List of disagreements in AI safety

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This is a list of disagreements in AI safety which collects the list of things people in AI safety seem to most frequently and deeply disagree about.

Many of the items are from [1] (there are more posts like this, i think? find them)

organization of this list: the most decision-relevant questions appear as sections, and in each section, the top level of questions together answer the question. sub-level questions answer the top level question, and so forth.

an alternative organization for these disagreements (which this page doesn't follow) would be to collect all the most basic (innermost) sub-questions; these are the "cruxes", i.e. the minimal set of of questions which determine the answers to all the other questions.

part of what i find frustrating about many of these discussions is that there are very few examples that they use (humans vs chimps, alphago, and a couple others might be the main sources of concrete evidence?), since the disagreement is about future superintelligent systems/the nature of intelligence (which, if we understood very well, means we could build AGI today). the disagreements often seem to boil down to differences in intuition, which is hard to tinker with from the outside (i.e. if i don't have access to eliezer/paul's brain, it's not too clear to me what i can even do to make progress on these disagreements, besides going out and learning a ton of technical fields to build intuition).

meta point (HT david manheim): some/most of these disagreements might just be definitional confusions (e.g. people disagree on what they mean by "transformative AI" or whatever).

AI timelines

  • will current ML techniques scale to AGI?
  • how expensive will it be to run the first AGI?
  • is prosaic AI possible? see [1] for a post arguing against.
  • what the first AGI will look like
  • intelligibility of intelligence [2]
  • the questions listed at
  • humans vs chimps? -- what does this question do for us here? basically, the more special human brains are, the longer we would expect to get to AGI.
  • weird anthropic stuff that could change things? (e.g. we are more likely to find ourselves in worlds where "evolution got lucky" and produced human-level intelligence relatively quickly. I think carl has a paper about this.)
    • "How special are human brains among animal brains?" [3] This has sub-questions like:
      • Is language the only special thing about humans?
      • How hard is it to master language using general cognitive capacities, and why don't other animals use language like humans do?

Probability of doom

  • civilizational adequacy
  • probability of doom without any special EA/longtermist intervention
  • prior on difficulty of alignment (there is [4] but it looks like the page only defines what "difficulty" means, and doesn't actually go on to discuss whether we should expect it to be difficult), and ideas like "if ML-based safety were to have any shot at working, wouldn't we just go all the way and expect the default (no EA intervention) approach to AGI to just produce basically ok outcomes?"
  • how likely optimization daemons/mesa-optimizers are or what they will look like
  • how solvable are coordination problems? e.g. how avoidable is a "race to the bottom" on safety?
  • how strong of a guarantee do we need for the safety of AI? proof-level (does anyone actually argue this?) vs security mindset vs whatever ML safety people believe
  • how much weight to put on asymmetry of risks?
  • will there be small-scale AI failures prior to the end of the world?
  • how likely is a treacherous turn/context change type of failure?
  • how much overlap is there between AI capabilities work and safety work? (e.g. is it reasonable to say things like "making progress on safety requires advancing capabilities"?)
  • whether we can correct mistakes when deploying AI systems as they come up (i.e. how catastrophic the initial problems will be)
  • will failure be conspicuous/obvious to detect? e.g. see [5] for one scenario where even under a continuous takeoff, failure might not be obvious until the world ends.
  • under continuous takeoff, if we had misaligned AGIs (but the world hasn't ended yet) and could easily tell they were misaligned, how easy would it be to create an aligned AGI? [6]
  • what the first AGI will look like
  • to what extent AGI safety will look like "security mindset" vs "lots of little engineering problems", e.g. see [7]
  • intelligibility of intelligence [8]
  • how much weight to place on accidents vs misuse vs social side effects? e.g. dario seems to weight these pretty equally [9] whereas i think eliezer is much more worried about the accidents.

Takeoff dynamics

(shape and speed of takeoff, what the world looks like prior to takeoff)

