Yesterday’s Technology, Re-engineered Today

Watching [sprite_tm]’s build of a handheld 486-based gaming computer, we got to thinking about retro computers and the eternal questions of how much of the computer needs to be actually “old” for it it be retro. Where is the soul of a retro computer? The CPU? The old yellowing plastic case? Maybe it depends on what you’re trying to get out of the hobby.

There is of course a spectrum of people playing around with old computers. For some people, let’s call them “vintage computer enthusiasts”, half of the fun is in keeping the actual old hardware running. This group tends to know what teletype lubricant smells like, and how to tell which capacitors need replacing.

For others, “team retro”, the joy is in using the machine itself, whether that be teaching the old dogs new tricks, or simply loading up nostalgic video games. Team retro is more content with emulations or emulations that are wrapped up neatly in hardware workalikes. They know which registers need POKEing, and whether or not Commander Keen is running at the right framerate.

I think [sprite_tm]’s project falls in with yet another camp, the retro-reengineers. Here, the idea is to step through the engineering lessons of the past by re-designing something from a bygone era. So when [sprite_tm] went with a period 486 CPU backed up by a modern FPGA, perhaps ironically borrowing code from the modern MiSTer project, it makes sense for his goals. Retro-reengineers know the bus architecture and the memory timings, and they are reinventing the wheel as a learning experience. Or in the case of [Voja Antonic]’s imaginary four-bit machine, it’s a teaching experience.

How you work often reflects what you’d like to get out of the project, and at Hackaday, of course, we love all of the above! We’ve identified at least three broad schools of fooling around with old computers. Are we missing any?

Hackaday Europe 2026 – Building A Retro PC From Scratch

If you’re big into retrocomputing, you probably spend a lot of time chasing parts and machines on online classifieds or through local swap meets. But what if there was a different way to build a classic retro PC? What if you could put one together from bare chips, from the ground up?

[Jeroen Domburg] is no stranger to the pages of Hackaday. You might know him by his alias, [sprite_tm], under which he’s shared many projects, from miniaturizing old hardware to unearthing the secrets of undocumented commercial hardware. Now, he’s turning his considerable skills to figuring out how to build a retro PC in today’s world, and came to Hackaday Europe 2026 to show us all how it’s done.

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Bringing Swift To The Apple II

Swift is a relatively modern program language, appearing in 2014 as a replacement for Objective-C. Since then, it’s become a popular solution for programming apps across Apple platforms. That led [Yeo Kheng Meng] to a simple yet fun idea—porting Swift to the oldest Apple platform of all.

Yes, [Yeo] managed to build a development environment for Swift that targets the Apple II platform. Not just one machine, either—everything from the original Apple II up to the IIe and a little beyond. Now, the Apple II is very different from modern Macs and iPhones and the like, having debuted in 1977 with a 1 MHz 6502 CPU and a minuscule 4 KB of RAM. But that doesn’t mean you can’t use a modern language to develop for it!

[Yeo] does a great job of explaining how it all works, and how Claude Code and GPT 5.5 Codex were used to help piece things together. The compiler is set up to spit out bytecode that’s executed by a virtual machine running on the 6502. The target was to allow the setup to work on a standard 1977 Apple II from the factory, which would allow it to then run on subsequent models without issue. However, there is a small note— [Yeo]’s implementation requires the RAM to have been upgraded to 48 KB.

We love seeing modern stuff ported to the Apple II. This Portal port was a particular highlight.

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Bernoulli Disk Goes “Wii!” When Plugged Into WiiU

The Bernoulli disk was a wild piece of 1980s hardware. Take a big floppy. Spin the platter at 1500 RPM just a micron or so from a read head. The airflow around that rapidly-spinning disk actually stabilizes the disk that close to the read-head via the Bernoulli effect, hence the name. Once upon a time, everybody wanted a Bernoulli Box to put under their Macintosh 512, but [Will It Work?] wanted to see how well these old drives held up to the 21st century by using it to load games onto a WiiU.

It’s not as crazy at is it seems. The WiiU is happy to read and write anything that looks like a USB mass storage device. The Bernoulli Box is of course pre-USB — even the later model 5 1/4″ drive [Will] is using from 1987. That means it uses SCSI, the USB of the 1980s. He’s got a 90 MB disk, though Iomega did make disks of higher capacity in that format, all the way up to 230 MB. Yes, the same Iomega of Zip-drive fame and infamy. But don’t worry, the peculiar pneumatic nature of the Bernoulli disks makes them immune to the click of death.

You might think it’s going to take a great deal of hacking and homebrew to get the WiiU talking to a SCSI drive from the 80s, but as we said in the introduction, Nintendo made this thing respect USB conventions, so all that’s needed is an SCSI-to-USB cable. Well, plus a passive SCSI 1 to SCSI 2 adapter to get the USB adapter to fit.

