← Back to context

Comment by monegator

17 days ago

yes musk said that, but that's retarded, a statement made to fill as many bingo spaces as possible

Yes but the statement is in fact a milestone to meet in order to vest Class B stock options, specifically SPCX needs to put 100 terawatts of compute [1] in outer space and beam it back to somewhere, my guess is Earth.

There's even more rewards for putting a million people on Mars and reaching a market cap of 7.5T by a certain date. Oh yeah he has to stay employed too.

From the SEC Form 3 filed June 12th: 1) This Form 3 does not include 1,302,072,285 shares of restricted Class B Common Stock issued to and held of record by the Reporting Person, which may be voted by the Reporting Person, and the vesting of which is subject to the satisfaction of certain performance and other conditions. 1,000,000,000 shares of restricted Class B Common Stock vest upon (i) the Issuer's achievement of specified market capitalization milestones across 15 equal tranches ranging from $500 billion to $7.5 trillion, with each milestone reflecting $500 billion in additional valuation, and (ii) the Issuer's establishment of a permanent human colony on Mars with at least one million inhabitants, in each case, subject to the Reporting Person's continued employment ("SpaceX CEO Award"). 302,072,285 shares of restricted Class B Common Stock vest upon (i) the Issuer's achievement of specified market capitalization milestones across 12 equal tranches ranging from $1.065 trillion to $6.565 trillion, with each milestone reflecting $500 billion in additional valuation, and (ii) the Issuer's completion of non-Earth-based data centers capable of delivering 100 terawatts of compute per year, in each case, subject to the Reporting Person's continued employment ("AI CEO Award")

Why is this the case? I want him to be correct, but I am also skeptical.

  • > I want him to be correct

    Why?

    If you're curious, I explained why space data centers are such an irredeemably stupid idea in my eyes a few comments up.

    • Why? Why not? Why wish failure upon someone who is trying to do something “good?”

      I haven’t read your other comment yet and plan to, but it seems weird to seemingly wish ill on someone’s grand plans.

The way people just casually use that word again now is so sad. And I don't even mean that in an "I'm offended" way, but more of "I'm embarrassed by the way you're trying to be offensive" way.

  • > I'm embarrassed by the way you're trying to be offensive

    Oooor, try this one on for size:

    What if they're not out to cause offense and the malice you impute is just an illusion under which you yourself are laboring alone? What if it was a well understood and not particularly offensive vernacular usage from before people decided they ought to spend their time being offended on behalf of hypothetical listeners?

    • Why use a word that has some offensive quality to it when other words would be just as effective in communicating whatever you're trying to communicate? You're actively making a decision that you know will cause some level of offense. So the only conclusion I can make is that some level of offense is intended.

      11 replies →

  • oh, no it's exactly as jimmy valmer puts it, there is nothing against mentally disabled people, it is just it's something so stupid that one can't even decide were to start to describe all the points in which is stupid, so stupid doesn't possibly cut it

    • If you can't think of any other intensified synonyms for "stupid", you just might be...

  • Ironically, we can thank Elon Musk for that too.

    edit: Gross that you're being downvoted. HN crowd needs a serious look in the mirror.

    • Bringing back and pinning the word to not derail the discussion of "mental illness", "mental handicap", "slow learner", etc or its use as an offensive?

      I think the main issue is that no matter which word/phrase is used, some people will use it as a slur, and changing it so often causes more issues than it solves.

  • For what it’s worth, I’m not trying to be offensive or edgy when I say that word with friends. “The grass is green and that thing (random topic) is retarded.”

    • You know that many people are offended by that word and yet you use it anyway when other words would get the exact same message across without the offense. The only reasons to use that specific word are either the desire to cause offense or to revel in the possibility of causing offense.

      1 reply →

There's no need to use slurs.

  • Musk himself has identified as such: “For the record, I am a fat retard.”

    So, that is in fact, his word.

    • If someone refers to themselves by a particular slur, that does not grant you any social leniency to call them that too. Consider that exact situation with any other particular slur.

      1 reply →

    • Musk using a slur about himself doesn't grant permission for others to use it. Would monegator have used the n-word if Musk had used it to describe himself? Hopefully not. And let's be honest with each other: Musk says things like this for shock value, because it's not an acceptable word.

Energy will be the biggest bottleneck to data centers on land. Is not an issue in space. Space is the perfect env for running compute.

  • Space is an abysmal environment for running compute. It offers no real advantages over doing the same thing on Earth, and it's more expensive, too! Energy is far cheaper and more abundant here than in space. And get ready to figure out things like:

    - Heat dissipation

    - Radiation shielding

    - Either the most complex in-space construction ever undertaken, or the most complex distributed computing problem ever undertaken (no, Starlink satellites aren't good enough, we're orders of magnitude away from replicating the speed and reliability of connections within a single room)

    - Zero flexibility, zero repairability, zero upgradability. Either it's working, or you make it burn up in the atmosphere with no in-between. Add on that the rationality of sending mountains of precision-manufactured tech containing many uncommon metals only for them to be completely lost. This makes the pricing even worse, in addition to

    - Already high costs for designing, building and launching all that in addition to all the extra weight overhead you're taking in components that don't do computation, when the alternative is building a glorified warehouse in the middle of nowhere.

