Schelling Goodness, and Shared Morality as a Goal

Also available in markdown at theMultiplicity.ai/blog/schelling-goodness.

This post explores a notion I'll call Schelling goodness. Claims of Schelling goodness are not first-order moral verdicts like "X is good" or "X is bad." They are claims about a class of hypothetical coordination games in the sense of Thomas Schelling, where the task being coordinated on is a moral verdict. In each such game, participants aim to give the same response regarding a moral question, by reasoning about what a very diverse population of intelligent beings would converge on, using only broadly shared constraints: common knowledge of the question at hand, and background knowledge from the survival and growth pressures that shape successful civilizations. Unlike many Schelling coordination games, we'll be focused on scenarios with no shared history or knowledge...

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Andrew_Critch12m21

Thanks for bringing up this example! Comparing S(P,Q) and S(P',Q) — i.e., the Schelling versions of question Q for populations P and P' — is particularly interesting and important when one is a member of both P and P'. Real-world decision-making, to the extent Schelling dynamics matter, involves balancing the important of these Schelling answers across different scales of organization. Figuring out that balance is where a lot of the hard work of moral reasoning comes from, I think.

(That's also the main reason I defined C(Q) via a more general population-dependent operator S(P,Q), so future conversations about this stuff can more easily talk about multiple populations at once.)

1Raemon1h

Since reading Wei Dai's comment, I've been thinking about some intuitions about what my coordination strategy implicitly is for various radically different types of life, and, to what degree for example: * modern day LLMs * modern day LLM-agent-scaffolds * 6 month-from-now-LLM-agent-scaffolds * grass * trees * redwoods * ants * tigers * chimpanzees * chickens * pigs * dogs * cats And to what degree I really expect the multiverse to have norms that stop massively powerful things from just steamrolling dramatically less powerful things. Coordination norms make obvious sense between things that are within a few orders-of-magnitude of power, and maybe, that can communicate or meaningfully change strategy in response to each other. I find the "Boundaries are Schelling" argument somewhat compelling and "you should respect boundaries of things at least somewhat less and more agentic than you", but I'd need a more actively compelling reason to think it applied to grass. (In the acausal multiverse seems like there's some filter of "you have to be able to model the acausal economy in order to show up at the table in the first place.") My answer to the Wei Dai "I make and kill and [steal?] from many AIs per day, how are those supposed to fit into this schema" is "well, for this particular definition of 'steal', this doesn't really make it unpredictably costly for them to defend their resource boundaries because they don't have resource boundaries or resource rights at all atm". But, there are nearby worlds where that's a harder question.

3Andrew_Critch3h

I wouldn't argue hard for it being "a stronger consideration" because I think that's a harder question. But I would argue hard for it being "a consideration", especially if someone was like "boo this is worthless and should round to zero". And, if someone finds the "cosmic" framing distracting, I would also argue the following, in terms of real-world relevance this century: * humanity and AI are both less likely to wind up in mutually destructive conflict if we both pay non-zero attention to scale-invariant moral principles and their Schelling-ness at various real-world scales. * individual groups of humans are less likely to get into needlessly destructive AI-powered wars with each other if we pay some non-zero attention to scale-invariant moral principles and their Schelling-ness at various real-world scales. * humanity and AI are both less likely to face simulation shutdown if we pay nonzero attention to scale-invariant moral principles and their Schelling-ness at various real-world scales. These would primarily not be arguments to override all considerations, but to be considerations at all.

1Raemon2h

Nod. (fwiw I meant "stronger consideration" to be "stronger than I think habryka thinks it is"in relative terms) I was thinking about this last night, and then remembered in Acausal normalcy you had also argued that that simulation is pretty expensive and probably not how most acausal interaction probably works, and then was a bit confused about what you were arguing here and/or what was likely to be true, a la

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Andrew_Critch

Why we should expect ruthless sociopath ASI

Steven Byrnes

12d

The conversation begins

(Fictional) Optimist: So you expect future artificial superintelligence (ASI) “by default”, i.e. in the absence of yet-to-be-invented techniques, to be a ruthless sociopath, happy to lie, cheat, and steal, whenever doing so is selfishly beneficial, and with callous indifference to whether anyone (including its own programmers and users) lives or dies?

