Hardware Archive

MNT unveils MNT Reform Next

Earlier this year, I reviewed the excellent and unique MNT Reform laptop, an (almost) fully open source, very hackable laptop. MNT has just unveiled the upcoming follow-up to the Reform, called the Reform Next. Being highly performant, modular, and upgradeable, MNT Reform Next gives you more freedom than any other laptop. Swap modules, print your own case, customize your keyboard. Since we are committed to open hardware, all sources are public. While Classic MNT Reform is a portable device, we felt like a sleeker, more lightweight design would increase portability and make for a more flexible laptop. ↫ MNT website The focus seems to have been on both performance and size, and I think the latter is especially important for a lot of people who might not have been too enamored with the original Reform’s chunky, brutalist design. The device has been made thinner by splitting the motherboard up into several connected, separate boards, that also happen to improve the repairability and upgradeability of the device. The battery pack has been redesigned for a smaller physical size, too, and the trackball option is no longer available – it’s trackpad-only. The Reform Next is compatible with MNT’s latest processor module, the RK3588, and as such, packs a bigger punch. This SoC has four ARM Cortex-A76 cores up to 2.4 Ghz, and four power-efficient ARM Cortex-A55 cores up to 1.5 Ghz. This SoC is also available as an upgrade for the MNT Reform and the MNT Pocket Reform, and ships with either 16 or 32 GB of RAM and an ARM Mali G610 MP4 GPU. Of course, the Reform Next will be as open as humanly possible, both software as well as hardware-wise, and it’s looking like a worthy successor to the MNT Reform. I’m incredibly delighted that MNT seems to have found a niche that works for them, and enabling them to keep developing and releasing hardware that goes against every trend in the industry, giving us entirely unique devices nobody else is making.

RISC Laptops of the 90s and early 2000s

Paul Weissmann’s OpenPA, the invaluable archive on anything related to the HP’s PA-RISC architecture, devices, and operating systems, has branched off for a bit and started collecting information on RISC laptops. Technical computing in the 1990s was mostly done on RISC workstations with Unix operating systems and specialized applications. For mobile use cases, some of the popular RISC vendors built RISC Laptops for mobile Unix use in the 1990s. Often based on contemporary Unix workstations, these RISC laptops were often marketed for government and military uses such as command, technical analysis and surveillance. ↫ Paul Weissmann at OpenPA OpenPA has always had content beyond just PA-RISC (like HP’s Itanium machines), so this is not entirely surprising, and it also happens to be something that’s sorely needed – there’s remarkably little consolidated information to be found on these RISC laptops, and it’s usually scattered all over the place and difficult to find. They were expensive and rare when they were new, and they’re even rarer and often more expensive today. What we’re talking about here are laptops with PA-RISC, SPARC, (non-Apple) PowerPC, and Alpha processors, running some variant of UNIX, like HP-UX, SunOS/Solaris, AIX, and even Windows NT. A particularly interesting listing at the moment is the Hitachi 3050RX/100C, a laptop based on the Hitachi PA/50L PA-RISC processor that ran something called HI-UX/WE2, a UNIX from Hitachi I can’t find much information about. The most desirable laptop listed is the amazing Tadpole Viper, which was the most powerful SPARC laptop Tadpole ever made, and I’m pretty sure it’s the most powerful SPARC laptop, period. It was powered by a 1.2Ghz UltraSPARC IIIi processor, and was also sold as the Sun Ultra 3, in 2005. I would perform some seriously questionable acts to get my hands on one of these, but they’re most likely virtually impossible to find. Anyone who can help Weissmann find more information – feel free to do so.

Samsung will provide seven years of free Tizen OS upgrades for its AI TVs

If you are looking to upgrade your TV and want a long-lasting option, you may consider getting a Samsung AI TV powered by Tizen OS. The reason is that Samsung announced plans to offer seven years of Tizen OS upgrades for some of its Smart TVs. ↫ Sagar Naresh Bhavsar at Neowin Since buying a dumb TV is no longer possible, you might as well get the one with the longest possible support lifecycle. This new policy covers Samsung TVs from 2024 onward, as well as a few modls from 2023. There’s no word on if the ads that I’m assuming are part of Samsung’s smart TVs will also receive seven years of updates. Or, you know, get a good Android TV box and never plug your actual TV into your network to begin with.

