2022 Hackaday Prize: Save The World Wildcard Challenge Begins Now

September 6, 2022 by Kristina Panos 13 Comments

Continuing the concept of saving planet Earth with gnarly, repeatable hacks, the fifth and final challenge of the 2022 Hackaday Prize is all about making the world better with smart and sustainable hardware. While the focus is still on saving the planet, this time, anything goes. Does your project not fit within the confines of a previous challenge? Here is your last chance to enter the 2022 Hackaday Prize: Start your entry today!

Go Wild!

We’ve already run contest rounds that focused on green power generation, recycling, hacking tech out of the landfills, and just finished up making our world more climate-resistant and connected. How else do you want to use your hacking powers to make the world a better place? Well, that’s up to you. This is the wildcard round, after all. If your project helps to keep this planet running for future generations, you can enter it here.

The Save the World Wildcard challenge starts right now and runs until October 16th. As with previous rounds, we’ll award one of ten $500 prizes to each finalist, and the best projects will have a chance at the overall 2022 Hackaday Prize. So get hacking!

Electric Surfboard Gets An Overhaul

September 6, 2022 by Matthew Carlson 5 Comments

One of the realities of building your own hardware is that it will more often than not lead to constant tinkering and revisions. [Simon]’s 3D printed electric surfboard is no exception as it recently got an overhaul. The motors were upgraded from 5000 W to 7500 W, most parts were redesigned to use bearings, and the impellers were swapped out. Luckily, almost all the electronics inside were suitable for reuse.

We previously covered the surfboard in question, and we’re always excited to see an old project revisited. The bearing reduces vibrations and allows the system to last longer. Despite the water cooling on the motors, the temperatures were still getting relatively high when running full tilt. So rather than buying more efficient (and more expensive) motors, he opted to reduce the load on the motors by changing out the impeller from a double to a single. But this meant cutting and grinding a new shaft as now needed to be one impeller shorter.

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Stable Diffusion And Why It Matters

September 6, 2022 by Matthew Carlson 51 Comments

You might not have heard about Stable Diffusion. As of writing this article, it’s less than a few weeks old. Perhaps you’ve heard about it and some of the hubbub around it. It is an AI model that can generate images based on a text prompt or an input image. Why is it important, how do you use it, and why should you care?

This year we have seen several image generation AIs such as Dall-e 2, Imagen, and even Craiyon. Nvidia’s Canvas AI allows someone to create a crude image with various colors representing different elements, such as mountains or water. Canvas can transform it into a beautiful landscape. What makes Stable Diffusion special? For starters, it is open source under the Creative ML OpenRAIL-M license, which is relatively permissive. Additionally, you can run Stable Diffusion (SD) on your computer rather than via the cloud, accessed by a website or API. They recommend a 3xxx series NVIDIA GPU with at least 6GB of RAM to get decent results. But due to its open-source nature, patches and tweaks enable it to be CPU only, AMD powered, or even Mac friendly.

This touches on the more important thing about SD. The community and energy around it. There are dozens of repos with different features, web UIs, and optimizations. People are training new models or fine-tuning models to generate different styles of content better. There are plugins to Photoshop and Krita. Other models are incorporated into the flow, such as image upscaling or face correction. The speed at which this has come into existence is dizzying. Right now, it’s a bit of the wild west. Continue reading “Stable Diffusion And Why It Matters” →

The Coolest 1990s Film Scanner To Work With Windows 11

September 6, 2022 by Jenny List 47 Comments

Unless you happen to be a retro enthusiast, it’s fair to say that any photography you do (whether on your phone or a dedicated camera) is going to be digital. The world of photography has all but completely moved away from film, but the transition was not instantaneous. Instead there was a period of about ten years from the mid-90s when film and digital existed side-by-side in some form. A profitable sideline for photography shops was providing scans of film, and there were a series of high-end scanners aimed at that market.

[Kai Kaufman] shares the experience of making one of these work with a modern Windows version, and it’s interesting both because of the scanner itself and the epic tale of software detective work required to bring it up to date. The scanner in question is a Pakon F135, the product of a Kodak acquisition, and an all-in-one device that simply spools in a roll of film and does all the hard work of identifying the frames, cropping the images, and reading any other data from the film.

