both their strengths. But there was more to it than that, something that’s hard to convey in so many words.

A long list of little things that the author believes made the Amiga great. There’s some interesting touches in there, but personally, the Amiga OS and its derivatives just do not click with me – and I’ve extensively used all of them. Not that it matters, though – there’s more than enough love for the Amiga to go around.

Genode OS Framework 20.11 released

With Genode 20.11, we focused on the scalability of real-world application workloads, and nurtured Genode’s support for 64-bit ARM hardware. We thereby follow the overarching goal to run highly sophisticated Genode-based systems on devices of various form factors.

The release notes are detailed and informative as always – a huge benefit of being a project born at and run in a university environment.

Apple Silicon M1: a developer’s perspective

The new M1 MacBooks are fast, beautiful and silent and the hype is absolutely justified. There’s still a lot to do on the software-front to catch up, and the bugs around older iOS Simulators are especially problematic.

All of that can be fixed in software and the whole industry is currently working on making the experience better, so by next year, when Apple updates the 16-inch MacBook Pro and releases the next generation of their M chip line, it should be absolutely possible to use a M1 Mac as main dev machine.

For the vast majority of people, it’s going to be very hard to resist these new Macs. They’re just so far ahead of the competition in performance, power draw, battery life, and noise (or lack thereof) that any x86-based laptop just can’t compete, unless they go hardcore in on price.

I’d love to have one to test and review here for OSNews, but financially that’s not in the cards for now.

ELKS, the Embeddeable Linux Kernel Subset, 0.4 released

This is a project providing a Linux-like OS for systems based on the Intel IA16 architecture (16-bit processors: 8086, 8088, 80188, 80186, 80286, NEC V20, V30, and compatibles).

Such systems are ancient computers (IBM-PC XT/AT and clones), or more recent SBC/SoC/FPGA that reuse the huge hardware & software legacy from that popular platform.

Definitely an interesting and impressive project.

Developer successfully virtualizes ARM Windows on Apple Silicon

A developer has successfully been able to virtualize the ARM version of Windows on Apple Silicon using the QEMU virtualizer.

Apple’s M1 MacBooks have proved their worth when it comes to performance and battery efficiency. But, since these run on a custom ARM chip, it’s not yet possible to install, dual boot, or emulate Windows; which is in popular demand.

Developer Alexander Graf, however, took to Twitter today to share his achievement: successfully being able to virtualize ARM Windows on Apple Silicon.

Nothing too surprising, of course, but the real barrier to Windows on ARM running on M1-equipped Macs is not running Windows on M1 Macs, but Microsoft actually making the ARM version of Windows available for this very purpose.

Geeking out with UEFI, again

A few weeks ago, we linked to an article that went in-depth into UEFI, and today, we have a follow-up.

But the recent activity reminded me that there was one thing I couldn’t figure out how to do at the time: Enumerate all the available UEFI variables from within Windows. If you remember, Windows has API calls to get and set UEFI variable values, but not to enumerate them. So I started doing some more research to see if there was any way to do that – it’s obviously possible as the UEFI specs describe it, a UEFI shell can easily do it, and Linux does it (via a file system).

My research took me to a place I wouldn’t have expected.

We can always go deeper.

v7/x86: the last true UNIX, ported to x86

V7/x86 is a port of the Seventh Edition of the UNIX operating system to the x86 (i386) based PC. UNIX V7 was the last general distribution (around 1979) to come from the Research group at Bell Labs, the original home of UNIX. The port was done mostly around 1999 when “Ancient UNIX” source code licenses first became available, and was revised for release, with some enhancements, during 2006-7.

The distribution includes the full UNIX Version 7 operating system, with source code, pre-built binaries, man pages, and original Version 7 documentation. Also included are a custom UNIX-style x86 assembler, an ACK-based C compiler, and several key early UCB software components such as the C shell, the editors ex and vi, and the pager more.

I’m inclined to try and run this virtually, to see just how bastardised and messy UNIX has become in our current UNIX derivatives.

The FreeBSD desktop series

The FreeBSD Desktop series are about creating efficient desktop environment on the FreeBSD system.

Why such series?

