Comment on Elon Musk Is Rolling xAI Into SpaceX—Creating the World’s Most Valuable Private Company
MrScottyTay@sh.itjust.works 5 days agoI wasn’t being serious by the way, but thanks for the detailed explanation of why, always appreciated to know the actual ins and outs no matter the topic.
realitista@lemmus.org 5 days ago
Wait, I just did some research and it turns out I’m partially wrong about this.
While I am correct that you can’t cool in the way we do on earth by bringing cool air to carry away the heat, there is another way to cool things as used by space stations and satellites.
That is you can take the heat and radiate it into space as Infrared radiation. IR radiation is able to travel through space as it is made of photons.
So I am wrong. I’m not sure how effective this would be for the amount of heat generated by servers, but it’s not actually fully disqualified as I thought it would be.
NaibofTabr@infosec.pub 5 days ago
This is how the International Space Station deals with waste heat: www.nasa.gov/…/473486main_iss_atcs_overview.pdf
It’s very slow compared with convective cooling, definitely not practical for running any high-powered computer hardware, slow enough that it can be considered disqualified.
bebabalula@feddit.dk 5 days ago
Some back of the envelope: An ideal black-body at 100 C will radiate something like a kW pr m2, give or take. So one h100 at 700W(?) would probably need a reflector of around one m2. Very rough but it’s probably within an order of magnitude so it’s not impossible, but just adds to the engineering and logistics challenges.
humanspiral@lemmy.ca 5 days ago
Very expensive solar and radiative panels. Need 3x radiator area to solar. Also need to launch them
Munkisquisher@lemmy.nz 5 days ago
So we really need to make gpus out of materials that can glow white hot, slap them over the outside of enormous space data centres, then point them as earth and sell the blinding light as space billboards /s