Editor’s note: … In this article, we discuss the technical challenges of building an orbital data center constellation: launching all of it, dissipating heat in space, dealing with radiation, and addressing latency issues in orbit. Read part one here.

I find the napkin math interesting, especially putting into light that given expected longevity of such satellites, 5 to 7 years, they will have to do 10 to 42 launches per day. SpaceX will need $1.5 to $10 trillions to make it happen. All of that so the slop machine doesn’t have to run into obstacles like democracy ? So it can destroy communities and the environment freely? What are we doing?

  • wjrii@lemmy.world
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    8 hours ago

    So you need SpaceX to increase its launch capacity to somewhere between 20 to 80 times its current rate, completely reimagine the economics of space-based radiators and solar panels, accept that all that shiny new power and cooling CapEx is just as disposable as the GPUs, and you have to adjust the expected use cases and SLAs to allow for nothing being repairable and latency making them unsuitable for many AI tasks.

    Yes. “Possible.” I mean, I guess, but we’ve got some powerful Hyperloop energy here. I cannot imagine it ever being more economical than bullying and bribing rural areas with access to a power grid.

    • holy_scroller@lemmy.zip
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      9 hours ago

      The thermal problems are the craziest part IMO. Why do you think they use so much water on earth. In low Earth orbit your entire data center would be mostly radiators, which are heavy and complex with enormous fluid flow rates.