This is a linkpost for https://openasteroidimpact.org/

“That which does not kill us makes us stronger.”

Hillary Clinton, who is still alive

 

I'm proud and excited to announce the founding of my new startup, Open Asteroid Impact, where we redirect asteroids towards Earth for the benefit of humanity. Our mission is to have as high an impact as possible.

Below, I've copied over the one-pager I've sent potential investors and early employees: 

Name: Open Asteroid Impact

Launch Date: April 1 2024

Website: openasteroidimpact.org

Mission: To have as high an impact as possible

Pitch: We are an asteroid mining company. When most people think about asteroid mining, they think of getting all the mining equipment to space and carefully mining and refining ore in space, before bringing the ore back down in a controlled landing. But humanity has zero experience in Zero-G mining in the vacuum of space. This is obviously very inefficient. Instead, it’s much more efficient to bring the asteroids down to Earth first, and mine it on the ground.

Furthermore, we are first and foremost an asteroid mining *safety* company. That is why we need to race as fast as possible to be at the forefront of asteroid redirection, so more dangerous companies don’t get there before us, letting us set safety standards.

Cofounder and CEO: Linch Zhang

Other employees: Austin Chen (CTO), Zach Weinersmith (Chief Culinary Officer), Annie Vu (ESG Analyst)

Board: tbd

Competitors: DeepMine, Anthropocene 

Valuation: Astronomical

Design Principles: Bigger, Faster, Safer

Organizational Structure: for-profit C corp owned by B corp owned by public benefit corporation owned by 501c4 owned by 501c3 with a charter set through a combination of regulations from Imperial France, tlatoani Aztec Monarchy, Incan federalism, and Qin-dynasty China to avoid problems with Arrow’s Impossibility Theorem 

Safety StatementMitigating the risk of extinction from human-directed asteroids should be a global priority alongside other civilizational risks such as nuclear war and artificial general intelligence

You can learn more about us on our website

Comments13
Sorted by Click to highlight new comments since:

Nice one - given the obvious precedent, you should be all good getting 50 million or so from OpenPhil for starters, then hopefully the market will take you from there to serious impact.

As a minor side question, I'm not quite sure how you will achieve "high" impact. With my limited knowledge, the impact of asteroids is usually rather low, at something close to ground level. Perhaps aiming for the top of Mt. Everest might be a good start?

@Alexander_Berger Happy to explore a win-win-win opportunity! We are already in communications with VCs, but we'd love to get some philanthropic interest as well! Not donating to us will be an astronomical waste.

For $50M, we'd even consider giving you a permanent seat on our Board of Concurrers!

Now that April Fools' day has passed, I feel compelled to say that the analogy to AI development here is not very good. The joke is good, but the analogy is not.

(You might think we shouldn't generally criticize April Fools' day analogies, but I disagree. They're good fun, but many people also take them seriously. For example, in 2022 MIRI's post about Death with Dignity appeared to be taken seriously by many.)

The current value added to the economy from minerals is worth less than 1% of total Gross World Product. In other words, the scarcity of minerals (such as metal ores) is simply not a big factor bottlenecking economic value in the world. As a result, mining asteroids for their minerals and bringing them back to Earth, even if it could be done profitably, would likely not result in much improvement to human welfare. [ETA: In response to pushback, I want to clarify that my argument assumes that minerals are not excellent substitutes for other things in the world, which I think is true, but I agree I handwaved this detail away.]

By contrast, AI has a much larger potential to make people better off. If AI can substitute for researchers and labor more generally, it could likely make vast improvements to medicine, and raise material well-being by several orders of magnitude, extending human lifespan and welfare in a way that would be unprecedented in human history.

The analogy to asteroid mining therefore makes a comparison between something that has both immense upside and downside potential, to something that largely only has downside potential (at least in the way discussed here), without much corresponding upside. This comparison seems misleading to me.

I've spoken previously about how omitting the upside potential from AI is a misleading rhetorical tactic in this comment.

I think you're basically right[1], but make a pretty wrong argument:

The current value added to the economy from minerals is worth less than 1% of total Gross World Product. In other words, the scarcity of minerals (such as metal ores) is simply not a big factor bottlenecking economic value in the world. As a result, mining asteroids for their minerals and bringing them back to Earth, even if it could be done profitably, would likely not result in much improvement to human welfare. 

Sure, but SOTA generative AI is also currently a small fraction of GDP. The relevant question is how much it would advance GDP/welfare if made extremely cheap/abundant. It think the fraction of GDP on mineral rents is only a mediocre proxy for how much of a bottleneck it is.

(I agree that a natural reference class for generative AI is "all human labor", but we can also draw a reference class for minerals like "all things which are at all constrained by materials cost".)

I think making all minerals nearly free would result in a large increase in GDP though I agree the delta is much smaller than for AI. Minimally, you can make gold free and gold has a $15 trillion mkt cap. (Unclear how much we should care about the welfare benefits of gold though...)

  1. ^

    Though I don't know about the claim about misleading rhetorical tactics. I'm pretty unsure here, people often due emphasize and mention benefits if they think that benefits are likely. (And people who place very high probability on catastrophe don't think this is likely. I personally think massive benefit is >50% likely.)

Sure, but SOTA generative AI is also currently a small fraction of GDP. The relevant question is how much it would advance GDP/welfare if made extremely cheap/abundant.

The fact that it's a small fraction of GDP indicates that it's not a big bottleneck to creating consumer value. This applies to both (current) SOTA AI and minerals.