Because telling someone who wants FreeBSD desktop to buy Mac instead is like telling someone who wants Linux desktop to buy Windows because it has WSL (Windows Subsystem for Linux) inside.

This is one hell of a detailed and long series of articles – 21 of them. I’m not very well-versed in the world of BSD, and this series is making me want to give the world thing a go – just to learn and expand my horizons.

European Parliament votes for right to repair

In a landmark move, the European Parliament voted today to support consumers’ Right to Repair. The resolution was adopted with 395 in favour and just 94 against, with 207 abstentions.

[…]

The vote calls for the EU Commission to “develop and introduce mandatory labelling, to provide clear, immediately visible and easy-to-understand information to consumers on the estimated lifetime and reparability of a product at the time of purchase.”

Good.

Before the BSD kernel starts

In this article, I will walk through the early kernel initialization process, defining the meaning of this term. System initialization is a broad topic that ranges from the platform’s hardware design all the way up to typical functions of an operating system such as handling I/O operations. It is not possible to cover the entire topic adequately within the scope of an article. In this first part I will describe the well-known AMD64: 64-bit platform. I am going to highlight a very interesting part of the initialization process the early initialization of the kernel. Later, I will compare it with ARM64. In both cases I will discuss the topic in the context of NetBSD, the operating system known for its portability.

Some light reading.

Booting from a vinyl record

Most PCs tend to boot from a primary media storage, be it a hard disk drive, or a solid-state drive, perhaps from a network, or – if all else fails – the USB stick or the boot DVD comes to the rescue… Fun, eh? Boring! Why don’t we try to boot from a record player for a change?

I hope he’s using gold-plated triple-insulated Monster cables with diamond tips and uranium signal repeaters, because otherwise the superior quality of the vinyl will get lost. Would be a shame.

Review: System76’s Bonobo WS

Earlier this year, we reviewed System76’s Lemur Pro, a laptop designed for portability and long battery life. This time around, we’re going entirely the opposite direction with the System76 Bonobo WS – a mobile workstation that looks like a laptop (if you squint), but packs some of the fastest desktop-grade hardware available on the market.

Specifications

System76 sent us the latest version of the Bonobo WS, with some truly bonkers specifications for what is, technically, a laptop (sort of), at a total price of $4315.22. This mobile workstation comes with an Intel Core i9-10900K, which has 10 cores and 20 threads and runs at 5.3 Ghz – and this is not a constrained mobile chip, but the full desktop processor. It’s paired with an 8GB RTX 2080 Super graphics card – which, again, is the desktop part, not the mobile version. It has 32 GB of RAM configured in dual-channel at 3200 Mhz.

Full disclosure: System76 sent us the laptop as a loan, and it will be returned to them after publication of this review. They did not read this review before publication, and placed zero restrictions on anything I could write about.

To top it off, I configured it with a 250 GB NVMe drive for the operating system, and an additional 1 TB NVME drive for storage and other stuff. Both of these drives have a theoretical sequential read and write speeds of 3500 MB/s and 2300 MB/s respectively.

The Bonobo WS comes with a 17.3″ display, and I opted for the 1080p 144Hz version, since the 4K option was not yet available at the time of setting up the review unit. The 4K option, which I would normally recommend on a display of this size, might not make a lot of sense here since most people interested in a niche mobile workstation like this will most likely be using external displays anyway, making the splurge for the 4K option a bit moot, especially since it’s a mere 60 Hz panel.

There’s a few other specifications we need to mention – specifically the weight and battery life of a massive computer like this one. The base weight is roughly 3.8 kg, and its dimensions are 43.43 × 399.03 × 319.02 mm (height × width × depth). While this machine can technically be classified as a laptop, the mobile workstation moniker is a far more apt description. This is not a machine for carrying from classroom to classroom – this is a machine that most users will use in just two, possible three places, and don’t move very often.

Another reason for that is battery life. A machine with this much power requires a lot of juice, and the 97 Wh battery isn’t going to give you a lot of unplugged time to work. You’ll spend all of your time plugged into not one, but two power sockets, as this machine requires two huge power bricks. It even comes with an adorable rubber thing that ties the two power bricks together in a way that maintains some space between them for cooling and safety purposes. So not only do you have to lug around the massive machine itself, but also the two giant power bricks.

