Monet probably wondered how other people couldn't see purple in a haystack.

Leave SpaceX alone you child. Gwynne has it in excellent hands.. find some other way to pay for your juvenile brainfarts.

When it all goes bankrupt, they can pay off the bonds for x¢ in the dollar and own SpaceX.

Perhaps if the gov could organize a little better, they'd make sure SpaceX owed lots of taxes and put themselves in front of the queue for ownership and screw other creditors.

Primary and largest investors in X are: Elon Musk, Saudi Prince Alwaleed bin Talal, Larry Ellison, Jack Dorsey.

I don't know that you need to worry about their financial well-being or that they are getting a raw deal.

> so are the banks?

Which relevant bank do you have in mind that is not a public company (listed on a stock exchange)?

It is estimated that Starlink is, accounting for 70% - 80% of revenue. Sources: [1] and [2]

NASA is SpaceX's biggest external customer for rocket launch services.

Although NASA is SpaceX’s largest external customer for traditional launch services, the company earns far more revenue from Starlink customers (millions of subscribers). So overall Starlink itself is SpaceX’s biggest revenue generator and de facto largest customer segment.

[1] https://pestel-analysis.com/blogs/target-market/spacex

[2] https://londoneconomics.co.uk/blog/publication/crouching-riv...

Please highlight the problems you have with how it pertains to this context, how the biggest customer is harmed.

What do you care if its private owners are willing to absorb the mess that is xAI?

We can make ten or hundred times the number of solar cells we make right now, we just don't have a reason to. The technology is fairly ancient unless you want to compete on efficiency, and the raw materials abundant.

Orbit gets you the advantage of 1/5th the PV and no large daily smoothing battery, but also no on-site installation cost, no grid interconnect fees, no custom engineering drawings, no environmental permitting fees, no grid of concrete footers, no heavy steel frames to resist wind and snow loads. The "on-site installation" is just the panels unfolding, and during launch they're compact so the support structure can be relatively lightweight.

When you cost building the datacenter alone, it's cheaper on earth. When you cost building the solar + batteries + datacenter, it (can be) cheaper in space, if you build it right and have cheap orbital launch.

[0] https://en.wikipedia.org/wiki/Balance_of_system

However, the amount of available land is fixed and the demand for its use is growing. Solar isn't the only buyer in this real estate market.

You also don't usually use the same exact kind of panels as terrestrial solar farms. Since you are going to space, you spend the extra money to get the highest possible efficiency in terms of W/kg. Terrestrial usually optimizes for W/$ nameplate capacity LCOE, which also includes installation and other costs.

https://wiki.pvmet.org/index.php?title=Standard_Test_Conditi...

So, a "400W panel" is rated to produce 400W at standard testing conditions.

I'm not sure how relevant that is to the numbers being thrown around in this thread, but thought I'd provide context.

And then there’s that pesky night time and those annoying seasons.

It’s still not even remotely reasonable, but it’s definitely much higher in space.

Even with their cheapest home plan, we're getting like 100 Mbps down and maybe 20 to 50 up. So it's just not true at all that you would have connections that are a megabit or two per second.

Anyway they just canned the S and X lines so that's done as well...

That someone could put a data center in space for the price of 100 years of eliminating world hunger doesn’t mean shit.

Going public would add a lot of hassle for little to no gain (and probably a negative of having to reveal their finances).

Tesla Shanghai opened in 2019

BYD made their first hybrid in 2008 and they were a battery company since the 90s

Everything has to go right with that, or cybercab will be irrelevant before it works. Same deal. Same bullshitter.

Not just that, the cost of each rocket launch is drastically cheaper than all of its competitors costs.

As for FSD, nope. Unless you redefine the word reliable.

Edit: I owned a 2018 Model S as well. Literally the worst fucking car I have ever owned or driven.

It was easy to support SpaceX, despite the racist/sexist/authoritarian views of its owner, because he kept that nonsense out of the conversation.

X is not the same. Elon is actively spewing his ultraconservative views on that site.

Now that these are the same company, there's no separation. SpaceX is part of Musk's political mission now. No matter how cool the tech, I cannot morally support this company, and I hope, for the sake of society, it fails.

This announcement, right after the reveal that Elon Musk reached out to Jeffrey Epstein and tried to book a trip to Little St. James so that he could party with "girls", really doesn't bode well.

It's a shame you can't vote these people out, because I loved places like Twitter, and businesses like SpaceX and Tesla, but Elon Musk is a fascist who uses his power and influence to attack some of the most important pillars of our society.

