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It kinda does make sense if you consider that solar panels in space have been used for a very long time (to power satellites). However, getting the electricity they generate down to Earth is very complicated, so you end up having to use it in space, and one of few things that would make sense for that is indeed data centers, because getting the data to Earth is easier (and Elon already handily has a solution for that).

However I'm curious how many solar panels you would need to power a typical data center. Are we talking something like a large satellite, or rather a huge satellite with ISS-size solar arrays bolted on? Getting rid of the copious amounts of heat that data centers generate might also be a challenge (https://en.wikipedia.org/wiki/Spacecraft_thermal_control)...

give us a break, you have to start somewhere, and find someone willing to start it all

Sending post-compute radio waves to Earth is much safer than sending back TW of power.

>the best we can

oh, we'll sure find a way to weaponize that energy for example - just imagine all those panels simultaneously turning their reflective back in a way to form gigantic mirror to focus reflected solar energy on your enemy, be that enemy in space or on the Earth/Moon/Mars ground. Basically space-scale version of 'death ray scyscrapper' https://www.businessinsider.com/death-ray-skyscraper-is-wrea....

Back in the day the Star Wars program was intending to use nuclear explosions to power the lasers, i guess once all that solar for AI gets deployed in space we wouldn't need the explosions anymore.

Interesting that such space deployment can deny access to space to anybody else, and that means that any competitive superpower has to rush to deploy similar scale system of their own. Space race v2.

> You could argue that it doesn't really count though because it was only turing complete in theory

Then you have to also count the Z3 which predates the Colossus by 2 years.

[1] https://en.wikipedia.org/wiki/Z3_(computer)

OK, so what are they?

Scaling photovoltaic production doesn't seem likely to have many broader implications on its own. At best, it makes it easier to change the grid to renewable power, if you ignore the intermittency problem that still exists even at huge scales. PV fabs aren't really reusable for other purposes though, and PV tech is pretty mature already, so it's not clear what scaling that up will do.

Scaling rocketry has several fascinating implications but Elon already covered many of them in his blog post.

Scaling AI - just read the HN front page every day ;)

What are we missing here? Some combinatoric thing?

I'm starting to wonder if a person like Elon with his... morals... is who we want to be creating a vision for the future.

Not to go heads I win, tails you lose, but even if we go down this path - it's the same story because militaries are investing heavily in LLM stuff, both overtly and covertly. Outside of its obvious uses in modeling, data management, and other such things - there also seems to be a fairly widespread belief, among the powers that be, that if you just say the magic words to somebody, that you can make them believe anything. So hyper-scaling LLM potential has direct military application, same as Starlink and Starship.

Really? That is so interesting - which ones? Any ancestors of commonly used ones today?

> with the telegraphy network in the early 1800s.

Late 1700 actually, and war was indeed a key motivation for the deployment of the Télégraphe Chappe.

> This is a question that analysts don't even ask

On the contrary, data centers continue to pop up deploying thousands of GPUs specifically because the numbers work out.

The H100 launched at $30k GPU and rented for $2.50/hr. It's been 3 years since launch, the rent price is still around $2.50.

During these 3 years, it has brought in $65k in revenue.

Starlink yes, at 480 km LEO. But the article says "put AI satellites into deep space". Also if you think about it, LEO orbits have dark periods so not great.

A better orbit might be Sun Synchronous (SSO) which is around 705 km, still not "deep space" but reachable for maintenance or short life deorbit if that's the plan. https://science.nasa.gov/earth/earth-observatory/catalog-of-...

And of course there are the LaGrange points which have no reason to deorbit, just keep using the old ones and adding newer.

damn. at this point its not even about a pretense for progress, just a fetish for a very dirty space

5 to 7 months given they want 100kw Per ton and magical mystery sauce shielding is going to do shit all.

so, instead of recycling as many components as possible (a lot of these GPU have valuable resources inside) you simply burn them up.

I'm guessing the next argument in the chain will be that we can mine materials from asteroids and such?

Such a waste of resources

You could immersion cool them and get radiation resistance as a bonus.

Overview energy has done interesting work in this area.

It's always better to generate electricity on the ground than attempt to beam it to the ground from space. The efficiency loss of beamed power is huge.

