Author: Jenny List

3422 Articles

AI The Truly Environmentally Friendly Way

June 11, 2026 by 20 Comments

A common complaint about the rise of commercial AI services is that they are power-hungry and thus damage the environment. If this concerns you then [Squeezlabs] has the solution, in the form of an AI powered by a handcrank.

The guts of the system is a Raspberry Pi 5 running llama.cpp and appropriate speech conversions, but it and the Large Language Model (LLM) side are not the most interesting part of this system. The power comes from a hand crank charger of the type you’ll see for sale on the likes of AliExpress, designed for USB charging. That in itself is not enough to power the Pi though, as upticks in the processing can cause brownouts that crash the machine. Thus there’s a custom-made capacitor board to take up the strain, and even with that the handle resistance varies significantly depending on the computing load.

We can see that this is not the ideal way to experience an LLM, but maybe that’s not the point. It does however point towards a future in which the power demands of processing decrease and less effort is required. Meanwhile, this is by no means the first hand cranked project we’ve seen.

Giving A Power Mac G4 A USB Upgrade, For Free!

June 10, 2026 by 13 Comments

At various times in the history of desktop computing, the market has stubbornly refused to follow the path dictated for it by a dominant manufacturer. IBM’s move to MCA in their PS/2 line is one of many examples. Another is Apple’s take on USB a couple of decades ago, when their view of the future lay with Firewire 800. [Pierre Dandumont] has revisited a Power Mac G4 from that era and unleashed what Apple never did back in the day: a USB 2.0 port. (French language, Google Translate).

The hack lies in Apple shipping the machine with an NEC USB 2.0 controller, but only using it for USB 1.1. A PowerPC Linux distro will happily use it for USB 2.0, but Mac OS refused. Replacing the BIOS ROM with an image designed for the same Mac without Firewire 800 cured the problem, but at the expense of being so we’re told irreversible.

An obscure set of Macs from the early 2000s with an odd combination of hardware and OS may not count for much in 2026, but back in the day having USB 2.0 was a big deal and this would really have mattered. We like it that he put this together, even if the chances of having a G4 on the Hackaday desktop probably isn’t too high.

This isn’t the first USB hack we’ve seen for a PowerMac G4.

How Small Can You Make A C Executable?

June 7, 2026 by 44 Comments

It’s well known that the difference in executable size between a compiled binary and one hand-written in optimized assembler will be significant. The compiler brings in all manner of boilerplate whether it needs all of it or not, which is responsible for the extra space. [Weineng] has fallen down the rabbit hole of trying to make the smallest possible gcc-compiled C executable, and the resulting write-up is a fascinating read.

Surprisingly the smallest C program isn’t “Hello World”, but one which simply does nothing but return 0. This results in a binary weighing in at a surprisingly large 15,816 bytes — something which surely could be improved. There follows a set of clever compiler flags and bits of code manipulation to remove some debugging information, and strip out unnecessary stuff executed before void main().

At 13,632 bytes it’s still a little on the chunky side, so it’s time to examine what libraries it brings in. More compiler flags get it down to 8,704 bytes. Removing a code comment section and error handling with more flags takes it to 4,320 bytes. Then there’s code which dictates how memory is allocated, which brings it down to 400 bytes. That’s an impressive reduction!

Reading this as hardware people we maybe don’t have the elite knowledge of compiler flags it takes to manage something like this. But we’ve all at times had to reduce the size of a bit of software, so we’re sure some of the techniques used are going to be interesting to quite a few readers.

After all, even hardware people need to trim the fat at times.

A New Life For A Rare Console

June 7, 2026 by 6 Comments

One of the delights of our tips line is that from time to time it brings us retrocomputing hardware that, despite years of reporting, we were not aware existed. [Hitmanmcc] has just such a machine, an NEC PC Engine LT. It’s a PC engine in a laptop form factor, and like many of this super-rare console, it has succumbed to capacitor failure. We’re treated to the process of bringing it back to life.

Replacing capacitors was only part of the story for this repair, as the electrolyte had caused damage elsewhere on the board. In particular there is a small transformer that forms part of an inverter to generate an LCD bias voltage, and this had been destroyed. Fortunately the art of switching power conversion has advanced in the decades since the console was produced, and a small module was procured to do the same job.

The result of all this surgery is another rare console rescued from e-waste, and an opportunity for the rest of us to take a look too. The PC engine is a relative rarity here, but we’ve had a few hacks over the years. This converter for its American cousin is one.

An Unlikely Host For An 8080 Emulator

June 6, 2026 by 10 Comments

To emulate vintage microprocessor hardware, it’s normal to find a modern host that provides alongside the number-crunching grunt, sufficient physical connections to interface with its support hardware. Thus if you were shopping around it might be reasonable to pick something with a powerful core and plenty of pins. Yet to emulate an 8080, [Ted Fried] has eschewed both of these — opting for an ATtiny85, a microcontroller deficient in both pins and processing power.

This seemingly impossible feat is achieved by reducing the physical connection to an SPI bus and offloading the support functions to a Teensy. The emulation code is significantly optimized C, and includes a 128 byte cache to speed up matters. This delivers a speed claimed to be only very slightly slower than a real 8080 when booting CP/M, which is quite a feat.

We’re sure that CP/M enthusiasts will have fun with this project, and we especially like the full write-up. Going to the effort of making fake 1975 electronics magazine covers for the project really is going the extra mile, and we appreciate that. Meanwhile if you’d like one of your own, the whole thing can be found in a GitHub project.

If you’re not familiar with the 8080, maybe we can get you started.

An Ethernet WiFi Router On A Pi Pico 2W

June 5, 2026 by 15 Comments

We are all in search of the fastest in a wireless router, to give ourselves the best connectivity to the world. But what about the slowest? Gigabit Ethernet may not be for everyone, as Matt Deeds demonstrates with bit-banged 10baseT Ethernet on a Raspberry Pi Pico 2W.

The project is written in Rust, and is in part a port of an earlier project. It makes use of Ethernet magnetics, but the rest of the works is all done in software. He says it’s full-speed on transmit and reduced speed on receive, but we’re guessing if you’re using 10baseT in 2026 then speed isn’t your number one concern anyway. It provides a WiFi router as well as a wired connection, making it possibly the cheapest Ethernet to wireless solution possible.

We like projects that extract the last ounce of power from a part to make it do something its designers never intended. In this case we’ve seen a few other bit-banged Ethernet projects before, even another on the Pi Pico.

An RGB Keyboard For Your Hackaday Communicator Badge

June 4, 2026 by 1 Comment

The most recent Hackaday event badge has been the Communicator, a handheld wireless terminal with a rather nice QWERTY keyboard. It’s good enough as delivered, but [makeTVee] has gone one better and made his Communicator keyboard into a fully RGB light-up experience.

The feat is achieved with the help of a new front panel holding some very thin side-emitting addressable LEDs. The keys are custom-printed, and there’s a TPU mat to hold them all together. The LEDs are driven from one of the device’s GPIOs.

We saw this badge in real life at the recent Hackaday Europe conference in Lecco, Italy. It really is as good as it looks in the video below, the care and attention which has gone into the build is extremely impressive.The original badge used a silicone cast set of keys, and we’d say if you are making a device with a keyboard then these might make a very good option.

If you’re not familiar with the Communicator, it’s worth having a look at the launch announcement.

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