As this is a mobile workstation, the ports situation is excellent. It has a USB 3.2 Gen 2×2 (ugh)/Thunderbolt 3 port (type C), 3 USB 3.2 Gen 2 (type A) ports, and a MicroSD card slot. For your external display needs, we’ve got a full-size HDMI port, 2 mini DisplayPorts (1.4) and a DisplayPort (1.4) over USB type C. Furthermore, there’s an Ethernet port, the usual audio jacks (microphone and headphones, and one also has an optical connection), and the obligatory Kensington lock. Of course, there’s wireless networking support through an Intel dual-band WiFi 6 chip, as well as Bluetooth support.

Hardware

The hardware of this machine is entirely dictated by its internals, since cramming this much desktop power in a computer that weighs less than 4 kg doesn’t leave you with much room to mess around. The entire design is dictated by the required cooling, and there are vents all over the place. This is not a pretty or attractive machine – but it doesn’t need to be. People who need this much mobile power to lug around don’t care about what it looks like, how thin it is, or how aluminium the aluminium is – they need this power to be properly cooled, and if that means more thickness or more vents, then please don’t skimp.

If you care about form over function – which is an entirely legitimate criterion, by the way, and don’t let anybody tell you otherwise – there are other devices to choose from.

While the laptop does have some RGB flourishes here and there, they’re not overly present or distracting, and the ability to switch between several colours for the keyboard lighting is very nice to have, since I find the generic white light most laptops use to not always be ideal. You can cycle through the various lighting options with a key combination.

The keyboard has a little bit more key travel than I’m used to from most laptops, probably owed to its chunky size leaving more room for the keys to travel. The keys have a bit of wobble, but not enough to cause me to miss keystrokes. I am not a fan of the font used on the keyboard, but that’s a mere matter of taste.

The trackpad is decent, feels fine enough, and works great with Linux (obviously). In what I first thought was a blast from the past, the laptop has physical buttons for right and left click underneath the trackpad. However, after a little bit of use, I realised just how nice it was to have actual, physical buttons, and not a diving board or – god forbid – a trackpad that only supports tapping. Of course, it’s not nearly as good as Apple’s force touch trackpad that simulates an eerily realistic click wherever you press, but it does the job just fine.

That being said, though, much like with the display, I doubt many people who need a machine like this will really care. They’ll most likely not only have an external monitor – or two, or three – but also an external keyboard and mouse, to use the laptop docked pretty much all the time.

That’s not to say the display is bad – quite the opposite. If you are okay with a 1080p resolution on a 17.3″ monitor – which many people are – you’ll get a bright and pleasant display, and the 144 Hz refresh rate with G-SYNC is what every laptop of around €1000 and up should offer (at the very least). I do notice some light bleed at the edges when the device boots up (so when the display is entirely dark), but during general use I didn’t notice it at all.

On top of all this, the Bonobo WS is expandable. You have access to four RAM slots for a maximum total of 128 GB of RAM, and four M.2 slots of size 2280 each for a maximum of… A lot of storage. You can also replace the battery, the wireless/Bluetooth card, and, of course, the CMOS battery. And yes, even the processor and GPU can be replaced.

The processor uses an LGA 1200 socket, which is the latest Intel socket, so if you buy a machine with a lower-spec processor, there’s room for an upgrade later. The GPU uses the MXM III slot, which is quite a bit more exotic, and probably less likely to be upgradeable in the future. Still, if, for some reason, your GPU fails outside of warranty, there’s at least the possibility of finding an MXM III replacement, either new or used.

Overall, the Bonobo WS is exactly what you’d expect from a mobile workstation with desktop parts: it’s heavy, barely portable, not the prettiest to look at, but none of that really matters if you need a machine like this – because you’re getting the performance and upgradeability you need.

Performance

Before we get into some harder data, I want to begin with some generic remarks on performance and related matters. It will not surprise you that a machine with a 10 core, 20 thread processor and RTX 2080 Super performs like an absolute monster. A machine like this doesn’t ever slow down, stutter or lag. Whatever game, application, or task you throw at it is pretty much going to work out.

