Comment by ben_w
9 hours ago
> Existence of supposedly cheap land somewhere (with not much infrastructure usually) doesn't help as you put your computer nodes into a datacenter building with all the required infrastructure which cost more than the SV land on a sq foot basis.
This is a terrible argument, given that space has zero infrastructure.
Once you can break a data centre into a million sub-units and spread them over a sun-synchronous orbit or ten and cool them radiatively, you can also spread those sub-units on desert land with no water or electricity and cool them radiatively.
The units on the ground would look about 6x larger because ground experiences night and even deserts have clouds, but their PV also lasts 30+ years rather than burning up every 5 years or so, which means the factory making the PV to supply them is the same size.
The main thing you save on is batteries. Tesla already supplies enough batteries that it can manage a "mere" one million 25kW compute modules.
> And that is without consideration of how powerful a weapon is the energy generated by a humongous field of solar panels in space. Remember Reagan's Star Wars? Nuclear explosions as a source of power for the direct energy weapons like lasers, etc. Well, you wouldn't need the nukes anymore. Just redirect a bit of power from your compute nodes. And as i already wrote, the large transnational companies will have to take care about their own defense themselves https://news.ycombinator.com/item?id=47981423 - one more "feudal" aspect of the coming techno-feudalism.
While true, attacking up is easier than attacking down. Anything on the ground has a massive heat-sink all around it, the stuff in space does not. Right now, an attack up is already only limited by the supply of adaptive optics to get through atmospheric distortion.
>you can also spread those sub-units on desert land with no water or electricity and cool them radiatively.
no, you can't.
>attacking up is easier than attacking down.
no.
Asserting the contrary is not an argument.
Nothing prevents SpaceX or anyone else from buying up the right to put these things on cheap desert land. They don't even need to own the land, just the right to wheel these things out on a trailer or a helicopter and leave them there.
A desert is significantly less harsh than space. If your radiator is sized for space, it's overkill in an atmosphere.
And for your edit: https://www.youtube.com/watch?v=xNmbvaUzC8Q
>If your radiator is sized for space, it's overkill in an atmosphere.
no. Again totally wrong.
The 20-40C air surrounding the radiator radiates at the radiator too. This is why a human immediately gets stone cold in space while not in the atmosphere - our body radiates away about 900W and receives 800W+ back from the atmosphere - our internal heat 'generation has to cover only the difference - less than 100W usually.
You probably meant forced convection cooling. That requires additional machinery. And that additional machinery is a significant part why ground based datacenters such expensive to build and operate.
To the comment below:
>The planet underneath anything in low orbit also does this, making this argument irrelevant.
no. Again, totally wrong. You've just stated that a human in LEO wouldn't get immediately cold when exposed to space. Just think about it for a second. And after that plug the numbers in thermodynamic calculator. You'll see your error.
>Likewise, the fact that convection exists even without the adjective "forced".
no. Again, wrong. Non-forced convection is pretty small. Use the calculator. And you'll understand why datacenters use forced convection.
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