You may never have seen one of these machines, but if you ever had your photos on a CD as well as printed back in the day you’ve probably had its output. The problem in 2022 is that these machines have drivers which only work with relatively ancient 32-bit Windows versions, so most of the write-up involves some significant detective work into the drivers.

Not every reader will be an expert on Windows driver de-compilation, but perhaps the most interesting pieces of the puzzle come from his detective work in finding the origin of some components. Example code from Microsoft and from a chip design company both make the job much easier, and the final result is a fully functioning 64-bit driver for the device. Not many people will have a Pakon film scanner, but for those who do it seems life may just have become a bit easier.

Thanks [adilosa] for the tip!

Digging Out An Underground Workshop

September 6, 2022 by Matthew Carlson 31 Comments

[Michael] of Teaching Tech moved, and with a large crawlspace under the house, he decided to turn it into a workshop.

There were a few challenges that needed to be addressed first. He had to dig out the crawlspace to provide a level surface, though the depth was limited by the concrete footers the building stands on. The house is sitting on and around large amounts of limestone, which is excellent from a stability standpoint but causes problems for [Michael]. Water can easily travel through limestone, meaning it ends up in his newly dug-out crawlspace. He dug trenches for water to exit and laid down gravel. After a few attempts to level the floor, he found some recycled plastic floor mats and finally got them where he liked them.

Wheeling his tools down a long and steep hill to the shop looks like most of the challenge. But with a few additions to the shop, like hard tube dust extractions and a french cleat system, he has an incredibly functional dedicated shop space.

If your crawlspace is too small for people, a tiny remote-controlled forklift could turn it into the storage space you need.

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Food Safe 3D Printing: A Study

September 5, 2022 by Dave Rowntree 43 Comments

[Matt Thomas] wanted to answer the question of whether 3D printed structures can be food-safe or even medical-safe, since there is an awful lot of opinion out there but not a lot of actual science about the subject. As a mechanical engineer who dabbles in medical technical matters, he designed as series of tests using a wide range of nasty-sounding pathogens, to find once and for all what works and what does not.

One common argument sprung up from the maker movement response to COVID-19, 3D printed masks and visors. Many of us (this scribe included) printed many thousands of visor frames and ear protectors, using the armies of 3D printers we had available, then distributed them to nursing homes and doctors’ surgeries, and anywhere else that couldn’t get ‘proper’ medical-grade items.

There was much opinion about the risks associated with contamination of such 3D printed structures, due to the allegedly porous nature of the prints. [Matt] has shown with some SEM imaging, that a typical 3D print does not have any detectable porosity, and that the grooves due to the layer lines are so positively huge compared to your average bacterium, as to also be irrelevant.

Cutting to the chase, [Matt] shows that ordinary dish soap and water are totally sufficient to remove 90% or more of all of the pathogens he tested, and that using a mix of culturing swap samples as well as protein detection, that 3D printed parts could be cleaned close to medical standards, let alone those of food handling. Even those pesky biofilms could be quickly dispatched with either a quick rinse in bleach-water or a scrub with baking soda. Does this article clear this up finally? Only you can decide!

We’ve obviously covered the subject of 3D printing masks a fair bit, but it’s not all about PPA, sometimes ventilators need some 3D printing love too. Prusa did some work on the subject of food safety, looking specifically at post-processing for 3D prints, and produced some interesting results.

Thanks to [Keith] for the tip!

Today’s The Day You Finally Learn Quaternions

September 5, 2022 by Al Williams 44 Comments

If you’ve ever dealt with orbital mechanics or sophisticated computer graphics, you’ve probably run across the math term quaternions. [Anyleaf] has a guide to the practical use of this math concept which focuses more on practicality than theory. We like it!

Quaternions are one of at least two ways to model rotations in a 3D space. Most people are familiar with the classic Euler angles which cover yaw, pitch, and roll. However, this method is prone to some ambiguities — in other words, there are multiple ways to go from one Euler state to another and all are equally valid. In addition, Euler angles are prone to gimbal lock where two of the axes are parallel and, thus, don’t have a different effect on the object’s orientation. There are several ways to combat that including the use of quaternions.

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