If value were critically bottlenecked by some key resource, then producers of that resource could charge high prices for it, or consumers could try to purchase it in larger quantities, pushing up its contribution to GDP. The fact that minerals are sold for relatively cheap relative to the rest of the economy indicates they aren't a very important input, in the sense of bottlenecking consumer value [ETA: assuming they aren't ~perfect substitutes for other goods]. This is not true for things that do take up lots of GDP, like healthcare and housing.

Regarding your specific point: I expect current SOTA generative AI would continue to be a small fraction of GDP even if it were made 10x or 100x cheaper (in terms of inference cost). Do you disagree?

I think making all minerals nearly free would result in a large increase in GDP though I agree the delta is much smaller than for AI. Minimally, you can make gold free and gold has a $15 trillion mkt cap.

Gold is almost entirely used as a store of value rather than a generator of value. As a result, the net welfare effect of mining gold is probably either slightly positive, or negative depending on the cost of mining it. Doubling the supply of gold would be like doubling the supply of Bitcoin: it would result in a windfall to whoever got the new supply, but would make all previous holders of Bitcoin poorer. These effects cancel each other out; it's a zero sum game.

Real (social) wealth generation is achieved by creating valuable goods and services that satisfy human preferences. This mainly involves utilizing labor and capital to create technology, manufacture items, or provide professional services. Wealth does not primarily come from the amount of raw resources available in the world.

I agree with everything you wrote in your comment, but I'm still not sure I buy the claim:

The fact that it's a small fraction of GDP indicates that it's not a big bottleneck to creating consumer value.

I agree it correlates and is evidence, but I still think that the exact claim is easy to counterexample.

In particular, I think the argument you make ignores substitutes. E.g., suppose that quinoa became 1000x cheaper in all regions (cheaper than even current transportation costs). I think quinoa as a fraction of GDP would grow massively despite quinoa currently being a small fraction of GDP. For sufficient reductions in cost, we'd start using quinoa for totally different purposes, e.g. burning it as fuel.

You can also construct toy cases where a given industry/sector is 0% of GDP, but if the price halved, then it would be >50% of GDP due to substitution effects.

It's probably not worth getting into this further.

Regarding your specific point: I expect current SOTA generative AI would continue to be a small fraction of GDP even if it were made 10x or 100x cheaper (in terms of inference cost). Do you disagree?

I don't disagree with this. Yeah, my generative AI example wasn't great and conflated "cheapness is a quality of its own" with the notion of quality itself. What I should have said is that if generative AI training and inference was made 1000x cheaper then generative AI would greatly boost GDP (same as the quinoa case). (Though I agree the analogy is now less tight.) 

Or more precisely, if ML GPUs were made 1,000,000x more powerful (at the same cost and energy) (for an overall 1,000,000x reduction in flop/$), this would be reasonably likely to massively increase GDP despite not currently being that high a fraction of GDP (still <1% I think?).

I agree it correlates and is evidence, but I still think that the exact claim is easy to counterexample.

In particular, I think the argument you make ignores substitutes. E.g., suppose that quinoa because 1000x cheaper in all regions (cheaper than even current transportation costs). I think quinoa as a fraction of GDP would grow massively despite quinoa currently being a small fraction of GDP.

Sorry for handwaving some details away: I agree you can construct toy models in which the claim is not true. I think in pretty much any realistic CES production function you construct (and trivially in Cobb-Douglas functions), the substitution effect will not be strong enough to outweigh this consideration for minerals. The essential quantity here is the elasticity of substitution, and more specifically, how substitutable the item is for other things in the economy. 

Minerals are not great substitutes for lots of things in the economy: they can't be eaten, they can't be used as fuel, they can't substitute for labor etc. As they become more abundant, I expect the income effect and substitution effect will roughly cancel out, causing their contribution to GDP to neither rise nor fall by much.

I asked GPT-4 to demonstrate the precise effect on total utility of a good falling in price by a factor of a million in two separate toy models, if you're interested (the conversation is here). But ultimately I agree my language was a bit sloppy and you're right to point out that there are worlds in which the claim I made is technically not true. (I guess I should have stated it less confidently too.)

We have sympathies towards both movements, and consider ourselves to take the middle path. We race forward and accelerate as quickly as possible while mentioning safety.

Mentioning safety is a waste of resources that you could direct toward attaching propulsion to asteroids to get them here faster.

In fact, asteroids will inevitably hit earth earlier or later, and if they kill humanity, clearly they are superior to humanity. The true masters of our future lightcone are the asteroids. That which can be destroyed by asteroids ought to be destroyed by asteroids.

True progress is in speeding the inevitable. Resistance is futile.

This is a shockingly good website for a...hmmm... April 1st initiative. Looking forward to your impact, great work team!

I'm definitely not looking forward to their impact...

We hope to impact humanity and even steer Earth's trajectory! 

Thanks for the announcement, Linch and Austin!

Pitch: We are an asteroid mining company. When most people think about asteroid mining, they think of getting all the mining equipment to space and carefully mining and refining ore in space, before bringing the ore back down in a controlled landing. But humanity has zero experience in Zero-G mining in the vacuum of space. This is obviously very inefficient. Instead, it’s much more efficient to bring the asteroids down to Earth first, and mine it on the ground.

I and some other researchers concluded in a 116 page report from 4 years ago that doing the mining on Earth is not profitable. Sorry for only letting you know now. The prospective funders told me that publishing the report would be an infohazard. I do not remember the exact reasons, but I do recall them saying the public information about the investigation must not exceed 1 paragraph.

People who prefer short videos to longform text might enjoy SereneDesiree's interview of me talking about Open Asteroid Impact's work:

We covered: 

  • Our mission to have as much impact as possible and reshape the Earth
  •  OAI's approach to safety 
  • Competitors 
  • Our commitment to DEI
  • Our windfall clause
More from Linch
Curated and popular this week
Relevant opportunities