Why would you transfer the energy to earth? The energy powers ai compute = $

> It will also shift the local climate balance towards a more habitable ecosystem, enabling first vegetation and then slowly growing the rest of the food chain.

Depends on the deserts in question and knock-on effects: Saharan Dust Feeds Amazon’s Plants.

* https://www.nasa.gov/centers-and-facilities/goddard/nasa-sat...

Helping vegetation in one place to grow may hinder it somewhere else. How important this is still appears to be an open question:

* https://www.nature.com/articles/s43247-020-00071-w

I'm not sure if humans are wise enough yet to try 'geo-hacking' (we're already messing things up: see carbon dumping).

for solar panels that are say 25% efficient, that means 75% of optical energy is turned into heat, whereas the sand had a relatively high albedo, its going to significantly heat up the local environment!

Every time I hear stuff like this I think of Tim Curry just barely keeping it together during that one cut scene in Red Alert 3, except this time it's the ultra capitalists trying to corrupt space with capitalism.

https://www.youtube.com/watch?v=g1Sq1Nr58hM

Perhaps parent was being sarcastic.

Yup lol

It's worth noting that the EACTS can at maximum dissipate 70kW of waste heat. And EEACTS (the original heat exchange system) can only dissipate another 14kW.

That is together less than a single AI inference rack.

And to achieve that the EACTS needs 6 radiator ORUs each spanning 23 meters by 11 meters and with a mass of 1100 kg. So that's 1500 square meters and 6 and a half metric tons before you factor in any of the actual refrigerant, pumps, support beams, valve assemblies, rotary joints, or cold side heat exchangers all of which will probably together double the mass you need to put in orbit.

There is no situation where that makes sense.

-----------

Manufacturing in space makes sense (all kinds of techniques are theoretically easier in zero G and hard vacuum).

Mining asteroids, etc makes sense.

Datacenters in space for people on earth? That's just stupid.

The ISS consumes roughly 90kW. That’s about *one* modern AI/ML server rack. To do that they need 1000 m^2 of radiator panels (EACTS). So that’s the math: every rack needs another square kilometer of stuff put into orbit. Doesn’t make sense to me.

Asking for a friend (who sucks at thermodynamics:) could you use a heat pump to cool down the cold end more and heat up the hot end much higher? Heat radiation works better the higher the temperature?

It's a minor point but the Earth doesn't radiate all of that heat to equilibrium, that's why we have climate change.

The distinction is that what they are doing for Webb is trying to dissipate small amounts of heat that would warm up sensors past cryogenic temperatures.

Like on the order of tens or hundreds of watts but -100C.

Dissipating heat for an AI datacenter is a different game. A single AI inference or training rack is going to be putting out somewhere around 100kW of waste heat. Temps don't have to be cryogenic but it's the difference between chiselling a marble or jade statue and excavating a quarry.

That's a solution for minuscule amounts of heat that nevertheless disturb extremely sensitive scientific experiments. Using gold, no less. This does not scale to a crapton of GPU waste heat.

Anything is possible here, it's just there's no goddamn reason to do any of this. You're giving up the easiest means of cooling for no benefit and you add other big downsides.

It's scifi nonsense for no purpose other than to sound cool.

I'd be more interested in how they'll deal with radiation hardening than the cooling factor when compared to how the JWST currently handles it.

Sure it is, just not economically at that scale yet. But if Starship brings the cost to orbit down significantly, maybe.

We have radiators on the ISS. Even if you kept the terrible performance of those ancient radiator designs (regularly exposed to sunlight, simplistic ammonia coolant, low temperature) you could just make them bigger and radiate the needed energy. Yes it would require a bit of engineering but to call it an "unsolved problem" is just exaggerating.

> Bezos has been pushing manufacturing-in-space for a long time, as a ideal candidate for what to do in space that you might prefer to not do on Earth. Robotics, AI automation, manufacturing - combo it in space, let the robots manufacture for us in space.

LOL, this seems so far off from the reality of what manufacturing looks like in reality. - sending raw materials up there - service technicians are necessary ALL THE TIME, in fully automated production lines - sending stuff back down

Maybe I lack vision, but data centers in space is a 1000x times better idea and that is already a terrible idea.