In all the conversations I've seen play out on hacker news about compute in space, what comes up every time is "it's unviable because cooling is so inefficient".

Which got me thinking, what if cooling needs dropped by orders of magnitude? Then I learned about photonic chips and spintronics.

EDIT: people continue downvoting and replying with irrelevant retorts, so I'll add in some calculations

Let's assume

1. cheap 18% efficient solar panels (though much better can be achieved with multijunction and quantum-cutting phosphors)

2. simplistic 1360 W/m^2 sunlight orthogonal to the sun

3. an abstract input Area Ain of solar panels (pretend its a square area: Ain = L ^ 2)

4. The amount of heat generated on the solar panels (100%-18%) * Ain * 1360 W / m ^ 2, the electrical energy being 18% * Ain * 1360 W / m ^ 2. The electrical energy will ultimately be converted to computational results and heat by the satellite compute. So the radiative cooling (only option in space) must dissipate 100% of the incoming solar energy: the 1360 W / m^2 * Ain.

5. Lets make a pyramid with the square solar panel as a base, with the apex pointing away from the sun, we make sure the surface has high emissivity (roughly 1) in thermal infrared. Observe that such a pyramid has all sides in the shade of the sun. But it is low earth orbit so lets assume warm earth is occupying one hemisphere and we have to put thermal IR reflectors on the 2 pyramid sides facing earth, so the other 2 pyramid sides face actual cold space.

6. The area for a square based symmetric pyramid: we have

6.a. The area of the base Ain = L * L.

6.b. The area of the 4 sides 2 * L * sqrt( L ^ 2 / 4 + h ^ 2 )

6.c. The area of just 2 sides having output Area Aout = L * sqrt( L ^ 2 / 4 + h ^ 2 )

7. The 2 radiative sides not seeing the sun and not seeing the earth together have the area in 6.c and must dissipate L ^ 2 * 1360 W / m ^ 2 .

8. Hello Stefan-Boltzmann Law: for emissivity 1 we have the radiant exitance M = sigma * T ^ 4 (units W / m ^ 2 )

9. The total power exited through the 2 thermal radiating sides of the pyramid is then Aout * M

10. Select a desired temperature and solve for h / L (to stay dimensionless and get the ratio of the pyramid height to its base side length), lets run the satellite at 300 K = ~26 deg C just as an example.

11. If you solve this for h / L we get: h / L = sqrt( ( 1360 W / m ^ 2 / (sigma * T ^ 4 ) ) ^ 2 - 1/4 )

12. Numerically for 300K target temperature we get: h/L = sqrt((1360 / (5.67 * 10^-8 * 300 ^ 4)) ^ 2 - 1/4) = 2.91870351609271066729

13. So the pyramid height of "horribly poor cooling capability in space" would be a shocking 3 times the side length of the square solar panel array.

As a child I was obsessed with computer technology, and this will resonate with many of you: computer science is the poor man's science, as soon as a computer becomes available in the household, some children autodidactically educate themselves in programming etc. This is HN, a lot of programmers who followed the poor man's science path out of necessity. I had the opportunity to choose something else, I chose physics. No amount of programming and acquiring titles of software "engineer" will be a good substitute for physicists and engineers that actually had courses on the physical sciences, and the mathematics to follow the important historical deductions... It's very hard to explain this to the people who followed the path I had almost taken. And they downvote me because they didn't have the opportunity, courage or stamina to take the path I took, and so they blindly copy paste each others doomscrolled arguments.

Look I'm not an elon fanboy... but when I read people arguing that cooling considerations excludes this future, while I know you can set the temperature arbitrarily low but not below background temperature of the universe 4 K, then I simply explain that obviously the area can be made arbitrarily large, so the temperature can be chosen by the system designer. But hey the HN crowd prefers the layers of libraries and abstractions and made themselves an emulation of an emulation of an emulation of a pre-agreed reality as documented in datasheets and manuals, and is ultimately so removed from reality based communities like physics and physics engineering, that the "democracy" programmers opinions dominate...

So go ahead and give me some more downvotes ;)

If you like mnemonics for important constants: here's one for the Stefan Boltzman constant: 5.67 * 10^-8 W / m^2 / K ^ 4

thats 4 consecutive digits 5,6,7,8 ; comma or point after the first significant digit and the exponent 8 has a minus sign.

Yes, you can overcome this with enough radiator area. Which costs money, and adds weight and space, which costs more money.

