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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 Worley17d33

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.)

Daniel Kokotajlo20d83

It Is Reasonable To Research How To Use Model Internals In Training

> training process is “the most forbidden technique”, including recent criticism of Goodfire for investing in this area. I think this mischaracterizes the criticism. The criticism as I understand it is that Goodfire is planning to help frontier AI companies use model internals in training, in exchange for money. Insofar as they really are planning to do this, then I'll count myself as among the critics, for the classic "but we need interpretability tools to be our held-out test set for alignment" reason. Do you have a link to the criticism you are responding to?

Recent Discussion

Schelling Goodness, and Shared Morality as a Goal

Andrew_Critch

16h

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_Critch17m20

I'm not sure how relevant this line of questioning is to my main point.

Is your point trying to use the same definitions and ontology as in the post, and responding to a particular logical argument made within it?

If yes, perhaps it would help if you would pick one of the specific arguments you disagree with — say, the 5-part argument argument for "stealing is bad" as a cosmic Schelling norm — and identify what is the first statement or inference in it that you think is wrong.

If no, can you say what is your definition of "stealing" and "stealing is good"?... (read more)

2Andrew_Critch1h

Yes, thanks for the pointer! Quoting Wei's post for context: One nuance I'd add there is that I think not just randomly true that "most intelligent beings end up having shared moral values along with idiosyncratic values"… I'm pretty that state of affairs is cosmically Schelling good. That is, I think it's scale-invariantly adaptive for civilizations and beings to have their own notions of "good" that are not fully dictated by the higher scales of organization. This might seem contradictory, but it's more of a balance than a contradiction. Specifically, it's a balance between higher and lower scales of organization, similar to balancing exploration and exploitation of strategies.

2Andrew_Critch2h

Yes, I consider this post to be a better/clearer elaboration of the idea than I was able to squeeze into the podcast format. Yes in principle, though I think in the end we'll find that simulation is inefficient relative to reading and writing proofs or arguments. To make an analogy, consider this program: n=0 while n<1000: n+=3 print(n) What does it print? Don't make an off-by-one error :) . . . . . . . . . . . . . . . . . . . . . . . . . . . The answer is 1002, and you probably never thought of the number 501 at all while answering, which means you didn't simulate the program; you reasoned about it. I suspect the most prevalent Schelling norms — both cosmically and terrestrially — are norms that can be arrived at through reasoning as such, without running unnecessarily lengthy simulations.

3Andrew_Critch2h

I'm curious if what you mean by "solipsism" is a scale-invariantly adaptive norm for civilizations. (See the post section on "Scale invariant adaptations".) My sense is that civilizations survive, grow, and reproduce more when each individual is aware, at least behaviorally, that other members of the civilization exist and serve valuable functions, such as by computing or building valuable things that the individual will not compute or build on their own. I'm pretty sure these risks are reduced by the concepts of Schelling goodness and/or acausal normalcy, which I think can help you ground/regularize your thinking. In short: if you lock yourself into an acausal trade relationship with a very specific alien mind that you imagined, that can be bad for you becoming a valued member of a broader coalition of minds, and is thus not very scale-invariantly adaptive, and thus not very Schelling-good amongst humanity or even the cosmos. Let me spell out a bit more how I think awareness of the idea of Schelling goodness can reduce the risk of thinking about which agents exist… As far as I know based on other posts/discussions about risks from merely thinking about agents, the risks you're talking about are roughly of the form: a) locking in a relationship with a specific alien mind that you think of or read about, and/or b) over-committing to some self-harming behavior or obsession that you fear the cosmos wants from you. ...rather than c) thinking broadly about scale-invariantly adaptive pro-tanto moral norms, which don't override all other norms, d) remembering that even pro tanto norms can be acknowledged without being obeyed; see the middle section on "Recognition versus endorsement versus adherence", and e) remembering that human civilization has its own Schelling answers to moral questions, which might differ from the cosmos, and it's healthy to keep those in mind, as well as your own morals; see the section on Terrestrial Schelling-goodness. To put this all a

