Illustrated Kristina with an IBM Model M keyboard floating between her hands.

Keebin’ With Kristina: The One With The Ultimate Portable Split

December 23, 2025 by 1 Comment

What do you look for in a travel keyboard? For me, it has to be split, though this condition most immediately demands a carrying solution of some kind. Wirelessness I can take or leave, so it’s nice to have both options available. And of course, bonus points if it looks so good that people interrupt me to ask questions.

A pair of hands poised above a blue split keyboard that packs easily for travel in a 3D-printed case. The case doubles as a laptop stand.
Image by [kleshwong] via YouTube
Depending on your own personal answers to this burning question, the PSKEEB 5 just may be your endgame. And, lucky for you, [kleshwong] plans to open source it soon. All he asks for is your support by watching the video below and doing the usual YouTube-related things.

You’ll see a couple of really neat features, like swing-out tenting feet, a trackpoint, rotary encoders, and the best part of all — a carrying case that doubles as a laptop stand. Sweet!

Eight years in the making, this is the fifth in a series, thus the name: the P stands for Portability; the S for Split. [kleshwong] believes that 36 keys is just right, as long as you have what you need on various layers.

So, do what you can in the like/share/subscribe realm so we can all see the GitHub come to pass, would you? Here’s the spot to watch, and  you can enjoy looking through the previous versions while you wait with your forks and stars.

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The Nokia N900 Updated For 2025

December 23, 2025 by 9 Comments

Can a long-obsolete Linux phone from 2009 be of use in 2025? [Yaky] has a Nokia N900, and is giving it a go.

Back in the 2000s, Nokia owned the mobile phone space. They had a smartphone OS, even if they didn’t understand app distribution, they had the best cameras, screens, antennas, the lot. They threw it all away with inept management that made late-stage Commodore look competent. Apple and Android came along, and now a Nokia is a rarity. Out of this mess came one good thing, though: the N900 was a Linux-based smartphone that became the go-to hacker mobile for a few years.

First up with this N900 is the long-dead battery. He makes a fake battery with a set of supercapacitors and resistors to simulate the temperature sensor, and is then able to power it from an external PSU. This is refined to a better fake battery using the connector from the original. The device also receives a USB-C port, though due to space constraints, not the PD identifiers, making it (almost) modern.

Because it was a popular hacker device, it’s possible to upgrade the software on an N900. He’s given it U-Boot, and now it boots Linux from an SD card and functions as an online radio device.

That’s impressive hackability and longevity for a phone, if only we could have more like it.

Surviving The RAM Apocalypse With Software Optimizations

December 23, 2025 by 61 Comments

To the surprise of almost nobody, the unprecedented build-out of datacenters and the equipping of them with servers for so-called ‘AI’ has led to a massive shortage of certain components. With random access memory (RAM) being so far the most heavily affected and with storage in the form of HDDs and SSDs not far behind, this has led many to ask the question of how we will survive the coming months, years, decades, or however-long the current AI bubble will last.

One thing is already certain, and that is that we will have to make our current computer systems last longer, and forego simply tossing in more sticks of RAM in favor of doing more with less. This is easy to imagine for those of us who remember running a full-blown Windows desktop system on a sub-GHz x86 system with less than a GB of RAM, but might require some adjustment for everyone else.

In short, what can us software developers do differently to make a hundred MB of RAM stretch further, and make a GB of storage space look positively spacious again?

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Libxml2 Narrowly Avoids Becoming Unmaintained

December 23, 2025 by 42 Comments

In an excellent example of one of the most overused XKCD images, the libxml2 library has for a little while lost its only maintainer, with [Nick Wellnhofer] making good on his plan to step down by the end of the year.

XKCD's dependency model
Modern-day infrastructure, as visualized by XKCD. (Credit: Randall Munroe)

While this might not sound like a big deal, the real scope of this problem is rather profound. Not only is libxml2 part of GNOME, it’s also used as dependency by a huge number of projects, including web browsers and just about anything that processes XML or XSLT. Not having a maintainer in the event that a fresh, high-risk CVE pops up would obviously be less than desirable.