When Bezos first mentioned drone delivery, many intelligent, serious people laughed at it and accused of Bezos running out of ideas as Amazon was stagnant

That is a fun thought experiment, as we wouldn't want to manufacture too far away from earth we may still be within the earth's atmosphere. I wonder what effect dumping greenhouse gases into the very upper levels of the atmosphere would have in comparison to doing it lower down. My assumption is it would eventually sink to a lower density layer, having more or less the same impact.

Hate to say this, but manufacturing bitcoin would make the most sense. And hard to see how even that would work.

What do you mean by Nope? Do you understand what Golden Dome is about?

Exactly, this is about attaching the AI hype bubble to all of his dealings before he offloads with an IPO (that still leaves him with 75% of the stock).

Seems a bit of both. But no disparagement to your floor mopping (as I once was a dishwasher in a commercial kitchen myself), but there's a big gap between cleaning a floor, or a dish, and creating frontier models and spaceships.

That said: I think solar is niche, and a moon-shot for how they want it. Nuclear is the future of reliable energy for human civilization.

I think the K-scale is the wrong metric. I don't think we should be trying to take all the sun's energy as a goal (don't blot out the sun! don't hide it in a bushel!), or as a civilizational utiltiy - I'm sure better power supplies will come along.

So, the much lauded xAI is overhyped, underwhelming and ... kind of evil? In stark contrast to every other AI company, I suppose?

And people are using it for revenge porn? I haven't seen that. I've just seen that grok pioneered really good deep web search, is less woke than other LLMs and grok imagine has really good video generation and pretty good image gen. Plus the X timeline feed is really good!

So I am a cultist and Elon is cult leader? I think the problem with that is they actually create value in terms of products that work and sell. A cult leader would be more about rhetoric and less about results, I guess? Why does Elon make you so mad?

I disagree, I think the idea of a cabal of reactionary comrades inside SpaceX is activist fantasy. I think SpaceX only does what it does with full committment of its people: mind, body, spirit.

I'm not aware of this - What's that?

Exactly. He can croon about DOGE all day, but the reality is his entire fortune was built on feeding at the trough of government largess. That's why he talks about Mars all the time. He's not stupid enough to think we could actually live there, but damn if he couldn't make a couple trillion skimming off the top of the world's most expensive space program.

Right, let's not forget that he's selling it to himself in an all stock deal. He could have priced it at eleventy kajillion dollars and it would have had the same meaning.

He's basically trading two cypto coins with himself and sending out a press release.

Salt water absolutely murders things, combined with constant movement almost anything will be torn apart in very little time. It's an extremely harsh environment compared to space, which is not anything. If you can get past the solar extremes without earths shield, it's almost perfect for computers. A vacuum, energy source available 24/7 at unlimited capacity, no dust, etc.

I can't see any reason to put them underwater rather than in a field somewhere. I think the space rationale is you may run out of fields.

> It's quite surprising the market still buys Musk's claims day after day.

More disturbing than surprising.

The deal they made values xAI at $230 Billion. It’s a made up number, with no trustworthy financial justification to back it up. It is set to provide a certain return to xAI’s investors (the valuation decides the amount you get per share), who in turn are bailing out the earlier acquisition of X (Twitter). All of this is basically a shell game where Elon is using one company to bail out another. It’s a way of reducing the risk of new ventures by spreading them out between his companies. It’s also really bad for SpaceX employees and investors, who are basically subsidizing other companies.

The thing is, everyone knows Elon is not a real CEO of any of these companies. There isn’t enough time to even be the CEO of one company and a parent. This guy has 10 companies and 10 children. He’s just holding the position and preventing others from being in that position, so he can enact changes like this. And his boards are all stacked with family members, close friends, and sycophants who won’t oppose his agenda.

He's bailing out one of his failing ventures with one of his so far successful ones. The BS napkin math isn't the reason he's doing it. It's the excuse for doing it.

Can you provide a link for that quote, because that quote is absolute stupidity.

"what if we move all our data center needs into my imagination, things are running so much smoother there"

Have you heard of cosmic radiation?

