I have been trying to force LLMs to work with geometries for over a month and it's so hard. Even the best LLMs have an extremely poor sense of geometric relationships in my testing. I would also stay away from mesh based CAD like OpenSCAD and go straight for build123d which operates on real solid models (BREP): https://build123d.readthedocs.io/en/latest/index.html
It took me too long to understand the difference between the two so I'll leave it here for others. Octelium operates on OSI Layer 7 and Tailscale operates on OSI Layer 3 and 4.
Google partnered with European Center for Medium-Range Weather Forecasts (ECMWF) to build weather models. Which begs the question: why didn't it partner with NOAA on its home turf?
JPEG-LL refers to the lossless mode of the original JPEG standard (ISO/IEC 10918-1 or ITU-T T.81), also known as JPEG Lossless, and not to be confused with JPEG-LS (ISO/IEC 14495-1, Transfer Syntax 1.2.840.10008.1.2.4.80), which offers better ratios and speed via LOCO-I algorithm. JPEG-LL is older and less efficient yet more widely implemented in legacy systems.
The lossless mode in JPEG-XL is superior to all of those.
I wrote a blog post about using nspawn from an Arch Linux host. The Arch Wiki shows more information about how to get a Debian base if you want that instead. Link to the wiki is at the bottom of the blog post along with more references.
In my experience it is dangerous to go more than a day without electrolyte and multivitamin supplementation.
Care must be taken to avoid potassium overdose if supplementing with potassium. Sodium chloride is well tolerated on the order of no more than 20 grams per day spread out over the whole day.
Another method which any able-bodied individual can try at home is multi day salt water fasting with multivitamin supplementation.
Elevated levels of autophagy after fasting result in the elimination of senescence-like neurons. Individual neurons of this type can negatively influence the extracellular environment and may promote induction of the same phenotype in surrounding cells, as well as driving aging and age-related diseases.