That claim seems reasonable. I have zero knowledge of the economics of launching and maintaining satellites though.
When people say 'running it hot is bad for reliability', they mean 'running it hot and then brining it back to room temp from time to time will eventually kill it'.
That leaves only two kinds of people left who are still talking excitedly about datacenters in space: The uninformed and the grifters.
There’s very little research work needed to make this happen; it’s all about engineering some satellite buses and having them fly in close formation to get a “data center”. And this group of satellites in sun-synchronous orbit would relay to a comms constellation e.g. starlink itself) and operate as a global scale data center. The heat management and orbital mechanics are all straight forward really.
LEO is high risk and star link satellites deorbit or burn up all the time. Not good from a capex POV on graphics cards.
Its still very dumb because of economics, logistics, serviceability and more.
All that gets you 70kW of cooling. Radiating to vacuum isn't very efficient.
And SpaceX already proven they can launch sort of datacenters 10k times by launching Starlink (up to 20KW of solar each IIRC).
FWIW Musk should support Bernie Sanders more. Putting moratoriums on datacenters would make space based ones far more economical.
It's not that you can't put a server in space, but the costs to do it almost assuredly don't make any sense. Because, if you can do it in space you can do it easier on the ground and save yourself millions in launch cost and extra complexity. Your cooling challenges are way cheaper and simpler in an atmosphere.
There's nothing much being in space really gets you, other than it makes it harder for a government to take your computers away. Not impossible, just harder.
The economics don't work unless Starship is doing flights in quantity, and it has met or exceeded its cost targets.
Roughly, a single rack plus solar to power it in the $15m+ range just to launch. (This assumes power dissipation is handled via some means that does not require launch to orbit. Also does not include batteries.) Choose your own hardware for the rack, but call it < $5m.
SpaceX earning $15m every time someone launches a $5m rack would be a great business for SpaceX.
Use your own calculator/LLM, but mine is suggesting that the ~$7B Colossus 1 data center in TFA would be around $50B if launched on Falcon 9 (still ignoring cooling and batteries).
(There are obviously a lot of other asterisks. I'm ignoring power storage and heat dissipation. Maintenance probably doesn't matter given 75% of cost is in the launch. Network bandwidth could be a problem considering how DCs are used. Competition - if Company A spends $100B for $25B of actual AI infra, how competitive will they be against Company B who gets $100B for their $100B by spending it in Canada or Mexico, which they can do right now? Etc.)
None of this works without Starship, which has not set a date for its first LEO insertion test yet. Yet the whole point of orbital DCs is nothing on the ground can move fast enough, hence the rush to orbit...which can't really move at all right now.
No, it doesn't make any sense.