> Twitter had basically no downtime since he bought it

I'm sorry, but what? Not only has it had multiple half days of downtime, two full days+, but just two weeks ago had significant downtime.

https://www.thebiglead.com/is-x-down-twitter-suffers-major-o...

The sock puppet account is angry!

I went looking through your comments. 75% of them (and probably 90% in the lasst 2 years) were Elon related. Tesla, SpaceX, Grok, Twitter, DOGE, etc. Quite a lot of comments for 101 karma if I'm being real.

Why do you feel this kneejerk reaction to defend Elon and his companies? You'll never be him. He doesn't care about you. He'd use you for reactor shielding for an uptick in Tesla share price without a second's hesitation. This is cultish behavior.

Do you have any idea who you're defending? I'll give you just one example. A right-wing influencer named Dom Lucre uploaded CSAM to Twitter, a video. But he didn't just upload it. He watermarked it first so had it on his computer and then postporcessed it. It was I believe up for days. This was apparently a video so bad that mere possession should land you in prison. And the fact that the FBI didn't arrest him basically tells you he'd an FBI asset. After taking days to ban him, Elon personally intervened to unban him. Why? Because reasons.

And this is the same man who it's becoming clear was deeply linked with Jeffrey Epstein, as was his brother [1].

Bringing this back to the original point: this is why Twitter lost 80% of its value after Elon acquired it. Advertisers fled because it became a shithole for CSAM and Nazis.

As for "basically no downtime" that's hilarious. I even found you commenting the classic anecdote "it was fine for me" (paraphrased) on one such incident when Twitter DDOSed itself [2].

Your cultish devotion here is pretty obvious eg [3]. I'm genuinely asking: what do you get out of all this?

[1]: https://www.axios.com/local/boulder/2026/02/02/kimbal-musk-j...

[2]: https://news.ycombinator.com/item?id=36555897

[3]: https://news.ycombinator.com/item?id=42836560

Thank you. The waste heat problem is so bad but no one gets around to mentioning the fact that you can't have AI grade chips and space at the same time.

On the other hand, Tesla vehicles have similar hardware built into them, and don't require such hands-on intervention. (And that's the hardware that will be going up.)

eh? They're not gonna lay cable in space. The laser links will be retargetable.

Exactly; most of the world's problems are political problems.

Which Musk has no intention to fix, of course, because he's more about money and (buying) status with it. He had an opportunity but decided to aid the regime in extracting people's data instead (probably selling it to adversaries).

It's not like satellites need anything like computer chips, which are finicky things to build that require parts with a sole supplier on the entire planet.

>From lunar regolith you would extract: oxygen, iron, aluminum, titanium, silicon, calcium, and magnesium.

Do we actually know how to do that?

>From the poles

From the poles! So the proposal includes building a planetary-scale railway network on bumpy lunar terrain.

>The moon can supply mass, oxygen, fuel, and structure.

None of those are things we are hurting for down here, though.

> [...] and initial capital investment.

This is the big one - Musk knows that if he convinces enough people, they will invest the billions / trillions necessary, making him stupendously rich.

But anyone investing in that is... not a good investor, to be politically correct, because what's the expected return on investment? Who are the customers? What is the monetization? Or bar that, how does it benefit humanity?

It's throwing money down the drain. If you're an investor and are considering this, consider investing in earth instead. Real projects with real benefits. There's enough money to fix hunger, poverty, housing, education, and everything. Enough money to buy and / or fund politicians to make the necessary changes.

Power would almost certainly mostly come from solar panels. The SpaceX-xAI press release mentions using mass drivers which are electrically powered. Could make Hydrogen-Oxygen rocket fuel but not needed in Moon's lower gravity/thin atmosphere.

> The real constraint is not materials

It's solvents, lubricants, cooling, and all the other boring industrial components and feedstocks that people seem to forget exist. Just because raw materials exist in lunar regolith doesn't mean much if you can't actually smelt and refine it into useful forms.

You don't have to believe one's bullshit. You just have to believe others will believe the bullshit.

Yeah, I remember people saying that about making 1m model 3s per year, landing rockets, getting 10k+ satellite privately into orbit, and getting millions of subscribers using internet via those satellites.

Maybe just maybe the guy does actually get things done, and if you didn't hate him you'd see that?