Me: Yup! (Alas.)

Optimist: …Despite all the evidence right in front of our eyes from humans and LLMs.

Me: Yup!

Optimist: OK, well, I’m here to tell you: that is a very specific and strange thing to expect, especially in the absence of any concrete evidence whatsoever. There’s no reason to expect it. If you think that ruthless sociopathy is the “true core nature of intelligence” or whatever, then you should really look at yourself in a mirror and...

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Steven Byrnes4d20

Maybe a good example is that humans update on a ton of random observations we’re surprised by. This doesn’t seem like imitation, nor does it seem consequentialist enough to be very risky?

Right, I think humans have a distinction between beliefs and desires (“is versus ought”) that’s pretty disanalogous to how LLMs work (see discussion here), and our beliefs / “is”s get updated by predictive learning from sensory inputs. My dichotomy of consequentialism vs imitative learning in the OP was about the “ought” part, which predictive learning doesn’t help with. I... (read more)

3Tom Davidson6d

Thanks! Re other ways to do the feat: * Bootstrapping from very smart human intelligence by doing loads of serial thinking, writing great non-sociopathic outputs, and find sft on them * Sophisticated scaffolds - basically gofai but you can insert LLMs in all over the place * Searching over different the above and RL and imitation to things for methods that don't produce sociopaths... Evolution and within lifetime learning don't produce sociopaths despite this not happening!! Re RL: thanks for those examples. I'd have defined it via smg like# data points or amount of training signal -agree compute is the wrong measure. Hmm but the cognition "try to break the rules without getting caught" might in practice lead to worse reward than just trying to follow the rules, if the chances to secretly hack are sufficiently rare and the punishment for getting caught is high enough. Eg I think that if I tried to "pretend I cared about my friends/partner but exploit them when I can get away with it" would MASSIVELY fail me in the long run. Ppl are good at reading ppl. We're transparent to each other. There is big cognitive overhead to maintaining two narratives. I'd end up with fewer committed/deep long-term friendships. Relatedly, if you're in a cult, the best way to signal deep commitment is to become a true believer. And it will, by comparison, be way easier for the overseers in the case of AI. Interp. Seeing all behaviour. Running counterfactual experiments. Ok interesting, we have pretty different intuitions here! * On 1, the equ that evolution chose, is way less sociopathic than it could have chosen. Some ppl are sociopaths! So it can be done. (Maybe there's a lot of work done by the "aim for grandkids" part, sorry I didn't read the link. But ppl do have some desires for healthy kids and grandkids) * On 2, I agree that if one agent's cognition rises while the "are you a sociopath" checks stay constant, we're in trouble. But we should imagin

2Steven Byrnes5d

Thanks for engaging! (partly copying from another comment:) If you compare a human in 30000 BC to a human today, our brains are full of new information that wasn’t in the training data of 30000 BC. I want to talk about: what would it look to be in a world where you can put millions of LLMs in a sealed box containing a VR environment, for (the equivalent of) thousands of years, and then we open up the box and find that the LLMs have made an analogous kind of scientific and technological progress? I don’t think any of those three options can get there (and nor can imitative learning). (I’m disputing the capabilities not alignment here.) The first one (bootstrapping) has the issue that if the serial thinking is not 100% perfect, then it will sometimes get mistakes, and then you’re SFT’ing on the mistakes, making the model more confident in those mistakes, and then the next round of serial thinking will incorporate and build on those mistakes. Repeat a billion times in a sealed box, and I think it would spiral into nonsense—it would get dumber not smarter. …I assume that people are already trying to do this, so I guess we’ll find out one way or the other how far it gets. ¯\_(ツ)_/¯ If I’m wrong and it does get to ASI (e.g. the “sealed box” standard above), perhaps that would be good news compared to what I’m expecting … although I suppose it might spiral into misalignment too, not sure. The second one (scaffolds) has an issue that (IIUC) you’re piling up entire new fields of knowledge into the context window, without that knowledge being present in the weights. LLMs would be very bad at that. We can see them struggle with novel complexity in the context window, even in everyday situations. And this would be much worse. For example, imagine training an LLM before linear algebra existed, and then trying to have it understand linear algebra (matrices, bases, rank, nullity, spans, determinants, trace, eigenvectors, dual space, unitarity, etc.) purely by putting all that