I’ve been hooked on Crusader Kings 3 ever since it came out, which is a 4X strategy game that doesn’t tax a GPU much, but does ask a lot from the processor, especially during large-scale wars or when zoomed out to show the entire map. On my own main gaming PC – with a 7700K and a GTX 1070, running the game at 1440p/144Hz – the game lags and stutters when it has to calculate a lot of AI movements and decisions, but on the Bonobo WS running at at either 1080p/144Hz (internal display) or 4K/60Hz (on an external display), the game never lags or stutters.

As for real benchmarks, I used the Phoronix Test Suite to run three test suites – Timed File Compression, Timed Code Compilation, and the Unigene Test Suite. Individual benchmarks within these suites are run three times each to come to an average score. Since you can easily upload Phoronix Test Suite results to OpenBenchmarking.org, you can actually open up the detailed results of these runs – compression, compilation, and Unigene – and perform the exact same benchmarks on your own machine to contrast and compare.

I’m not going to bore you with detailed descriptions and treatises of every single result – especially since you can run them yourself, too – but I do want to highlight a few red threads and patterns that run through these results when compared to other hardware.

When it comes to benchmarks focusing on the performance of the processor – the compression test in particular – a clear pattern emerges: obviously the 10900K performs extremely well, usually in the top of processors tested with the Phoronix Test Suite. However, when you dig a little bit deeper, you’ll see that in every one of the tests, it lags a little behind test results for other 10900K processors, presumably the desktop variant.

Moving on to the code compilation tests, we see the exact same pattern emerge. For instance, compiling the Linux kernel took the Bonobo WS 81 seconds, whereas the average for the 10900K is 63 seconds. Or look at the time it takes to compile FFmpeg – 57 seconds on the Bonobo WS, but the average for the 10900K is 45 seconds. This patterns repeats.

This implies that despite the Bonobo WS coming with a desktop part, it is still mildly thermally constrained. On top of that, this being the Linux and open source world, there can be vast differences between the software setups of machines with a 10900K, such as CPU governors, and tons of other possible optimisations, distribution differences, and so on. I could most likely squeeze better processor performance out of this machine by manually optimising my software environment, but I specifically decided to stick to the stock settings provided by System76, since that makes the most sense for a review.

The graphics performance is a different story, however – there’s no negative deviation from the mean here. The RTX 2080 Super inside the Bonobo WS performs exactly within line of the different RTX 2080 Super models from the various OEMs. This seems to indicate that at least as far the graphics card goes, you’re not giving up any performance compared to the same card in a desktop. Of course, you do most likely give up overclocking headroom, but if that’s your concern, you’re not going to look at a mobile workstation anyway.

Overall, though, it shouldn’t come as a big surprise that performance on this machine is outstanding. The cooling system’s fans do, of course, ramp up when using all that power, but that’s the price to pay for relatively portable power. The fans were never so loud as to be excessive considering the hardware, but for longer stretches of gaming or performance-heavy work, I do suggest some decent speakers or headphones to drown out the noise. Again, fan noise is just a part of the trade-off with machines like this.

Software and firmware

All the same benefits of the firmware on the Lemur Pro apply to the Bonobo WS as well; it runs the same combination of coreboot and System76’s own firmware tools as its BIOS/UEFI environment, as well as System76’s controller firmware for various other functions. This code is all entirely open source and available on Github, so you can make your own modifications if you so desire.

This is a rarity among laptops and computers in general, and a major selling points for System76’s machines. Even if you’re not interested in hacking or do not have the skills to hack this code, the mere idea that someone else might come up with improved firmware, or the fact you’re supporting one of the few open source Linux PC vendors has value. It’s not like there’s a lot of choice out there in this regard.

As with the Lemur Pro, I don’t want to spend too much time on System76’s Pop!_OS, since most of us here have our own favourite distributions. That being said, Pop!_OS follows Ubuntu’s update schedule very closely, and System76 has added a number of useful features, like firmware upgrades from within the Gnome settings application, advanced window tiling functionality, and improved support for NVIDIA graphics cards (such as switching between the integrated Intel GPU and the dedicated NVIDIA GPU).

Monstrous

Everything about this mobile workstation – the size, the thickness, the vents, the fans, the processor, the GPU, the two massive power bricks – is simply monstrous. It’s rare that I get to use hardware like this, and that alone made this whole process a lot of fun.