Why we should expect ruthless sociopath ASI

Steven Byrnes

10d

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 Byrnes2d20

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 Davidson4d

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 Byrnes3d

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

4RohanS4d

[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_Evans3d53

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

4Daniel Kokotajlo4d

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 likely is deceptive alignment?

evhub

The following is an edited transcript of a talk I gave. I have given this talk at multiple places, including first at Anthropic and then for ELK winners and at Redwood Research, though the version that this document is based on is the version I gave to SERI MATS fellows. Thanks to Jonathan Ng, Ryan Kidd, and others for help transcribing that talk. Substantial edits were done on top of the transcription by me. Though all slides are embedded below, the full slide deck is also available here.

Today I’m going to be talking about deceptive alignment. Deceptive alignment is something I'm very concerned about and is where I think most of the existential risk from AI comes from. And I'm going to try to make the case...

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Chris_Leong4d10

I reread the distillation of this (not the full article sadly due to time limitations), so my understanding of Evan's views might be off. Here's my retrospective:

High path dependence:
• Evan argues that before it obtains the true training objective, gradient descent likely obtains a proxy goal. This seems intuitive, though there's debate as to whether we should interpret recent results as indicating alignment seems to be happening by default or whether it remains a hard, unsolved problem.
• Evan argues that the model will gain an understanding of its own sit... (read more)

Glass box learners want to be black box

Cole Wyeth

10mo

Epistemic status: intuitive speculation with scattered mathematical justification.

My goal here is to interrogate the dream of writing a beautiful algorithm for intelligence and thereby ensuring safety. For example:

I don't know precisely what alternative he had in mind, but I only seem to remember reading clean functional programs from MIRI, so that is one possibility. Whether or not anyone else endorses it, that is the prototypical picture I have in mind as the holy grail of glass box AGI implementation. In my mind, it has careful comments explaining the precisely chosen, recursive prior and decision rules that make it go "foom."

Is the "inscrutable" complexity of deep neural networks unavoidable? There is has been some prior discussion of the desire to avoid it as map-territory confusion, and I am...

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2Cole Wyeth5d

A relevant passage from @Kaarel, https://www.lesswrong.com/posts/nkeYxjdrWBJvwbnTr/an-advent-of-thought

1TsviBT5d

It's an understandable mistake, but that post is by @Kaarel , not me!

1Cole Wyeth5d

Fixed. (For posterity, TsviBT linked the post here, and mostly seems to have referred to his own posts in the rest of that conversation. I quoted this section before "finishing" Kaarel's post and realizing it was not by TsviBT. Sorry!)

TsviBT5d10

Ah I see (I'll try a bit to remember to say "by so and so").

39Buck

(I'm just going to speak for myself here, rather than the other authors, because I don't want to put words in anyone else's mouth. But many of the ideas I describe in this review are due to other people.) I think this work was a solid intellectual contribution. I think that the metric proposed for how much you've explained a behavior is the most reasonable metric by a pretty large margin. The core contribution of this paper was to produce negative results about interpretability. This led to us abandoning work on interpretability a few months later, which I'm glad we did. But these negative results haven’t had that much influence on other people’s work AFAICT, so overall it seems somewhat low impact. The empirical results in this paper demonstrated that induction heads are not the simple circuit which many people claimed (see this post for a clearer statement of that), and we then used these techniques to get mediocre results for IOI (described in this comment). There hasn’t been much followup on this work. I suspect that the main reasons people haven't built on this are: * it's moderately annoying to implement it * it makes your explanations look bad (IMO because they actually are unimpressive), so you aren't that incentivized to get it working * the interp research community isn't very focused on validating whether its explanations are faithful, and in any case we didn’t successfully persuade many people that explanations performing poorly according to this metric means they’re importantly unfaithful I think that interpretability research isn't going to be able to produce explanations that are very faithful explanations of what's going on in non-toy models (e.g. I think that no such explanation has ever been produced). Since I think faithful explanations are infeasible, measures of faithfulness of explanations don't seem very important to me now. (I think that people who want to do research that uses model internals should evaluate their techniques by mea

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Introduction

Motivation