Nobody is saying the idea of data centers in space is impossible. It's obviously very possible. But it doesn't make even the slightest bit of economic sense. Everything gets way, way harder and there's no upside.

https://www.jalopnik.com/did-musk-propose-hyperloop-to-stop-...

This current announcement seems silly, though.

Once again pointing out Tesla has around 300 robotaxis running in 2 cities (Austin/SF).

The basic idea of putting compute in space to avoid inefficient power beaming goes back to NASA in the 60s, but the problem was always the high cost to orbit. Clearly Musk expects Starship will change that.

Will that come to be? I'm skeptical, especially within the next several years. Starship would have to perform perfectly, and a lot of other assumptions hold, to make this make sense. But that's the idea.

Let's say given component failure rates, you can expect for 20% of the GPUs to fail in that time. I'd say that's acceptable.

If the cost per pound, power, regulatory burden, networking, and radiation shielding can be gamed out, as well as the thousand other technically difficult and probably expensive problems that can crop up, they have to sum to less than the effective cost of running that same datacenter here on earth. It's interesting that it doesn't play into Jevon's paradox the way it might otherwise - there's a reduction in power consumption planetside, if compute gets moved to space, but no equivalent expansion since the resource isn't transferable.

I think some sort of space junk recycling would be necessary, especially at the terawatt scale being proposed - at some point vaporizing a bunch of arbitrary high temperature chemistry in the upper atmosphere isn't likely to be conducive to human well-being. Copper and aluminum and gold and so on are also probably worth recovering over allowing to be vaporized. With that much infrastructure in space, you start looking at recycling, manufacturing, collection in order to do cost reductions, so maybe part of the intent is to push into off-planet manufacturing and resource logistics?

The whole thing's fascinating - if it works, that's a lot of compute. If it doesn't work, that's a lot of very expensive compute and shooting stars.

Nothing in there is a lie, but any substance is at best implied. Yes, 1,000,000 tons/year * 100kW/ton is 100GW. Yes, there would be no maintenance and negligible operational cost. Yes, there is some path to launching 1TW/year (whether that path is realistic isn't mentioned, neither what a realistic timeline would be). And then without providing any rationale Elon states his estimate that the cheapest way to do AI compute will be in space in a couple years. Elon is famously bad at estimating, so we can also assume that this is his honest belief. That makes a chain of obviously true statements (or close to true, in the case of operating costs), but none of them actually tell us that this will be cheap or economically attractive. And all of them are complete non-sequiturs.

I think passive cooling (running hot) reduced some of the advantages of undersea compute.

Space is pretty ridicolous, but underwater might genuinely be a good fit in certain areas.

I suppose that an orbit-ready server is going to cost more, and weigh less.

The water that serves as the coolant will weigh a lot though, but it can double as a radiation shield, and partly as reaction mass for orbital correction and deorbiting.

In the back on my head this all seemed astronomically far-fetched, but 5.5 million to get 8 GPUs in space... wild. That isn't even a single TB of VRAM.

Are you maybe factoring in the cost to powering them in space in that 5 million?

What if you could keep them in space long enough that by the time they burn up in the atmosphere, there are newer and better GPUs anyway?

Still doesn't seem sustainable to me given launch costs and stuff (hence devil's advocate), but I can sort of see the case if I squint?

Musk has a documented history of failing to deliver on promises, timescale or no. So it’s best to engage in some actual critical thinking about the claims he is making.

1. solar is very efficient at generating energy, no moving parts, simple physics etc.

2. in space you don't deal with weather or daylight cycle, you can just point your panels at the sun and generate very stable energy, no batteries required

3. environmental factors are simpler, no earthquakes, security, weather. Main problem here is radiation

In theory its a very elegant way to convert energy to compute.

Land and permitting. I’m not saying the math works. Just that there are envelopes for it to.

We're getting close to having the time for Starship's delays to be the same as the actual time for the Saturn 5 to go from plans to manned launches (Jan 1962-Dec 1968).

- launch costs are so high that doing exotic bespoke engineering might be worth it if it can shave off a few pounds

- once again because launches are expensive and rare, you cannot afford to make mistakes, so everything has to work perfectly

If you are willing to launch to lower orbits, and your launch vehicle is cheap, you are building in bulk, then you can compromise on engineering and accept a few broken sats

Undergrads afaik even high schoolers have built cubesats out of aluminum extrusions, hobbyist solar panels, and a tape measure as an antenna. These things probably dont do that much, but they are up there and they do work.

Ooh, happy 10th anniversary, FSD?

I meant it specifically for figuring out cooling computers in space.