Olivetti Programma 101: at the origins of the personal computer

Due to its limited RAM of 1,920 bits, the Programma 101 was mostly a machine conceived to make arithmetic calculations – sums, subtractions, divisions, multiplications, square roots -, yet, like modern computers, it could also perform logical operations, conditional and unconditional jumps, and print the data stored in a register, all through a custom-made alphanumeric programming language. This was, in the early ’60s, what set computers apart from calculators, indeed. Overall, in today’s terms, Programma 101 can be considered a sort of “transitional fossil” between desktop calculators and personal computers. ↫ Riccardo Bianchini Olivetti sure is a name that carries an exceptional amount of weight in the retrocomputing world, as classic Olivetti computers, even standard Olivetti PCs, tend to be highly desirable. A Programma 101 in amazing condition is currently for sale on eBay for a massive €20000, and while there’s quite a few relatively cheap ’80s and ’90s Olivetti PCs for sale, a sizable number of them are far more desirable and carry massive premiums for their unique design. It’s sad how many once great and influential computer makers have been relegated to the dustbin of history, outcompeted, acquired, or run into the ground. Some of these once great brands live on as mere badges on electronic junk, and Olivetti, too, was not spared this fate. In fact, what is generally considered the worst PDA ever made, the Olivetti daVinci, was a generic product that just had an Olivetti logo slapped onto it. I have one in-box, and intend to one day write about it, because its awfulness needs to be shared with the world.

Logitech has an idea for a “forever mouse” that requires a subscription

Logitech CEO Hanneke Faber talked about someting called the “forever mouse”, which would be, as the name implies, a mouse that customers could use for a very long time. While you may think this would mean an incredibly well-built mouse, or one that can be easily repaired, which Logitech already makes somewhat possible through a partnership with iFixIt, another option the company is thinking about is a subscription model. Yes. Faber said subscription software updates would mean that people wouldn’t need to worry about their mouse. The business model is similar to what Logitech already does with video conferencing services (Logitech’s B2B business includes Logitech Select, a subscription service offering things like apps, 24/7 support, and advanced RMA). Having to pay a regular fee for full use of a peripheral could deter customers, though. HP is trying a similar idea with rentable printers that require a monthly fee. The printers differ from the idea of the forever mouse in that the HP hardware belongs to HP, not the user. However, concerns around tracking and the addition of ongoing expenses are similar. ↫ Scharon Harding at Ars Technica Now, buying a mouse whose terrible software requires subscription models would still be a choice you can avoid, but my main immediately conjured up a far darker scenario. PC makers have a long history of adding crapware to their machines in return for payments from the producers of said crapware. I can totally see what’s going to happen next. You buy a brand new laptop, unbox it at home, and turn it on. Before you know it, a dialog pops up right after he crappy Windows out-of-box experience asking you to subscribe to your laptop’s touchpad software in order to unlock its more advanced features like gestures. But why stop there? The keyboard of that new laptop has RGB backlighting, but if you want to change its settings, you’re going to have to pay for another subscription. Your laptop’s display has additional features and modes for specific types of content and more settings sliders, but you’ll have to pay up to unlock them. And so on. I’m not saying this will happen, but I’m also not saying it won’t. I’m sorry for birthing this idea into the world.

Two threads, one core: how simultaneous multithreading works under the hood

Simultaneous multithreading (SMT) is a feature that lets a processor handle instructions from two different threads at the same time. But have you ever wondered how this actually works? How does the processor keep track of two threads and manage its resources between them? In this article, we’re going to break it all down. Understanding the nuts and bolts of SMT will help you decide if it’s a good fit for your production servers. Sometimes, SMT can turbocharge your system’s performance, but in other cases, it might actually slow things down. Knowing the details will help you make the best choice. ↫ Abhinav Upadhyay Some light reading for the (almost) weekend.

