Self-Driving Laboratories Do Research On Autopilot

September 29, 2022 by Lewin Day 16 Comments

Scientific research is a messy business. The road to learning new things and making discoveries is paved with hard labor, tough thinking, and plenty of dead ends. It’s a time-consuming, expensive endeavor, and for every success, there are thousands upon thousands of failures.

It’s a process so inefficient, you would think someone would have automated it already. The concept of the self-driving laboratory aims to do exactly that, and could revolutionize materials research in particular.

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Two e-readers side to side. On the left, you can see the frontal view, showing text on the e-ink screen. On the right, you can see the backside with a semi-transparent 3D-printed cover over it, and two AAA batteries inside a holder in the center.

Open Book Abridged: OSHW E-Reader Now Simplified, Pico-Driven

September 29, 2022 by Arya Voronova 15 Comments

If you ever looked for open-source e-readers, you’ve no doubt seen [Joey Castillo]’s Open Book reader, but you might not yet have seen the Abridged version he’s building around a Raspberry Pi Pico.

The Open Book project pairs a 4.2″ E-Ink screen with microprocessors we all know and love, building a hacker-friendly e-reader platform. Two years ago, this project won first place in our Adafruit Feather contest — the Feather footprint making the Open Book compatible with a wide range of MCUs, giving hackers choice on which CPU their hackable e-reader would run. Now, it’s time for a RP2040-based reboot.

This project is designed so that you can assemble it on your own after sourcing parts and PCBs. To help you in the process, the PCB itself resembles a book page – on the silkscreen, there is explanations of what each component is for, as well as information that would be useful for you while hacking on it, conveying the hardware backstory to the hacker about to dive into assembly with a soldering iron in hand. There’s simple but quite functional software to accompany this hardware, too – and, as fully open-source devices go, any missing features can be added.

Joey has recorded a 30-minute video of the Pi Pico version for us, assembling and testing the newly ordered boards, then showing the software successfully booting and operational. The Pi Pico-based revision has been greatly simplified, with a number of self-assembly aspects improved compared to previous versions – the whole process really does take less than half an hour, and he gets it done with a pretty basic soldering iron, too!

If you’re looking for updates on this revision as development goes on, following [Joey] on Twitter is your best bet. He’s no stranger to making devices around us more free and then sharing the secret sauce with all of us! During the 2021 Remoticon he showed off a drop-in replacement mainboard for the Casio F-91W wristwatch, and told us all about reverse-engineering its controller-less segment LCD — worth a listen for any hacker who’s ever wanted to bend these LCDs to their will.

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IBM Made A MIPS Laptop. Will It Make You WinCE?

September 29, 2022 by Jenny List 26 Comments

We’re used to our laptop computers here in 2022 being ultra-portable, super-powerful, and with impressively long battery lives. It’s easy to forget then that there was a time when from those three features the laptop user could usually expect only one of them in their device. Powerful laptops were the size of paving slabs and had battery lives measured in minutes, while anything small usually had disappointing performance or yet again a minuscule power budget.

In the late 1990s manufacturers saw a way out of this in Microsoft’s Windows CE, which would run on modest hardware without drinking power. Several devices made it to market, among them one from IBM which [OldVCR] has taken a look at. It makes for an interesting trip down one of those dead-end side roads in computing history.

In the box bought through an online auction is a tiny laptop that screams IBM, we’d identify it as a ThinkPad immediately if it wasn’t for that brand being absent. This is an IBM WorkPad, a baby sibling of the ThinkPad line intended as a companion device. This one has a reduced spec screen and an NEC MIPS processor, with Windows CE on a ROM SODIMM accessible through a cover on the underside. For us in 2022 MIPS processors based on the open-sourced MIPS ISA are found in low-end webcams and routers, but back then it was a real contender. The article goes into some detail on the various families of chips from that time, which is worth a read in itself.

We remember these laptops, and while the IBM one was unaffordable there was a COMPAQ competitor which did seem tempting for on-the-road work. They failed to make an impact due to being marketed as a high-end executive’s toy rather than a mass-market computer, and they were seen off as “real” laptops became more affordable. A second-hand HP Omnibook 800 did the ultra-portable job on this bench instead.

The industry had various attempts at cracking this market, most notably with the netbooks which appeared a few years after the WorkPad was produced. It was left to Google to reinvent the ultra-portable non-Intel laptop as an internet appliance with their Chromebooks before they would become a mass-market device, but the WorkPad remains a tantalizing glimpse of what might have been.

Windows CE occasionally makes an appearance here, and yes, it runs DOOM.