I am pretty sure this is going to be a solvable problem if this is the bottleneck to achieve data centers in space, given that newer chips are much more tolerant to high temperatures.

https://www.marketplace.org/story/2026/01/07/new-ai-chips-wi...

You just responded to one of them.

I've been told by SpaceX folk that Elon's job is to keep a 20 year view in the future and essentially get folks to work backward from that.

I think I might kind of be sold on data-clusters in space in 20 years.

I can understand if I had lift that cost 1/10 what everyone else in the world paid for it, I'd be even more sold on them.

That said, this newfound enthusiasm of his certainly makes a commercially reasonable path forward to turn xAI stock into spacex stock. Elon takes care of his investors, generally speaking.

I agree those don't seem immediately to be huge wins to me; not dealing with local politics might be a big one, though. Depending on location. There's a lot of red tape in the world.

That said xAI might need a bit of a rescue.

This ish is starting to get really serious.

Agreed, when I wrote "just unplug it," this counterargument was present in my mind, but nobody likes a wall of text.

However, my original point was that a distributed solar powered orbital inference platform is even worse! Think about how hard it would be to practically take out Starlink... it's really hard.

Now.. >1M nodes of a neural net in the sky? Why would someone who lives as a god, the richest man in the world, the only person capable of doing this thanks to his control of SpaceX... do the literal worst thing possible?

Naysayers probably get fired fast.

Try doing fault injection on a chip some time. You'll see it's significantly easier to cause a crash / reset / hang than to just flip data bits.

'rad-triggered bit flips don't matter with AI' is a lie spoken by people who have obviously never done any digital design in their life.

I would say they probably something a little beefier than consumer hardware and just deal with lots of failures and bit flips.

But cooling is a bigger issue probably?

You don't have to think they have the best models of course, but they are clearly a very significant, and some might argue, leading player in the AI race.

I think that is also likely, unless Tesla can stage a major turnaround, it is going to be beaten by Chinese competitors nearly everywhere that they are allowed (which is everywhere but the USA.)

As for the space datacenter idea, I think this is just a case of extreme marketing that Musk's ventures are so accustomed to. Making huge promises to pump their stocks while the US government looks the other way. When time comes for them to deliver on their promises, they've already invented ten more outrageous ideas to make you forget about what they promised earlier. Hyperloop as a viable mode of transportation, tunnel networks for Teslas, SpaceX vehicles as a mode of transport, X as the new 'everything app', insane timelines for a Musk-led human mission to Mars. They've done it all.

With recent developments, projected use is now skyrocketing like never seen since.

Before that I thought it was calculated that if alternative energy could be sufficiently ramped up, there would be electricity too cheap to meter.

I would like to see that first.

Whoever has the attitude to successfully do "whatever it takes" to get it done would be the one I trust do it in space after that.

You can have a swarm of small, disposable satellites with laser links between them.

Everything I've heard from Musk in the past decade has been against my will and has made me dumber. (no I do not care to verify or know whether the above is true)

Edit: ah fuck ya got me "the next book in SpaceX and xAI's mission: scaling to make a sentient sun to understand the Universe" what the cultish bullshit is this. In a just world investors would be fleeing in droves from this cuckoo behavior (I know xAI & SpaceX are private)

To put that in space, based on your numbers, that's 1,250 square kilometers of cooling - an area roughly equivalent in size to Los Angeles

You don't need synergies to justify a merger. They're often used as justification as in paying well above market price. But it has nothing to do with actual justification. You can just have a holding company of businesses

edit: these replies aren't going to age well

https://futurism.com/advanced-transport/spacex-buying-unfath...

And consider that this is retroactive, meaning it's backpay. They're literally voting to give the guy $50b for work performed. He has a lot of confidence from his investors. And if there were issues, there would be lawsuits. Ironically the only lawsuits that get brought up, like the one about the pay package, are basically trolls, from a guy that had 9 shares.

Besides the parent is the one making a claim that something not above board is going on so burden of proof is on him.

Finally, it's a private company where Musk is the majority shareholder. He's moving money from one pocket into another, and any moves will be reflected in his attempt to raise money with the IPO coming this year.

Why do people online pretend not to understand?

Google and Amazon are doing the same thing. Maybe it is a moonshot (pun intended), but Musk is hardly alone in the push.

https://www.wsj.com/tech/bezos-and-musk-race-to-bring-data-c...

https://www.nytimes.com/2026/01/01/technology/space-data-cen...

I cannot wait for him to one day be hit in the face by reality.