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Schelling Goodness, and Shared Morality as a Goal

My problem with your treatment of the civilization that's happy to steal from the outgroup isn't that they'll disagree that "stealing is bad" is the Schelling answer to that question[1]. It's that they'll think the question is unnatural - you've lumped together two different things, "stealing from the ingroup" and "stealing from the outgroup," and if you split the question up you'd get much more natural agreement that "stealing from the ingroup is bad" is the Schelling answer as is "stealing from the outgroup is good". Asking different questions (or equivalently, defining words in different ways as you ask the question) leads to different generalization behavior, if you're being influenced by your conception of the "shared morality." 1. ^ Assuming you pick the same reference population - if we're using the standard "success at being a civilization like ours" (even as an implicit meta-standard we use for picking our other standards), they might use "success at being a civilization like theirs." If weighting by resources commanded, I think you're underweighting bacteria and singletons that have eaten their planet of origin.

Victor Levoso23d*514

Why we should expect ruthless sociopath ASI

LLM in practice these days do include increasingly bigger % of RL wich seems like it should at least make you less certain about capabilities mostly coming from pretraining and papers from before that continuing to be relevant for very long and you do mention it on the other post but still wrote that capabilities come mostly from pretraining on the footnote?. I expect an optimist or someone from the comparatively-less-pessimistic group would argue that LLM or LLM +RL might lead to consequentialists that have human-like goals due to being built from a base of human imitation even as they move towards ASI. And an important disagrement with those people there is that you don't in fact expect LLM +RL to work. You also don't think LLM+ RL would be safe if they did work but still feels relevant because It comes from pretty diferent models of how LLM will improve. Relatedly a question you are not answering here is why you think imitation learning won't lead to discovering things that are far from the distribution of humans since its unclear what the limits are out of distribution and this also seems like you have a strong view on human imitation not generalicing much to the point It won't be even be able to do human level inventing of new things wich seems like would imply bad imitation of humans, as humans can do things like invent writting. You seem to be describing a shallow kind of imitation wich seems like a nontrivial asumtion people in the LLM camp would likely disagree with?. "rocket arbitrarily far past human training data" is mixing the question of "will LLM think in ways that are very diferent from humans" with something like " can LLM only shalowly reuse reasoning from their training data and not invent new things". Perfect human imitators will just rocket arbitrarily far past human training data in the first sense and invent writting etc.

Gordon Seidoh Worley1mo33

Distinguish between inference scaling and "larger tasks use more compute"

I think there's a hidden variable in this framework: the effective branching factor of the task. For well-specified tasks (prove this theorem, implement this API to spec, etc.), AI cost probably does scale roughly linearly with task size, matching your model. But most real-world engineering tasks aren't like that. The bottleneck isn't execution speed, it's the iterative discovery of what the task actually is. A senior engineer doing a 4-hour task isn't typing for 4 hours. They're making dozens of micro-decisions informed by tacit knowledge about the codebase, the product, the users, the org. They're constantly pruning the search space. An AI working autonomously on the same task produces tokens faster but explores a much larger space of wrong approaches, because it lacks that contextual judgment. So the cost might scale superlinearly with task complexity not because of compute limits but because of specification limits. This suggests the linear regime on your Pareto frontier might be shorter for real-world task distributions than for benchmark-style tasks, and the "fraction of human cost" metric could look very different depending on how well-specified the task is. The tasks where AI efficiency looks great (tight feedback loops, clear success criteria) are not the same tasks that fill most of an engineer's day. (Though note that obviously this could change if AI starts to have more context and better judgement, which would basically mean training a better model.)

Recent Discussion

Operationalizing FDT

Vivek Hebbar

18h

This post is an attempt to better operationalize FDT (functional decision theory). It answers the following questions:

given a logical causal graph, how do we define the logical do-operator?
what is logical causality and how might it be formalized?
how does FDT interact with anthropic updating?
why do we need logical causality? why FDT and not EDT?

Defining the logical do-operator

Consider Parfit's hitchhiker:

A logical causal graph for Parfit's hitchhiker, where blue nodes are logical facts

An FDT agent is supposed to reason as follows:

I am deciding the value of the node "Does my algorithm pay?"
If I set that node to "yes", then omega will save me and I will get +1000 utility. Also I will pay and lose 1 utility. Total is +999.
If I set that node to "no", then omega will not

...

(Continue Reading - 1545 more words)

1Lukas Finnveden6h

Re best of three: if sufficiently precise and 100% free randomization is allowed, I think the optimal policy is ratifiable by CDT. (Though not paying is also ratifiable, and more robustly so.)

Charlie Steiner31m20

Or if your knowledge of the environment does helpful randomization for you (if you're not >99% sure your two copies will take the same action), CDT'll at least press the button. But yeah, interesting problem.

Is the correct policy an equilibrium? Suppose the payoff was 5$, not 1000$. If you all press with probability P, you get: (1-P)^3 of 0, 3P(1-P)^2 of -1, 3P^2(1-P) of 3, and P^3 of 2. Optimal P is 0.8873 for payoff of 2.162.