Pretty pictures, bootable floppy disks, and the first Canon Cat demo?

About a month ago, Cameron Kaiser first introduced us to the Canon Cat, a computer designed by Jeff Raskin, but abandoned within six months by Canon, who had no idea what to do with it. In his second article on the Cat, Kaiser dives much deeper into the software and operating system of the Cat, even going so far as to become the first person to write software for it. One of the most surprising aspects of the Cat is that it’s collaborative; other users can call into your Cat using a landline and edit the same document you’re working on remotely. Selecting text has other functions too. When I say everything goes in the workspace, I do mean everything. The Cat is designed to be collabourative: you can hook up your Cat to a phone line, or at least you could when landlines were more ubiquitous, and someone could call in and literally type into your document remotely. If you dialed up a service, you would type into the document and mark and send text to the remote system, and the remote system’s response would also become part of your document. (That goes for the RS-232 port as well, by the way. In fact, we’ll deliberately exploit this capability for the projects in this article.) ↫ Cameron Kaiser You can also do calculations right into the text, going so far as allowing the user to define variables and reuse those variables throughout the text to perform various equations and other mathematic operations. If you go back and change the value of a variable, all other equations using those variables are updated as well. That’s quite nifty, especially considering the age of the Cat, and since the Cat is fixed width, you can effectively create spreadsheets this way, too. There’s really far too much to cover here, and I strongly suggest you head on over and read the entire thing.

Qualcomm’s Oryon core: a long time in the making

In 2019, a startup called Nuvia came out of stealth mode. Nuvia was notable because its leadership included several notable chip architects, including one who used to work for Apple. Apple chips like the M1 drew recognition for landing in the same performance neighborhood as AMD and Intel’s offerings while offering better power efficiency. Nuvia had similar goals, aiming to create a power efficient core that could could surpass designs from AMD, Apple, Arm, and Intel. Qualcomm acquired Nuvia in 2021, bringing its staff into Qualcomm’s internal CPU efforts. Bringing on Nuvia staff rejuvenated Qualcomm’s internal CPU efforts, which led to the Oryon core in Snapdragon X Elite. Oryon arrives nearly five years after Nuvia hit the news, and almost eight years after Qualcomm last released a smartphone SoC with internally designed cores. For people following Nuvia’s developments, it has been a long wait. ↫ Chips and Cheese Now that the Snapdragon X Elite and Pro chips are finally making their way to consumers, we’re also finally starting to see proper deep-dives into the brand new hardware. Considering this will set the standard for ARM laptops for a long time to come – including easy availability of powerful ARM Linux laptops – I really want to know every single quirk or performance statistic we can find.

How dot matrix printers created text

The impact printer was a mainstay of the early desktop computing era. Also called “dot matrix printers,” these printers could print low-resolution yet very readable text on a page, and do so quickly and at a low price point. But these printers are a relic of the past; in 2024, you might find them printing invoices or shipping labels, although more frequently these use cases have been replaced by other types of printers such as thermal printers and laser printers. The heart of the impact printer is the print head. The print head contained a column of pins (9 pins was common) that moved across the page. Software in the printer controlled when to strike these pins through an inked ribbon to place a series of “dots” on a page. By carefully timing the pin strikes with the movement of the print head, the printer could control where each dot was placed. A column of dots might represent the vertical stroke of the letter H, a series of single dots created the horizontal bar, and another column would create the final vertical stroke. ↫ Jim Hall at Technically We Write Our first printer was a dot matrix model, from I think a brand called Star or something similar. Back then, in 1991 or so, a lot of employers in The Netherlands offered programs wherein employees could buy computers through their work, offered at a certain discount. My parents jumped on the opportunity when my mom’s employer offered such a program, and through it, we bought a brand new 286 machine running MS-DOS and Windows 3.0, and it included said dot matrix printer. There’s something about the sound and workings of a dot matrix printer that just can’t be bested by modern ink, laser, or LED printers. The mechanical punching, at such a fast rate it sounded like a tiny Gatling gun, was mesmerising, especially when paired with continuous form paper. Carefully ripping off the perforated edges of the paper after printing was just a nice bonus that entertained me quite a bit as a child. I was surprised to learn that dot matrix printers are still being manufactured and sold today, and even comes in colour. They’re quite a bit more expensive than other printer types these days, but I have a feeling they’re aimed at enterprises and certain niches, which probably means they’re going to be of considerably higher quality than all the other junk printers that clog the market. With a bit more research, it might actually be possible to find a brand new colour dot matrix printer that is a better choice than some of the modern alternatives. The fact that I’m not contemplating buying a brand new dot matrix printer in 2024, even though I rarely print, is a mildly worrying development.