    It just doesn't make any sense. It's a project tied up in hype and created solely so spaceflight can be hastily duct taped to the AI investment hysteria. Ask yourself why no one brought this up before or outside the context of AI, despite the lowering of space launch prices and data centers both existing before any of it.

    • > why no one brought this up before or outside the context of AI

      AI compute is different (slightly higher latency is fine for inference, and there's no issue for training), and there has never been so much backlash against data centers or other infrastructure buildout. If an increasingly-non-minority of politicians get their way it will in fact be cheaper and faster to get some servers shipped to space than it will be to get the permits and build it out here on earth.

      Also, most Datacenter maintenance is just dealing with the problems you see with space- power and cooling. Solar is 5x better in space and a lot more consistent. Here on land they're shutting down nuclear and imposing so many new regulations on gas and coal (and now on solar and wind) that there aren't many grids that can support growth at the scale that's being requested.

      Nobody is claiming that all compute is going to space, which is what you seem to think you're arguing against. There's high-dollar demand for it right now, so if we want to be multi-planetary it's the perfect time to start tackling the "compute in space" problem that needs to be solved. Or you need to prove to future people that "All compute can be forever located on Earth" which seems a lot harder sell.

      2 replies →

    • Assume reusable spaceflight eventually brings launch cost close to the cost of fuel. This is close to happening.

      The overhead of building out grid and power infrastructure on land would then exceed the installation speed and cost relative to space based deployments.

      Also assume the compute that does make it to space has a short shelf life anyways so lack of ability to repair is a non issue. As we scale manufacturing on land this will increasingly be the case.

      China has already run experiments and served models from space, so we know the heat dissipation equation is solvable.

      Finally you’d arrive at a similar model that’s already proven successful with Starlink but applied to serving inference.

      The key question is speed to scale new deployments to meet demand. If the markets demand is near infinite, they will choose to fund space based deployments over slower land deployments.

      1 reply →

    • Energy is not cheaper on earth. Solar in space gets 24/7 power at a 30%+ rate vs the surface. Radiative cooling is passive and cheaper because there are no HVACs or chillers and high temperature chips reduce the need. The ISS does this already. Radiation really isn't a big issue with ECC and redundancy and optical links are fine for batch training.

      The only hard part making the math work is the launch cost. They need reusable and reliable starship economics. If they hit that goal, it will become cheaper for pre-training, which is 70%+ of the budget for the frontier models.

    • > It offers no real advantages over doing the same thing on Earth

      Abundant solar energy, free real estate, less regulation, less backlash from NIMBYs, simpler (yes) cooling.

      > Energy is far cheaper and more abundant here than in space.

      Huh? The sun is obviously the most abundant source of energy in the solar system.

      Satellites in a dusk dawn sun synchronous orbit can be fully illuminated 24/7, so they receive ~6x more solar energy than panels on earth. They also don’t need batteries to operate 24/7, and the panels don’t need glass to deflect hail.

      > Heat dissipation

      Yes, it will require large radiators. They’re mechanically simpler than terrestrial cooling though.

      > Radiation shielding

      It turns out generative AI is somewhat uniquely robust to occasional bit flips.

      - Either the most complex in-space construction ever undertaken, or the most complex distributed computing problem ever undertaken (no, Starlink satellites aren't good enough, we're orders of magnitude away from replicating the speed and reliability of connections within a single room)

      It won’t be a single structure, and will only be used for inference, so latency between satellites/racks doesn’t matter.

      - Zero flexibility, zero repairability, zero upgradability. Either it's working, or you make it burn up in the atmosphere with no in-between. Add on that the rationality of sending mountains of precision-manufactured tech containing many uncommon metals only for them to be completely lost. This makes the pricing even worse, in addition to - Already high costs for designing, building and launching all that in addition to all the extra weight overhead you're taking in components that don't do computation, when the alternative is building a glorified warehouse in the middle of nowhere.

      I think people vastly underestimate how much a fully reusable Starship will change the economics of space operations.

      Not only the initial launch costs, but things like refueling and repairing satellites becomes more economical. I wouldn’t be surprise if SpaceX sends Starships to refuel/maintain satellites to keep them in orbit longer. In fact, SpaceX’s own animation shows modular servers sliding in and out of the satellites.

  • Space-grade photovoltaics are >10x more expensive than ground based panels. Add some (Tesla) utility scale batteries and it can run 24/7. No need for expensive radiators or rocket launches. And personnel can upgrade the hardware every time there's a new generation of GPU's.

    Putting datacenters in deserts around the equator is a much better idea than in Space. If you're really optimizing for cost that is. If you're optimizing for SpaceX meme-stock valuation the former wins