  • Will there be significant changes to the world prior to some critical AI capability threshold being reached?
    • what precursors/narrow systems we will see prior to AGI
    • how short is the window between "clearly infrahuman" and "vastly superhuman" for important real-world tasks like "doing AI research" and "building nanobots"? See also Kasparov window. For example rohin says [10] "I think we will first build powerful AI systems that are not that much more powerful than humans, and that direct alignment of ML techniques will be sufficient to make that safe (even though they do pose an x-risk)." (which there is some significant window where we have superhuman-but-not-vastly-superhuman AI)
  • Is there a secret sauce for intelligence? how many/how "lumpy" are insights for creating an AGI? I think this has also been described as "whether AGI is a late-paradigm or early-paradigm invention" [11] (if I'm understanding what they mean by "early/late-paradigm")
    • "the degree of complexity of useful combination, and the degree to which a simple general architecture search and generation process can find such useful combinations for particular tasks" [12]
  • Content sharing between AIs: how much sharing/trading there will be between different AI companies (eliezer vs Robin Hanson) -- this one is downstream of lumpiness of insights, because hanson expects that if there are very few insights needed to get to AGI, then there won't be any need for sharing (so in that case even hanson would agree with eliezer).
  • decisive strategic advantage / is it possible to turn a small lead in AGI development into a big lead?
    • discontinuity/unipolarity/locality
    • DSA without discontinuity
  • whether we are already in hardware overhang / other "resource bonanza". So whether we are in overhang depends on whether future early AGI systems can make use of existing resources much more efficiently, which means overhang has a dependence on whether few insights are needed to get to AGI? More precisely, there's a feedback loop, where resource overhang amplifies any existing discontinuity.
  • what lessons can we learn by looking at the evolutionary history of chimps vs humans?
  • what lessons can we learn from AlphaGo?
  • to what extend "recursive self-improvement" is a distinct thing, as compared with just "AIs getting better and better at doing AI research" [13] "If you imagine steady improvement in the self-improvement, that doesn't give a local team a strong advantage." [14]
  • how expensive will the development of the first AGI be? e.g. "a small team of researchers can create AGI" vs "a large company/many teams of researcher will be needed"
  • how expensive will the training of the first AGI be? "you can run AGI on a modern desktop computer" vs "the first AGI project will need to raise a huge amount of money, because training will be so expensive"
  • how expensive will it be to run the first AGI?
    • e.g. Eliezer: "When we try to visualize how all this is likely to go down, we tend to visualize a scenario that someone else once termed "a brain in a box in a basement." I love that phrase, so I stole it. In other words, we tend to visualize that there's this AI programming team, a lot like the sort of wannabe AI programming teams you see nowadays, trying to create artificial general intelligence, like the artificial general intelligence projects you see nowadays. They manage to acquire some new deep insights which, combined with published insights in the general scientific community, let them go down into their basement and work in it for a while and create an AI which is smart enough to reprogram itself, and then you get an intelligence explosion." [15]
  • what will failure look like? yudkowskian takeover vs paul's "we get what we measure, and our ability to get what we specify outstrips our ability to measure what we truly want" vs paul's influence-seeking optimizers/daemons vs ...
  • speed of improvement/discontinuities/recursive self-improvement once the AI reaches some critical threshold (like human baseline)
  • whether hardware or software progress is more important for getting to AGI. see hardware-driven vs software-driven progress
  • how important it is to get the right architecture e.g. "That is what I meant by suggesting that architecture isn’t the key to AGI." [16]. There is Dario Amodei's comment here which is the opposite view.
  • "I think the key disagreement is instead about where the main force of improvement in early human-designed AGI systems comes from — is it from existing systems progressing up their improvement curves, or from new systems coming online on qualitatively steeper improvement curves?" [17]
  • how simple is human intelligence? [18] asks the question, but idk if there are disagreements or if anything is even known.
  • "Put another way, to achieve this scenario [i.e. foom] a project just can’t specialize at being better at “intelligence” or “learning” - those aren’t in fact topics in which one can usefully specialize much. The project has to instead be better at thousands of specific kinds of intelligence or learning. Which conflicts with it starting out as a small project." [19] Another way to state this: "scope of generality of architectural advances" [20]
    • Wei: "The biological von Neumann's brain must have been architecturally very similar to a typical university professor's. Nor could it have contained independent improvements to lots of different modules. Given this, I speculate that obtaining the analogous improvement in AI intelligence may only require a few design tweaks, which a relatively small project could find first by being luckier or a bit more talented than everyone else." [21]
  • Will AI researchers be optimizing for intelligence/capability directly, or will they be using a proxy? [22] -- the more we expect a proxy, the closer we get to something like what evolution was doing, and the more we should expect a discontinuity. The generic economic argument of "before a good version comes out, someone will build a crappy version first" works for whatever is being optimized directly. Paul says "researchers probably will be optimizing aggressively for general intelligence, if it would help a lot on tasks they care about" [23]. But I agree with tristanm that it would be good to say more about how researchers would be optimizing directly for general intelligence, rather than a proxy.
  • splitting things by wall clock time vs subjective time, and also splitting by (1) how much of a lead the leading team needs to have decisive strategic advantage and (2) how much time we have between capabilities event X and having to solve alignment problem Y (for various values of X and Y)
  • "Hanson and Yudkowsky also disagree on the extent to which an AI’s resources might be local as opposed to global, the extent to which knowledge is likely to be shared between various AIs, and whether an intelligence explosion should be framed as a “winner-take-all” scenario." [24]
  • historical developments (e.g. agriculture, industrial revolution, development of specific technologies) have never led to a single entity taking over the world. [25]

Specific lines of work

Highly reliable agent designs

How promising is MIRI-style work (HRAD, agent foundations, embedded agency)?