The Bonobo WS is a niche product, and even here on OSNews there are probably very few people who truly need a machine like this. That being said, I think its performance and upgradeability warrant its high price tag, since you’ll be able to enjoy top-notch performance for years to come, and even if it does start to lag behind in the future, upgrades are plenty and easy to perform, especially compared to many other modern fancy laptops.

If you have to perform a lot of processor and GPU intensive workloads, sometimes work at the office, sometimes at home, and perhaps sometimes on-site, the Bonobo WS will be an excellent work tool for years and years to come.

Sega VR revived: emulating an unreleased Genesis/Mega Drive accessory

Until now, most of what we know about Sega VR comes from trade show appearances, marketing materials, patent documents, and firsthand accounts. This has meant that many of unit’s the technical details have remained speculative or completely unknown. When looking back and studying hardware that pushed so many of the technical boundaries of its time, however, those details are important! Whether Sega VR achieved its many ambitious goals or not, it remains a fascinating and notable entry in VR history.

In order to study hardware of this nature, if you don’t have access to the hardware or its implementation details, access to the software is often the next best thing. The software will tell you exactly what it expects of the hardware, and given those expectations, you might find that you have enough information to emulate the hardware. At the very least, you’ll have enough information to emulate a version of the hardware that conforms to the software’s expectations, and that’s exactly where we’re headed!

Rebuilding the announced, but never shipped Sega VR from the early ’90s. What an effort.

Windows Subsystem for Linux: the lost potential

If you have followed Windows 10 at all during the last few years, you know that the Windows Subsystem for Linux, or WSL for short, is the hot topic among developers. You can finally run your Linux tooling on Windows as a first class citizen, which means you no longer have to learn PowerShell or, god forbid, suffer through the ancient CMD.EXE console.

Unfortunately, not everything is as rosy as it sounds. I now have to do development on Windows for Windows as part of my new role within Azure… and the fact that WSL continues to be separate from the native Windows environment shows. Even though I was quite hopeful, I cannot use WSL as my daily driver because I need to interact with “native” Windows tooling.

I believe things needn’t be this way, but with the recent push for WSL 2, I think that the potential of an alternate world is now gone. But what do I mean with this? For that, we must first understand the differences between WSL 1 and WSL 2 and how the push for WSL 2 may shut some interesting paths.

I was only vaguely aware of the fact WSL 2 switched to using a virtual machine instead of being an NT subsystem as WSL 1 was. There’s arguments to be made for and against either approach, but the NT subsystem approach just feels nice, more holistic to me – even if it is way more work to keep it in step with Linux.

Developing Wayland color management and HDR

Wayland (the protocol and architecture) is still lacking proper consideration for color management. Wayland also lacks support for high dynamic range (HDR) imagery which has been around in movie and broadcasting industry for a while now (e.g. Netflix HDR UI).

While there are well established tools and workflows for how to do color management on X11, even X11 has not gained support for HDR. There were plans for it (Alex GoinsDeepColor Visuals), but as far as I know nothing really materialized from them. Right now, the only way to watch HDR content on a HDR monitor in Linux is to use the DRM KMS API directly, in other words, not use any window system, which means not using any desktop environment. Kodi is one of the very few applications that can do this at all.

This is a story about starting the efforts to fix the situation on Wayland.

This is a great article to read – and an important topic, too. Colour management and HDR should be a core aspect of Wayland, and these people are making it happen.

Microsoft unveils Pluton security processor

Today, Microsoft alongside our biggest silicon partners are announcing a new vision for Windows security to help ensure our customers are protected today and in the future. In collaboration with leading silicon partners AMD, Intel, and Qualcomm Technologies, Inc., we are announcing the Microsoft Pluton security processor. This chip-to-cloud security technology, pioneered in Xbox and Azure Sphere, will bring even more security advancements to future Windows PCs and signals the beginning of a journey with ecosystem and OEM partners.

Pluton immediately rings a ton of alarm bells, since initiatives like this tend to not be a good thing for alternative platforms. There’s good news, though, too – Pluton will take care of firmware updates for your motherboard, which I welcome with open arms, since the current state of firmware updates where you have to use garbage OEM applications is dreadful.