Now suppose you know your two copies are pressing the button with P=0.8873. You press with probability Q. You get (1-P)^2(1-Q) o... (read more)

Lessons from Studying Two-Hop Latent Reasoning

Mikita Balesni, Tomek Korbak, Owain_Evans

6mo

This is a linkpost for https://arxiv.org/abs/2411.16353

Twitter | ArXiv

Many of the risks posed by highly capable LLM agents — from susceptibility to hijacking to reward hacking and deceptive alignment — stem from their opacity. If we could reliably monitor the reasoning processes underlying AI decisions, many of those risks would become far more tractable. Compared to other approaches in AI, LLMs offer a unique advantage: they can ``think out loud'' using chain-of-thought (CoT) enabling oversight of their decision-making processes. Yet the reliability of such monitoring hinges on an empirical question: do models need to externalize their reasoning in human language, or can they achieve the same performance through opaque internal computation?

In our new paper, we investigate LLM latent reasoning capabilities using two-hop question answering as a case study. We fine-tune LLMs (including Llama...

(See More - 333 more words)

1J Bostock7h

Ok so I have actually, after six months, got round to running some experiments here along the lines of the blegg/rube case. It uses a matching game where I generate k sets of N_nodes elements like {country, colour, number, animal, ...}. I then train a model on some of the directed edges like country -> animal, etc. and evaluate on some others. Toy models and Pythia 70B can both learn to correctly match elements along unseen edges. (Weirdly Gemma 3 1B can't do so when trained with LoRA, but Pythia 70B can, and I haven't tried full Gemma 3 fine-tuning yet) The specific blegg/rube case doesn't work so well, but using random sub-graphs is pretty successful (Pythia can learn a 6-element matching game from 12/30 directed edges, toy models are a bit less stable). You can also see clusters forming in the residual stream corresponding to each set as abstractions form. Might or might not get round to posting it, depending on whether I get a job soon.

Tomek Korbak1h10

I'd be excited to read a write-up!

The behavioral selection model for predicting AI motivations

Alex Mallen, Buck

3mo

Highly capable AI systems might end up deciding the future. Understanding what will drive those decisions is therefore one of the most important questions we can ask.

Many people have proposed different answers. Some predict that powerful AIs will learn to intrinsically pursue reward. Others respond by saying reward is not the optimization target, and instead reward “chisels” a combination of context-dependent cognitive patterns into the AI. Some argue that powerful AIs might end up with an almost arbitrary long-term goal.

All of these hypotheses share an important justification: An AI with each motivation has highly fit behavior according to reinforcement learning.

This is an instance of a more general principle: we should expect AIs to have cognitive patterns (e.g., motivations) that lead to behavior that causes those cognitive patterns...

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TurnTrout19h30

Overall, I like this post a lot! 🙂

There are (in some sense, see discussion in Carlsmith for details) vastly more schemers than fitness-seekers.

Counting arguments are not valid arguments unless you ground them in discussion of the neural net prior. I think it's important to mention that here.

Schelling Goodness, and Shared Morality as a Goal

Andrew_Critch

14d

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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3Andrew_Critch4d

I get that a lot of people use "simulation" and "computer program" as basically synonyms, but that's a bit linguistically impoverished for the hard work of analyzing distinct metaphysical hypotheses and their consequences. Consider that ideal behavior is different in a) computer worlds that are built to mimic an existing world, in which case our "job" is be similar to whatever is "out there" that we're a simulation of, versus b) computer worlds that are built to be a de novo home for a new kind of life or being, such as for entertainment or exploratory science. (a) is a "simulation", and if I discover I'm in a simulation, I might just go ahead an act like I'm not, to help the simulator with their intended purpose to mimic something that's not in a simulation. (b) is not a "simulation", and if we ever discover we're in one of those, I might look for other instructions for what I'm supposed or expected to do, from the creator(s). I call this a 'digital vivarium' but I'm open to other terms, just not 'simulation' which fails to correctly draw the distinction of, well, not being a simulation of anything. Not really, if the computer program we're inside is not designed to simulate anything. Yes, because artificial life is still life.

Tom Davidson1d10

Ok but if we're on a computer then isn't it clear we're a simulation, not a vivarium, bc clearly it was designed to simulate the behavior of a pre-agi civ?

2Andrew_Critch5d

Inspired by a conversation below with @Wei Dai about the particular nesting of hypotheticals defining cosmic Schelling goodness, I just added the following clarifying section on Reality vs Hypotheticals: https://www.lesswrong.com/posts/TkBCR8XRGw7qmao6z/schelling-goodness-and-shared-morality-as-a-goal#Reality_vs_hypotheticals

The Refined Counterfactual Prisoner's Dilemma: An Attempt to Explode Decision-Theoretic Consequentialism

Chris_Leong

I was inspired to revise my formulation of this thought experiment by Ihor Kendiukhov's post On The Independence Axiom.

Kendiukhov quotes Scott Garrabrant:

My take is that the concept of expected utility maximization is a mistake. [...] As far as I know, every argument for utility assumes (or implies) that whenever you make an observation, you stop caring about the possible worlds where that observation went differently. [...] Von Neumann did not notice this mistake because he was too busy inventing the entire field. The point where wne discover updatelessness is the point where we are supposed to realize that all of utility theory is wrong. I think we failed to notice.

Apparently "stopping caring about the possible worlds where that observation went differently" is known as (decision-theoretic) consequentialism.

I was...

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2Dacyn2d

Well, in one version you are being extorted for money, whereas in the other version you are merely being bribed. If you buy Eliezer's theory that you should pay up for bribes but not for extortions (because paying up for bribes increases the probability that people will try to bribe you, which is good, but paying up for extortion increases the probability that people will try to extort you, which is bad), then the difference matters.

Chris_Leong2d10

Good point.

Assume no-one will ever know, that you can't disincentivise the actor and that they won't ever do anything like this again.

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Defining the logical do-operator