DeepComputing announces third-party RISC-V mainboard for the Framework 13 laptop

Framework, the company making modular, upgradeable, and repairable laptops, and DeepComputing, the same company that’s making the DC ROMA II RISC-V laptop we talked about last week, have announced something incredibly cool: a brand new RISC-V mainboard that fits right into existing Framework 13 laptops. Sporting a RISC-V StarFive JH7110 SoC, this groundbreaking Mainboard was independently designed and developed by DeepComputing. It’s the main component of the very first RISC-V laptop to run Canonical’s Ubuntu Desktop and Server, and the Fedora Desktop OS and represents the first independently developed Mainboard for a Framework Laptop. ↫ The DeepComputing website For a company that was predicted to fail by a popular Apple spokesperson, it seems Framework is doing remarkably well. This new mainboard is the first one not made by Framework itself, and is the clearest validation yet of the concept put into the market by the Framework team. I can’t recall the last time you could buy a laptop powered by one architecture, and then upgrade to an entirely different architecture down the line, just by replacing the mainboard. The news of this RISC-V mainboard has made me dream of other possibilities – like someone crazy enough to design, I don’t know, a POWER10 or POWER11 mainboard? Entirely impossible and unlikely due to heat constraints, but one may dream, right?

The Qualcomm Snapdragon X architecture deep dive: getting to know Oryon and Adreno X1

In the last 8 months Qualcomm has made a lot of interesting claims for their high-performance Windows-on-Arm SoC – many of which will be put to the test in the coming weeks. But beyond all the performance claims and bluster amidst what is shaping up to be a highly competitive environment for PC CPUs, there’s an even more fundamental question about the Snapdragon X that we’ve been dying to get to: how does it work? Ahead of next week’s launch, then, we’re finally getting the answer to that, as today Qualcomm is releasing their long-awaited architectural disclosure on the Snapdragon X SoC. This includes not only their new, custom Arm v8 “Oryon” CPU core, but also technical disclosures on their Adreno GPU, and the Hexagon NPU that backs their heavily-promoted AI capabilities. The company has made it clear in the past that the Snapdragon X is a serious, top-priority effort for the company – that they’re not just slapping together a Windows SoC from their existing IP blocks and calling it a day – so there’s a great deal of novel technology within the SoC. ↫ Ryan Smith at AnandTech I cannot wait until AnandTech can move beyond diving into information provided by Qualcomm, and can start doing their own incredibly in-depth benchmarks and research. Assuming the effort succeeds, the Snapdragon X line will most likely form the backbone of ARM PCs for years – if not decades – to come, meaning that when you and I go shopping for a new laptop, this chip will be the one heavily promoted by stores and outlets. How closely independent benchmarks line up with Qualcomm’s eight months of promises and cherry-picked benchmarks will also tell us a lot about how trustworthy the company will be about the performance of its chips going forward. In smartphones – where we mostly see Qualcomm today – performance simply doesn’t matter as much, but when you’re dealing with laptops, and in the future possibly even desktops, performance suddenly matters a lot more, and Qualcomm’s claims will be facing a level of scrutiny and detail I don’t think they’ve ever really had to deal with before. PC enthusiasts don’t mess around. If the Linux support turns out to be as solid as Qualcomm claims, and if the performance figures they’ve been putting out are verified by quality independent reviewers like the people at AnandTech, I honestly don’t think my next laptop will be using x86. I just hope weird companies like Chuwi will release a version of their MiniBook X with one a Qualcomm chip, because I’ll be damned if I go back to anything larger than 10″.