(yes, there are some things he hasn't gotten done. That doesn't take away from what he has gotten done)

You know how people sometimes dismiss PV by saying "what happens at night or in cloudy weather?"?

Well, what happens over the course of a year of night and clouds is that 1 TW-peak becomes an average of about 110 to 160 GW.

We're making ~1 TW-peak per year of PV right now.

The 1TW is the rated peak power output. It's essentially the same in space. The thing that changes is the average fraction of this sustained over time (due to day/night/seasons/atmosphere, or the lack of all of the above).

It's still the same 1TW theoretical peak in space, it's just that you can actually use close to that full capacity all the time, whereas on earth you'd need to over-provision substantially and add storage, so 1TW of panels can only drive perhaps a few hundred GW of average load.

Funny, I would have included transportation as part of the installation cost. You didn't mention that one.

Yeah, soft costs like permitting and inspections are supposedly the main reason US residential solar costs $3/watt while Australian residential solar costs $1/watt. It was definitely the worst and least efficient part of our solar install, everything else was pretty straightforward. Also, running a pretty sizable array at our house, the seasonal variation is huge, and seasonal battery storage isn’t really a thing.

Besides making PV much more consistent, the main thing this seems to avoid is just the red tape around developing at huge scale, and basically being totally sovereign, which seems like it might be more important as tensions around this stuff ramp up. There’s clearly a backlash brewing against terrestrial data centers driving up utility bills, at least on the East Coast of the US.

The more I think about it, the more this seems like maybe not a terrible idea.

No maintenance either

We have so much excess land with no real use for it that our government actually pays farmers to grow corn on it to burn in cars.

Availability of land for solar production isn't remotely a real problem in the near term.

Realizing the impracticality of it (and that such approaches often collapse under the infeasibility of it) ... wouldn't it be better to... say... cover the Sahara in solar panels instead? That's gotta be cheaper than shipping them into space.

https://inhabitat.com/worlds-largest-solar-project-sahara-de...

https://www.theguardian.com/business/2009/nov/01/solar-power...

(and a retrospective from 2023 - https://www.ecomena.org/desertec/ )

the demand is pretty much fake and AI isn't actually making money, just gobbling investors money

Solar can always just go on the roof...

I think this is all ridiculous, to be clear, but re: this problem couldn't the radiators in theory be oriented so that they vent in opposite directions and cancel out any thrust that would be generated?

That's super interesting.

STC uses an irradiance of irradiance 1000W/m2, in space it seems like you get closer to 1400W/m2. That's definitely better, but also not enormously better.

Seems also like they are rated at 25C, I am certainly not a space engineer but that seems kind of temperate for space where cooling is more of a challenge.

Seems like it might balance out to more like 1.1x to 1.3x more power in space?

For one or a few-off expensive satellites that are intended to last 10-20 years, then yes. But in this case the satellites will be more disposable and the game plan is to launch tons of them at the lowest cost per satellite and let the sheer numbers take care of reliability concerns.

It is similar to the biological tradeoff of having a few offspring and investing heavily in their safety and growth vs having thousands off offspring and investing nothing in their safety and growth.

Sure but like, just use even more solar panels? You can probably buy a lot of them for the cost of a satellite.

And in geostationary, the planet hardly ever gets in the way. They get full sun 99.5% of the year.

even at 10% (say putting it on some northen pile of snow) it is still cheaper to put it on earth than launch it

I'm all for efficiency, but I would think a hailstorm of space junk hits a lot harder than one of ice out on the farm.

Except it doesn't melt like regular hail so when further storms come up you could end being hit by the same hail more than once :\

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

The two options there are cluttering up the dawn dusk polar orbit more or going to high earth orbit so that you stay out of the shadow of the earth... and geostationary orbits are also in rather high demand.

That's not what I'm suggesting. The post says "deep space". If you're going to try to harvest even a tiny percentage of the sun's energy, you're not doing that in Earth's orbit. The comparison is a webcam feed from Mars.

> it is possible to put 500 to 1000 TW/year of AI satellites into deep space, meaningfully ascend the Kardashev scale and harness a non-trivial percentage of the Sun’s power

Which satellites are operating from "deep space"?