It doesn’t seem like the drive slows down the WiiU nearly as much as we’d expect, but then it’s not a console known for fast load times. The other surprising detail is how much space the WiiU’s formatting sucked up, knocking the 90 MB disk down to only 68 MB. Combine that with the WiiU’s firmware wanting to pad space for save files, and not much fits. Thus we don’t expect this odd tower of power to take off like the original did. Still, if you had one of these back in the day, it might be a nice nostalgia hit to hear the drive whirring away.

If you think a disk drive is something Nintendo would never imagine for their consoles, think again! The Japanese version of the NES had the Famicom Disk System, which turns out to be essential if you want to run UNIX on it.

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Three Arduinos Team Up To Make 80s-Style Computer

Back in the 80s, buying a home computer could easily mean an inflation-adjusted cost of thousands of dollars (or your equivalent currency unit of choice), and all for an 8-bit machine that might not have a hard drive and almost certainly didn’t connect to a network. Here in the future it’s easy to get spoiled by all the computing power and inexpensive devices practically falling into our laps, but using some modern low-cost microcontrollers can connect us to our early computing roots like [Joe]’s latest Arduino-based computer.

Taking design an engineering cues from computers like the Timex Sinclair 1000, Commodore PET, and TRS-80 MC-10, this computer uses a trio of Arduinos to accomplish what the best computer manufacturers once did with tons of integrated circuits. An Arduino Due handles all of the processing and traditional computing tasks, including a somewhat customized BASIC implementation, while an Uno performs audio processing duties. Taking care of the video processing is the much more capable Arduino Mega, outputting 40×25 monochrome NTSC composite video at 8×8 character resolution. There’s even WiFi courtesy of an ESP32 — certainly an upgrade compared to the source material.

After booting it up, the user gets a Commodore-like experience that replicates the 80s computing era quite well, and is even built inside its own keyboard case just like that era of computers usually were. [Joe] plans to release all three firmware images and the Python script used to get files onto the faux-retro machine, so keep an eye out for that.

In the event that you used rubles instead of dollars to pay for your expensive 8-bit machines back in the 80s, this computer might be more up your alley instead.

3D Printing Space Cadet Pinball Into The Real World

Unless you’ve managed to avoid touching a Windows computer until after the Windows XP era, it’s pretty good odds you’ve played Space Cadet Pinball. Some of you may have even paid for the Mac port of Full Tilt! Pinball, the actual game the Windows freebee was supposed to demo. Unofficial ports exist for Linux as well, which means the one place nobody has ever played the game is, ironically, on a pinball table. [CNCDan]aims to change that in a video embedded below.

Ironically given [CNCDan]’s name, the parts he starts with — the two sorts of pop bumpers, the drop targets, slingshots, and delayed-drop hole– are all largely 3D-printed. While some of these parts are available commercially, it turns out that the scaling of the virtual pinball machine doesn’t match anything on offer, and rather than compromise [CNCDan] decided to do it himself, an attitude we absolutely respect.

All that’s left are the flippers– his first prototype wasn’t powerful enough–and a couple minor mechanisms before building the table. To do that, he’ll need high-resolution art worth printing. Not surprisingly, a game dating from 1995 doesn’t have high resolution assets available with which to do that. That kind of creativity isn’t in [CNCDan]’s wheelhouse, so if it is in yours and you want to collaborate, or know someone who does, you can reach [CNCDan] at his YouTube page. At the very least, he can pay you in playtime.

[CNCDan] often goes beyond his namesake, like with his SteamDeck-like handheld, or his 3D printed VR headset. Still, no guesses how he’s going to build the cabinet.

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Restoring A 3DO Blaster Card From The Early 90s

Before the modern trifecta of video game giants came to dominate the market around two decades ago, the world was awash in video game consoles. Many of these retro platforms have largely been forgotten outside of the enthusiast communities, and an average gamer today might not have ever heard of brands like ColecoVision or TurboGrafx. Among these unusual, rare, or forgotten systems was the 3DO which wasn’t strictly a console but rather a specification that manufacturers could use to make consoles on their own. But even more unusual was that this standard could be used to build 3DO-compatible expansion cards for PCs as well.

In this video, [The Retro Collective] received one of these boards to add to their museum, but like much retro hardware of this era it wasn’t working exactly like it would have out-of-the-box. After adding it to one of their period-correct 386 machines of the time, they found that it would only work properly with weight applied at one of the corners. This led to the discovery of some disconnected pins on the PCB, and a repair of that and some other issues brought the card back to life again.

The video also discusses the platform itself and shows how it would connect to a PC from that time. The PC would have needed a Sound Blaster card, a CD ROM drive with a particular proprietary interface, and a few other hardware requirements, but with everything up and working the player would have a console that theoretically competed with the original Playstation or Nintendo 64. It also illustrates an alternative path video games might have taken where expansion cards added console compatibility to any modern PC, but unfortunately the 3DO never really caught on.

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