Tuxedo showcases prototype Linux laptop with Snapdragon X Elite

I’ve long been waiting for a powerful ARM laptop that can run Linux comfortably, and it seems that with Qualcomm’s new Snapdragon X Elite SoC, that’s finally going to happen. We talked earlier about how for once, Qualcomm is taking Linux support for their new laptop-focused processors very seriously, and that promise and associated effort is paying dividend. Tuxedo, a popular Linux OEM from Germany, has announced it’s working on a laptop with the Snapdragon X Elite chip, and they showed off a working prototype at Computex in Taiwan. We have been working with a first prototype for some time, which will soon be replaced by a second one. The development is still in the alpha stage, as some drivers are still missing, which will hopefully be available with the next two kernel versions. It is quite conceivable that an ARM notebook from TUXEDO will be under your Christmas tree in 2024. However, there are still too many pieces of the hardware, software and delivery capability puzzle missing to even begin to set a release date. TUXEDO for ARM will come, but we don’t yet know exactly when. ↫ Tuxedo’s website Their timeline of more Qualcomm drivers making it into the next two kernel versions lines up with Qualcomm’s own timeline, so it seems we’re mostly just waiting for them to finish their Linux drivers and add them to the kernel. This is quite exciting, and a much better option for Linux users than buying a Windows version of an X Elite or Pro laptop and hoping for the best.

They’re putting “AI” in your BIOS

You know what could really use a dose of “AI”? Your BIOS. aiBIOS leverages an LLM to integrate AI capabilities into Insyde Software’s flagship firmware solution, InsydeH2O® UEFI BIOS. It provides the ability to interpret the PC user’s request, analyze their specific hardware, and parse through the LLM’s extensive knowledge base of BIOS and computer terminology to make the appropriate changes to the BIOS Setup. This breakthrough technology helps address a major hurdle for PC users that require or desire changes to their BIOS Setup for their personal computers but do not fully understand the meaning of the settings available to them. ↫ Insyde press release Google told users to put glue on pizzas and eat rocks, so I’m sure the combined efforts of a BIOS maker will surely not pose any problems when automatically changing BIOS settings based on the requests of users who do not really understand what they’re doing. This surely is a recipe for success, and I can’t wait to tell my BIOS to enable XMP, only for it to disable hyperthreading, change the boot order to only allow booting from the non-existent floppy drive, and to force the use of the integrated GPU when I’m actually using a dedicated one. This is going to be just fine.

Turbo9: a pipelined 6809 microprocessor IP

The Turbo9 is a pipelined microprocessor IP written in Verilog that executes a superset of the Motorola 6809 instruction set. It is a new modern microarchitecture with 16-bit internal datapaths that balances high performance vs small area / low power. The Turbo9R with a 16-bit memory interface achieves 0.69 DMIPS/MHz which is 3.8 times faster than Motorola’s original 8-bit MC6809 implementation. It is an active graduate research project at the Department of Electrical & Computer Engineering at the University of Florida. ↫ Turbo9 GitHub page The Turbo9 is aimed at SoC sub-blocks and small mixed-signal ASIC, so it’s definitely not intended to be some sort of general purpose CPU. The reason for opting for the 6809 instead of, say, RISC-V or ARM, is that the 6809 enables a far smaller footprint due to being 16bit, which is all the target market really needs from the Turbo9. The current version of the Turbo9 is thoroughly verified and is capable of running C code. However, we still consider this version v0.9 because we are missing a few items. All the 6809 instructions and addressing modes have been implemented and tested except SYNC and CWAI. The signed versions of the Turbo9’s 16-bit divide and multiply need to be completed. Interrupts are partially implemented including SWI and Reset. ↫ Turbo9 GitHub page This is the kind of riveting content you’ll only really find on OSNews.