> The intractable problem is heat dissipation.

3 times the area of the heat dissipating surface compared to solar panel surface brings the satellite temp down to 27 deg C (300 K):

https://news.ycombinator.com/item?id=46862869

> There is to little matter in space to absorb excess heat.

If that were true the Earth would have overheated, molten and turned to plasma long ago. Earth cools by.... radiative cooling. Dark space is 4 K, thats -267.15 deg C or -452.47 deg Fahrenheit. Stefan-Boltzmann law can cool your satellite just fine.

> You'd need thermal fins bigger than the solar cells.

Correct, my pessimistic calculation results in a factor of 3,...

but also Incorrect, there wouldn't be "fins" thats only useful for heat conduction and convection.

  >We can make ten or hundred times the number of solar cells we make right now

The limit isn't just about the current capacity or the maximum theoretical capacity, it's also about the maximum speed you can ramp.

you would need 200 times the number of solar cells. I don't think you appreciate the scale that 200x is, especially when China is already:

1. quite good at making solar cells

2. quite motivated to increase their energy production via solar

>In an interview with Robert Wright in 2003, Dyson referred to his paper on the search for Dyson spheres as "a little joke" and commented that "you get to be famous only for the things you don't think are serious" [...]

To be fair, he later added this:

>in a later interview with students from The University of Edinburgh in 2018, he referred to the premise of the Dyson sphere as being "correct and uncontroversial".[13] In other interviews, while lamenting the naming of the object, Dyson commented that "the idea was a good one", and referred to his contribution to a paper on disassembling planets as a means of constructing one.

Sources are in: https://en.wikipedia.org/wiki/Dyson_sphere

https://www.youtube.com/watch?v=fLzEX1TPBFM

Have you read the paper itself, not just summaries of the idea? It's obvious from the way he wrote it, dripping in sarcasm. Talking about "Malthusian principles" and "Lebensraum", while hand waving away any common sense questions about how the mass of Jupiter would even be smeared into a sphere around the sun, just saying that he can conceive of it and therefore we should spend public money looking for it. He's having a lark.

Also, he literally said it was a joke, and was miffed that he was best know for something he didn't take seriously.

It is a single page shit post.

He thought SETI listening to space radio waves was dumb, so made essentially a satirical paper saying we should look for heat instead, because "an advanced civilization would be using these Shells to capture all star energy, so we could only see the heat"

The "dyson sphere" was a made up and entirely unfounded claim, without justification.

He was throwing shade.

>> Dyson Sphere

> What do you think the limiting factor is?

You need to be able to harness enough raw material and energy to build something that can surround the sun. That does not exist in the solar system and we do not yet have the means to travel further out to collect, move, and construct such an incredibly huge structure. It seems like a fantasy.

There are only so many people who can make satellites; there are only so many things to make satellites out of; and there are only so many orbits to put them in. There are only so many reasons why a person might want a satellite. There are only so many ways of placing satellites in orbit and each requires some amount of energy, and we have access to a finite amount of energy over time.

Finally, if we limited ourselves to earth-based raw materials, we would eventually reach a point where the remaining mass of the earth would have less gravitational effect on the satellite fleet than the fleet itself, which would have deleterious effects on the satellite fleet.

Seven reasons are intuitive; I’m sure there are many others.

> What do you think the limiting factor is? I don't see why we can't scale manufacturing of satellites up as far as we want.

A reason. I'm sure that theoretically it's possible, assuming infinite money and an interest to do so. But literally, why would we? There's no practical ways to get the power back on earth, it's cheaper to build a solar field, etc.

And I don't believe datacenters in space are viable, cost wise. Not until we can no longer fit them on earth, AND demand is still increasing.

After a few decades, you need to start replacing all the solar panels.

And the robot army being used to do the construction and resource extraction will likely have a much shorter lifespan. So needs to be self-replicating/repairing/recycling.

The physical amount of material in the solar system is a pretty big limiting factor.

In 2026? Grift.

Tesla

You don't have to win them all.

>Robotaxi, your Optimus, your lunar lander, your space datacenter etc. And the list keeps getting longer instead of shorter...