(I think Paul's view is something like "this is fine to work on, but there isn't enough time and my agenda seems promising" whereas other people are more like "I don't see how MIRI's work even helps us build an AGI")

See also MIRI vs Paul research agenda hypotheses

  • can MIRI-type research be done in time to help with AGI? see this comment and [26]
  • how doomed is MIRI's approach? i.e. if there turns out to be no simple core algorithm for agency, or if understanding agency better doesn't help us build an AGI, then we might not be in a better place wrt aligning AI.
  • will AGI be agent-like? See also Comparison of terms related to agency
  • whether an AGI will look like a utility maximizer? See also Comparison of terms related to agency
  • will AGI appear rational to humans? (efficient relative to humans)
  • intelligibility of intelligence [27] -- there's like two ways this could be false: (1) intelligence turns out to be lots of specific adaptations to specific problems (i think this is what tooby and cosmides were arguing); or (2) intelligence turns out to be more like a collection of different tools in a tool box (the tools don't solve specific problems, they're more general than that, but the more tools you have, the more things you can build) [28]
  • Something like realism about rationality
  • deep insights needed to build an aligned AGI? see also Different senses of claims about AGI i.e. it might not require deep insights to build any old AGI, but still require deep insights for an aligned one.
  • will early advanced AI systems be understandable in terms of HRAD's formalisms? [29]
    • lack of historical precedent at applying "complete axiomatic descriptions of AI systems" to help design AI systems [30]
    • lack of success so far at using complete axiomatic descriptions for modern ML systems [31]
    • what will early advanced AI systems look like?
  • how convincing historical examples are (e.g. Shannon, Turing, Bayes, Pearl, Kolmogorov, null-terminated strings in C [32], [33] [34], Eliezer also brings up the Shannon vs Poe chess example) See also selection effect for successful formalizations.
  • maybe something like, how important is understanding what's going on / how much weight do you place on curiosity-driven research. e.g. [35]

Machine learning safety

How promising/doomed is ML safety work / messy approaches to alignment (including Paul's agenda)? e.g. see discussion here -- How doomed are ML safety approaches?

See also MIRI vs Paul research agenda hypotheses

  • whether "weird recursions" / "inductive invariants" are a good idea -- my impression is something like, paul is like "why not try it?" and eliezer is like "ehhhh..."
  • something like, if paul's approach can work, then why can't we stop at some intermediate stage to do WBE or make an aligned AGI via MIRI-like stuff instead? (i guess there isn't enough time?) -- eliezer raises this or a similar question "but then why can't we just use this scheme to align a powerful AGI in the first place?" [36]
  • to what extent are act-based agents even a thing? (i.e. do they just turn into goal-directed thingies?)
  • to what extent doing something like "predict short-term actions humans would want, if they had a long time to think about it" leads to optimization of malignant goals, rather than mostly harmless errors. [37] -- i think this one might be essentially the same as broad basin of corrigibility.
  • how much safety you gain by having the human programmers specify short-term tasks, rather than the AI predicting what short-term tasks the programmers would have specified if they had more time to think about it. [38]
  • whether there is a basin of attraction for corrigibility
  • importance of X and only X problem (can we get a system to do X, without also doing a bunch of other dangerous Y?) -- isn't this basically unalignment due to mesa-optimization?
  • how big of a problem collusion between subsystems of an AI will be
  • competence gap:
    • to what extent paul's approach looks like humans trying to align arbitrarily large black boxes ("corralling hostile superintelligences") vs humans+pretty smart aligned AIs trying to align slightly large black boxes (this is actually somewhat analogous to Rapid capability gain vs AGI progress, where again eliezer is imagining some big leap/going from just humans to suddenly superhuman AI, whereas paul is imagining a more smooth transition that powers his optimism). In other words, how much easier is it to align large black boxes if we have pretty smart aligned AIs to help us? [39] [40]
    • in a situation where AI algorithms are creating other AI algorithms (this includes recursive self-improvement, but is also more general/relaxed), to what extent will the AI be helping with alignment (rather than just pushing forward capabilities)? how big will the "competence gap" be? [41] [42] If there is a big competence gap, this leads to the situation Nate described [43]: "your team runs into an alignment roadblock and can easily tell that the system is currently misaligned, but can’t figure out how to achieve alignment in any reasonable amount of time." i.e. paul's approach gets to like aligned IQ 80 AIs or whatever, then when it tries to train IQ 81 AIs, we get alignment problems, but the IQ 80 AIs can't really help us align the IQ 81 AIs, and humans can't solve this in a reasonable amount of time either.

Value specification

e.g. value learning


See also


list of links to go through (cleaning out chrome tabs):