Jef Raskin’s Canon Cat

Few things in technology excites me more than an amazing computer I have never heard of before – especially one with pedigree. Many people take a casual glance at this machine and say, “Isn’t that an overgrown word processor?” And one could certainly think so, in part because of its keyboard-centric operation, but mostly from the utterly uncomprehending way Canon advertised it in 1987. Canon dubbed the Cat a “work processor” because of its built-in telecommunications, modem and word processor even though Jef Raskin, its designer, had intended it as a “people’s computer” that could be inexpensive, accessible and fully functional — all things he had hoped to accomplish at Apple after first launching the Macintosh project, prior to departing in 1982. Canon, however, never fully grasped the concept either. Apart from the tone-deaf marketing, Canon sold the device through their typewriter division and required the display to only show what a daisywheel printer could generate, limiting its potential as a general purpose workstation. ↫ Cameron Kaiser Wait, wait, wait. You mean to tell me there’s a unique, well-designed computer that seemed ahead of its time, sold by a printer and copier company, that failed in the market due to botched marketing and grotesque misunderstanding among management of what the device is supposed to be? What are the odds this happens twice? The Canon Cat was designed and built by Jeff Raskin’s – of Macintosh fame – company Information Appliance, Inc., and licensed to Canon. It’s an all-in-one 68000-based computer with a bitmap display, an operating system stored in ROM, and a comprehensive Forth environment easily accessible despite the device autostarting to a word processor (because Canon). Much like some of the predecessor machines Raskin had worked on before licensing the Cat to Canon, the Cat has an intriguing input method that I’d never seen before. Instead of a mouse or even cursor keys, it has two keys labeled “Leap” that are used for manipulating the text cursor. In fact, there aren’t even conventional cursor keys. The Cat has the same “leap” keys as the Swyft and SwyftCard, in a bright but tasteful pink, and they work the same way to jump to portions of the document or into other documents. You can also use them to scroll with the SHIFT key, or move by single letters, sentences or paragraphs. The LEAP keys are also how you highlight text blocks to manipulate by LEAPing to the beginning, LEAPing to the end, and then pressing them together. ↫ Cameron Kaiser The Forth programming environment is also very interesting. It was hidden in that Canon didn’t really want you to use it, but Raskin’s company made no secret of it, and it was easily accessible. It uses a special dialect of Forth, which can be used at either a traditional OK prompt, or just by typing Forth code into the word processor, highlighting it, and executing it with a keyboard shortcut, after which any output will be displayed in the word processor as well. The Canon Cat was a market failure, and hence it shouldn’t be a surprise it’s exceedingly rare. The article further details the internals, some fixes that were required and performed, and much, much more. A follow-up article will delve deeper into the software, too.

MSI shows off motherboard with CAMM2 memory

Earlier this month, we talked about the arrival of the new CAMM2 memory module standard, specifically designed to make replaceable memory modules as fast and capable as soldered memory. There’s technically no reason for CAMM2 to not also be beneficial to desktop use, and it turns out MSI is experimenting with this. MSI on Thursday published the first image of a new desktop motherboard that supports the innovative DDR5 compression attached memory module (CAMM2). DDR5 CAMM2 modules are designed to improve upon the SO-DIMM form factor used for laptops, alleviating some of the high-speed signaling and capacity limitations of SO-DIMMs while also shaving down on the volume of space required. And while we’re eagerly awaiting to see CAMM2 show up in more laptops, its introduction in a PC motherboard comes as a bit of a surprise, since PCs aren’t nearly as space-constrained. ↫ Anton Shilov at AnandTech This MSI motherboard is a bit of an experiment, as it also contains other more experimental choices like back-mounted power connectors. While CAMM2’s space savings won’t mean much for most desktop builds, it does leave more room for CPU coolers, and it looks a bit cleaner, too.