As for why [Nick] stepped down, it’s a long story. It starts in the early 2000s when the original author [Daniel Veillard] decided he no longer had time for the project and left [Nick] in charge. It should be said here that both of them worked as volunteers on the project, for no financial compensation. This when large companies began to use projects like libxml2 in their software, and were happy to send bug reports. Beyond a single Google donation it was effectively unpaid work that required a lot of time spent on researching and processing potential security flaws sent in.

Of note is that when such a security report comes in, the expectation is that you as a volunteer software developer drop everything you’re working on and figure out the cause, fix and patched-by-date alongside filing a CVE. This rather than you getting sent a merge request or similar with an accompanying test case. Obviously these kind of cases seems to have played a major role in making [Nick] burn out on maintaining both libxml2 and libxslt.

Fortunately for the project two new developers have stepped up to take over as maintainers, but it should be obvious that such churn is not a good sign. It also highlights the central problem with the conflicting expectations of open source software being both totally free in a monetary fashion and unburdened with critical bugs. This is unfortunately an issue that doesn’t seem to have an easy solution, with e.g. software bounties resulting in mostly a headache.

Using An E-Book Reader As A Secondary Display

December 23, 2025 by 10 Comments

[Alireza Alavi] wanted to use an e-ink tablet as a Linux monitor. Why? We don’t need to ask. You can see the result of connecting an Onyx BOOX Air 2 to an Arch Linux box in the video below.

Like all good projects, this one had a false start. Deskreen sounds good, as it is an easy way to stream your desktop to a browser. The problem is, it isn’t very crisp, and it can be laggy, according to the post. Of course, VNC is a tried-and-true solution. The Onyx uses Android, so there were plenty of VNC clients, and Linux, of course, has many VNC servers.

Putting everything together as a script lets [Alireza] use the ebook as a second monitor. Using it as a main monitor would be difficult, and [Alireza] reports using the two monitors to mirror each other, so you can glance over at the regular screen for a color image, for example.

Another benefit of the mirrored screens is that VNC lets you use the tablet’s screen as an input device, which is handy if you are drawing in GIMP or performing similar tasks.

We sometimes use VNC on Android just to get to a fake Linux install running on the device.

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A photo of the SigCoreUC

SigCore UC: An Open-Source Universal I/O Controller For The Raspberry Pi

December 22, 2025 by 21 Comments

Recently, [Edward Schmitz] wrote in to let us know about his Hackaday.io project: SigCore UC: An Open-Source Universal I/O Controller With Relays, Analog I/O, and Modbus for the Raspberry Pi.

In the video embedded below, [Edward] runs us through some of the features which he explains are a complete industrial control and data collection system. Features include Ethernet, WiFi, and Modbus TCP connectivity, regulated 5 V bus, eight relays, eight digital inputs, four analog inputs, and four analog outputs. All packaged in rugged housing and ready for installation/deployment.

[Edward] says he wanted something which went beyond development boards and expansion modules that provided a complete and ready-to-deploy solution. If you’re interested in the hardware, firmware, or software, everything is available on the project’s GitHub page. Beyond the Hackaday.io article, the GitHub repo, the YouTube explainer video, there is even an entire website devoted to the project: sigcoreuc.com. Our hats off to [Edward], he really put a lot of polish on this project.

If you’re interested in using the Raspberry Pi for input/output you might also like to read about Raspberry Pi Pico Makes For Expeditious Input Device and Smart Power Strip Revived With Raspberry Pi.

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An HO Model Power Bogie For Not A Lot

December 22, 2025 by 8 Comments

For people who build their own model trains there are a range of manufacturers from whom a power bogie containing the motor and drive can be sourced. But as [Le petit train du Berry] shows us in a video, it’s possible to make one yourself and it’s easier than you might think (French language video with truly awful YouTube auto-translation).

At the heart of the design is a coreless motor driving a worm gear at each end that engages with a gear on each axle. The wheelsets and power pickups are off-the-shelf items. The chassis meanwhile is 3D printed, and since this is an ongoing project we see two versions in the video. The V5 model adds a bearing, which its predecessor lacked.

The result is a pretty good power bogie, but it’s not without its faults. The gear ratio used is on the high side in order to save height under a model train body, and in the version without a bearing a hard-wearing filament is required because PLA will wear easily. We’re guessing this isn’t the last we’ll see of this project, so we hope those are addressed in future versions.

We like this project and we think you will too after you’ve watched the video below the break. For more home-made model railway power, how about a linear motor?

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