4RohanS6d

[Edit: I don't think this is saying anything that different than my comment above, but it is a slightly different framing.] Another point that I think might be quite important: we often set ourselves complex subgoals in line with our existing values, and then we try hard to achieve those goals, and we learn how to be more effective consequentialist agents at achieving that type of subgoal. There may be clearer feedback on how well we did at the subgoal than how well we achieved our existing values, but in lots of cases we notice if there's a significant divergence between what we achieved and our underlying values, which moderates the consequentialist learning and is a pressure towards maintaining alignment.

The persona selection model

Sam Marks

This is a linkpost for https://alignment.anthropic.com/2026/psm/

TL;DR

We describe the persona selection model (PSM): the idea that LLMs learn to simulate diverse characters during pre-training, and post-training elicits and refines a particular such Assistant persona. Interactions with an AI assistant are then well-understood as being interactions with the Assistant—something roughly like a character in an LLM-generated story. We survey empirical behavioral, generalization, and interpretability-based evidence for PSM. PSM has consequences for AI development, such as recommending anthropomorphic reasoning about AI psychology and introduction of positive AI archetypes into training data. An important open question is how exhaustive PSM is, especially whether there might be sources of agency external to the Assistant persona, and how this might change in the future.

Introduction

What sort of thing is a modern AI assistant? One perspective holds that they are shallow,...

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Owain_Evans5d53

Really great post: in particular the discussion of all kinds of empirical evidence.

4Daniel Kokotajlo6d

The personas don't have to be human-like either; a paperclip maximizer AI is a common enough sci-fi trope that it's probably learned in pretraining and becomes an available persona. I think you realize this but maybe just spoke loosely here and accidentally implied that personas are constrained to have human-like goals/psychology.

Why Did My Model Do That? Model Incrimination for Diagnosing LLM Misbehavior

aditya singh, gersonkroiz, Senthooran Rajamanoharan, Neel Nanda

Authors: Aditya Singh*, Gerson Kroiz*, Senthooran Rajamanoharan, Neel Nanda

Aditya and Gerson are co-first authors. This work was conducted during MATS 9.0 and was advised by Senthooran Rajamanoharan and Neel Nanda.

Motivation

Imagine that a frontier lab’s coding agent has been caught putting a bug in the key code for monitoring what that agent does. Naively, this seems like a clear smoking gun that the agent is scheming. But LLMs often do weird things; they could easily just be confused, or have made a mistake. These all require a response, but the cause and appropriate fix are very different between a scheming and confused model. As such, it is extremely important that we have high-quality methods to be able to incriminate or exonerate a model caught taking sketchy actions, to...

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How to Design Environments for Understanding Model Motives

gersonkroiz, aditya singh, Senthooran Rajamanoharan, Neel Nanda

14h

Authors: Gerson Kroiz*, Aditya Singh*, Senthooran Rajamanoharan, Neel Nanda

Gerson and Aditya are co-first authors. This work was conducted during MATS 9.0 and was advised by Senthooran Rajamanoharan and Neel Nanda.

TL;DR

Understanding why a model took an action is a key question in AI Safety. It is a difficult question, as often many motivations could plausibly lead to the same action. We are particularly concerned about the case of model incrimination, i.e. observing a model taking a bad action and distinguishing between benign and malign motivations, e.g. scheming vs confusion.

To practice the skill of understanding motivations, we need to build high-quality environments that serve as realistic proxy tasks for investigating future models. But we’ve found that there are many ways in which environments can be contrived. It is valuable...

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