Raspberry Pi officially announces intent to IPO

As expected earlier this year, Raspberry Pi is going public on the stock exchange in London. Back then, CEO Eben Upton said he did not expect the IPO to change how Raspberry Pi did things, but history tells us that initial public offerings tend to, well, change how companies do things. In their official announcement that they intend to hold an IPO, there’s an incredibly interesting and telling contradiction, as noted by @yassie_j on MastoAkkoma: Raspberry Pi, in their listing press release, says: The Enthusiast and Education market is the “heart” of the Raspberry Pi movement. But also says: Industrial and Embedded market accounts over 72 per cent So the heart seems to be going neglected, it seems, because there’s no way you’re going to not cash in on industrial applications. Especially when you’ve just done a big IPO. ↫ @yassie_j on Akkoma This exactly illustrates the fears we all have about what an IPO is going to mean for Raspberry Pi. It’s already become increasingly more difficult for enthusiasts to get their hands on the latest Raspberry Pi models, but once the IPO’s done and there’s shareholders breathing down their neck, that will most likely only get worse. If the industrial and embedded market is where you’re making most of your money, where do you think Raspberry Pi devices are going to end up? Luckily the market’s a lot bigger and more varied now than it was back when Raspberry Pi was new, so we have a wide variety of options to choose from. Still, I’m definitely worried about what Raspberry Pi, as a company, will look like five, ten years from now.

Obsolete, but not gone: the people who won’t give up floppy disks

If you remember a time when using floppy disks didn’t seem weird, you’re probably at least 30 years old. Floppy disks or diskettes emerged around 1970 and, for a good three decades or so, they were the main way many people stored and backed up their computer data. All the software and programmes they bought came loaded onto clusters of these disks. They are a technology from a different era of computing, but for various reasons floppy disks have an enduring appeal for some which mean they are from dead. ↫ Chris Baraniuk at the BBC Articles such as these in more mainstream media are always incredibly odd to me. Nobody bats an eye at someone lovingly maintaining a classic car, or restoring an old house, or a group of people petitioning a local government to not demolish a beloved old building or whatever, but as soon as computer technology is involved, so many people find it incredibly weird that classic computer technology, too, can be worth saving. It highlights how society views technology – disposable, replaceable, worthless, to be dumped and forgotten about as soon as something newer comes along. Even after at least two decades of articles like this, they keep being essentially republished with the same words, the same storylines about these weird people who keep using – get this! Look at these idiots! – older technology when faster, newer, shinier stuff is readily available. I’m glad the retrocomputing community seems to be growing by the day, and there’s now definitely a large enough internationally connected group of people and organisations to maintain our old computers and related hardware and software.

Raspberry Pi Connect: remote desktop for your Pi

Today we’re pleased to announce the beta release of Raspberry Pi Connect: a secure and easy-to-use way to access your Raspberry Pi remotely, from anywhere on the planet, using just a web browser. It’s often extremely useful to be able to access your Raspberry Pi’s desktop remotely. There are a number of technologies which can be used to do this, including VNC, and of course the X protocol itself. But they can be hard to configure, particularly when you are attempting to access a machine on a different local network; and of course with the transition to Wayland in Raspberry Pi OS Bookworm, classic X remote desktop support is no longer available. We wanted to be able to provide you with this functionality with our usual “it just works” approach. Enter Raspberry Pi Connect. ↫ Gordon Hollingworth Pi Connect uses WebRTC, and a daemon running on your Pi listens for incoming screensharing requests from the Raspberry Pi website to connect the VNC server on your Pi to the VNC client running in your browser. The service is in beta, it’s free, but the one major downside is that for now, there’s only one TURN server for this service, located in the UK, but they might set up more of them if demand is high enough. If you want to try this service on your own Pi running Raspberry Pi OS, you’re going to need to be using a Raspberry Pi 5, 4, or 400, using the latest version of the operating system running Wayland. Update your operating system, install the rpi-connect package, reboot, and you’re good to go.

Just a bunch of scanners (JBOS?)

This is the story on how I spent far too much money and time getting a scanner to work over iSCSI so that I could prove “Chris O” wrong on StackExchange. The TL;DR is that yes scanners work fine over iSCSI. ↫ xssfox The next step is connecting a bunch of flatbed scanners to a disk array enclosure, but that turns out to be quite an expensive little exercise. Regardless, this is absolutely wild, and I love it when people go to great lengths just to prove that something pointless can actually be done. Bravo.