Reading between the lines, this is corporate-speak for "this is a terminable offense for the employees involved." It's a holiday weekend in the US so they may need to wait for office staff to return to begin the process.
Right, textiles are much bigger than fashion - bedding, furniture upholstery, curtains, some types of shelter, practical items like footwear, protective equipment, medical equipment and dressings, vehicle interiors... pretty much all aspects of human life depend on textiles. It ain't just cheap t shirts and dresses.
And in pre-industrial societies, peasants (almost entirely women, ranging from children to the elderly) commonly spent around 100 hours of labor to produce a single square yard of fabric to clothe their families (fabric was too expensive for peasants to buy, so most spun it at home).
So yeah, considering how necessary fabric is to human life, that isn't a terribly surprising figure.
Great software still exists, in spaces where capital doesn't choose the priorities. We're rapidly reaching the point where almost every piece of desktop software most people actually need to create things has a competitive free-as-in-beer or even free-as-in-speech option.
> On our project, it's still useless because it can't use the semantic search in the IDE.
Zed's ACP seems to be a good solution to this - when using it, claude code has access to the IDE's diagnostics and tools, just like the human operator. https://zed.dev/acp
I knew someone who was involved in an investigation (the company and person was the victim not the target of the investigation), their work laptop got placed into a legal hold, the investigators had access to all of their files and they weren't allowed delete to anything (even junk emails) for several years.
> because you still can't get the other parts that aren't printed
Every part except the firing pin is now printable (you can print quite strong carbon-fiber reinforced parts at home). The firing pin can be made from a nail or similar piece of metal.
> You can't get bullets
Bullets are mostly easy enough to make. One of my neighbors growing up was a competitive shooter who competed nationally and internationally. He manufactured his own ammo in his home shop, using tools any boomer dad had access to, like a lathe, presses and very accurate scales. He didn't really pay any more for ammo than we did per round. The only reason criminals don't do it is because buying factory ammo on the gray and black market is so easy.
The most difficult part to make would probably be the primers, but that still isn't difficult for any chemist.
You know that line from the Mandalorian, "Weapons are part of my religion"?
That is true in the most literal possible sense for a large portion of Americans. And not all of them right-wing, either- if anything, the past 5 years have convinced many of my left-wing friends to get concealed weapons training and being carrying pistols.
Guns can be made out of simple geometric shapes like tubes, blocks, and simple machines like levers and springs. There is mathematically no way to distinguish a gun part from a part used in home plumbing - in fact you can go to the plumbing section of your local hardware store and buy everything you need to build a fully functional shotgun.
I haven't printed a full firearm but I've printed some replacement/ergonomic parts for my legally purchased firearms. And there are people printing guns - you don't hear about it because they keep their mouth shut about it.
Maybe that makes sense for a single-machine application where you also control the hardware. But for a networked/distributed system, or software that runs on the user's hardware, the action might involve a decision tree, and a log line is a poor way to convey that. We use instrumentation, alerting and runbooks for that instead, with the runbooks linking into a hyperlinked set of articles.
My 3D printer will try to walk you through basic fixes with pictures on the device's LCD panel, but for some errors it will display a QR code to their wiki which goes into a technical troubleshooting guide with complex instructions and tutorial videos.
Most of the time my time spend operating my A1 Mini is... maybe 2-3 minutes per plate? Drag and drop into Bambu Studio, run the slicer, send the job to the printer, come back in 4 hours and grab my prints. I might need to break off the supports and clean them up - but with an injection molded kit I'd be snipping the sprues, cleaning up mold lines with a knife and gluing the models together anyway.
The commericial overhead rate for an SLA printer is about $5 a plate - the washing and curing steps can be largely automated, or even if they are done manually, it's not that much work.
My experience is that a lot of dads are getting into these hobby at around the same time their kids are also the age for it. It's something to spend time with the family, as well as multiple families to do together.
This site isn't about Warhammer, that's an entirely separate hobby. Warhammer figures are much larger (around 1:56, but the characters are mostly superhumans and monsters, so in practice the figures are much larger) and there's more emphasis on stuff like painting and competitive play than diorama or realism.