Lets go through this one by one

[1]Robotaxi. Someone just drove coast to coast USA fully on autopilot. I drive my tesla every day, and i literally NEVER disengage autopilot. It gets me to work and back home without fail, to the grocery store, to literally anywhere i need. Whats not full self driving about that? I got in two crashes before i got my Tesla cause i was a dumb teen, but i'm sure my Tesla is a much better driver than my younger sister. Politically it's not FSD, but in reality, it has been for a while.

[2] Optimus has gone through three revisions and has hand technology that is 5+ years ahead of the competition. Even if they launched it as a consumer product now, i'm sure a million people would buy it just as a cool toy/ gadget. AKA a successfull product.

[3] Lunar Lander Starship, a fully reusable, 2 stage rocket that has gone through 25 revisions and is 95% flight proven and has even deployed dummy starlinks. 10+ years ahead of everyone except maybe stoke.

[4]Space Datacenter Have you ever used starlink? They have all the pieces they need... Elon build a giant datacenter in 6 monmths when it takes 3-4 years usually. He has more compute than anybody and Grok is the most intelligent AI by all the metrics outside googles. Combine that with Starship, which can launch 10X the capacity for 10% of the cost, and what reason do you have to doubt him here?

Granted... it always takes him longer than he says, but he always eventually comes through.

Yeah yeah, the person you dislike is stupid and the success of his multiple companies is just luck and everybody else does the work.

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We have 15,000 satellites in orbit that are almost literally the exact same premise currently being proposed - a computer with solar panels attached. We've being doing exactly this for decades.

> A single AI data center server rack takes up the same energy load of 0.3 to 1 international space station.

The ISS is powered by eight Solar Array Wings. Each wing weighs about 1,050kg. The station also has two radiator wings with three radiator orbital replacement units weighing about 1,100kg each. That's about 15,000 kg total so if the ISS can power three racks, that's 5,000kg of payload per rack not including the rack or any other support structure, shielding, heat distribution like heat pipes, and so on.

Assuming a Falcon Heavy with 60,000 kg payload, that's 12 racks launched for about $100 million. That's basically tripling or quadrupling (at least) the cost of each rack, assuming that's the only extra cost and there's zero maintenance.

His time estimates are notoriously, um, aggressive. But I think that's part of how his companies are able to accomplish so much. And they do, even if you're upset they haven't put a human on Mars fast enough or built one of his side quests.

"We specialize in making the impossible merely late"

Take the area of solar panels, multiply by 3, thats the area of black body thermal radiation surface. The sattelite will chillax to 27 deg C (300 K):

https://news.ycombinator.com/item?id=46862869

People always make this claim about world hunger elimination with no sources. Keep in mind we make more than enough calories to feed everyone on the planet many times over, it's a problem of distribution, of getting the food to the right areas and continuing cultivation for self sufficiency.

The US has district heating systems. The country is very big and varied, as much as people like to paint it as homogenous.

> I'd love to live in a dense city. My office within waking distance. A Cafe in my apartment building, etc.

Then move to one?

Data centers don't do anything other than sit there and turn electricity into heat. They only emit nothing but heat (which could be useful to others in the building).

> So 3 years ago they managed to get to 10% of the power budget of one data center by accident, using satellites not explicitly designed for that purpose, using a partially reusable launch platform with 1/10th the payload capacity of Starship. My point is they've already demonstrated they can do this at scale.

How was it by accident? You make it sound like it was easy rather than a total revolution of the space industry? To achieve 1/10th of what they would need for a single DC (and most industry leaders have 5 or 6)? Demonstrating they could generate power at DC scale would be actually standing up a gigawatt of orbital power generation, IMO. And again, this is across thousands of units. They either have to build this capacity all in for a single DC, or somehow consolidate the power from thousands of satellites.

> Then why does each satellite have a 6 kW solar array? Re-read that post I linked; the analysis is pretty thorough.

You're right, my bad. So they're only short like 6 orders of magnitude instead of 9? Still seems massively disingenuous to conclude that they've solved the heat transfer issue.

> Gen 3 is reportedly up to 1 Tbps ground link capacity, for one satellite.[1] There will be thousands.

Okay I'll concede this one, they could probably get the data up and down. What's the latency like?