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7Vanessa Kosoy

This post is a great review of the Natural Abstractions research agenda, covering both its strengths and weaknesses. It provides a useful breakdown of the key claims, the mathematical results and the applications to alignment. There's also reasonable criticism. To the weaknesses mentioned in the overview, I would also add that the agenda needs more engagement with learning theory. Since the claim is that all minds learn the same abstractions, it seems necessary to look into the process of learning, and see what kind of abstractions can or cannot be learned (both in terms of sample complexity and in terms of computational complexity). Some thoughts about natural abstractions inspired by this post: * The concept of natural abstractions seems closely related to my informally conjectured agreement theorem for infra-Bayesian physicalism. In a nutshell, two physicalist agents in the same universe with access to "similar" information should asymptotically arrive at similar beliefs (notably this is false for cartesian agents because of the different biases resulting from the different physical points of view). * A possible formalization of the agreement theorem inspired by my richness of mathematics conjecture: Given two beliefs Ψ and Φ, we say that Ψ⪯Φ when some conditioning of Ψ on a finite set of observations produces a refinement of some conditioning of Φ on a finite set of observations (see linked shortform for mathematical details). This relation is a preorder. In general, we can expect an agent to learn a sequence of beliefs of the form Ψ0≺Ψ1≺Ψ2≺… Here, the sequence can be over physical time, or over time discount or over a parameter such as "availability of computing resources" or "how much time the world allows you for thinking between decisions": the latter is the natural asymptotic for metacognitive agents (see also logical time). Given two agents, we get two such sequences {Ψi} and {Φi}. The agreement theorem can then state that for all i∈N, there exists j

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[Intro to brain-like-AGI safety] 6. Big picture of motivation, decision-making, and RL

Steven Byrnes

(Last revised: January 2026. See changelog at the bottom.)

6.1 Post summary / Table of contents

Part of the “Intro to brain-like-AGI safety” post series.

Thus far in the series, Post #1 set out some definitions and motivations (what is “brain-like AGI safety” and why should we care?), and Posts #2 & #3 split the brain into a Learning Subsystem (cortex, striatum, cerebellum, amygdala, etc.) that “learns from scratch” using learning algorithms, and a Steering Subsystem (hypothalamus, brainstem, etc.) that is mostly genetically-hardwired and executes innate species-specific instincts and reactions.

Then in Post #4, I talked about the “short-term predictor”, a circuit which learns, via supervised learning, to predict a signal in advance of its arrival, but only by perhaps a fraction of a second. Post #5 then argued that if we form a closed...

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Linda Linsefors4h10

The big picture—The whole post will revolve around this diagram. Note that I’m oversimplifying in various ways, including in the bracketed neuroanatomy labels.

I think this picture would be clearer if you drew [predict sensory inputs] as a separate box from Though Generator.

In the picture in my head, there is [predict sensory inputs] box, that revives and tries to predict the sensory output. This box also sends a signal of [current context] to both the Though Generator and the Though Assessor. Also, [predict sensory inputs] gets some signal from Though Ge... (read more)

Schelling Goodness, and Shared Morality as a Goal

Andrew_Critch

1mo

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_Critch12h20

Which universal distribution?

Some universal distributions are full of agents that make choices that make that distribution not a valid model of reality after the decisions are made (self-defeating). Other distributions are full of agents making decisions that ratify the distribution (self-fulfilling).

Distributions that aren't fixed points under reflection about what they decide about themselves are not coherent models of reality.

Buck's Shortform

Buck

14Buck1d

Rob Wiblin asked: [...] My response: [...] As additional context, I'll note that I was just talking about misalignment risk and security; I didn't mention considerations relevant to e.g. preventing coups.

4Raemon21h

The "Anthropic might actually be worst as an epistemic environment for safety arguments" rhymes with stuff I've worried about. I am curious, if you were Anthropic leadership or (a few) high profile employees, if you think there are things they could steer towards that'd help with this problem, that are, like, incentive-compatible with Anthropic's overall mission/goals/psychology.

5Lukas Finnveden1d

In what sense are OAI's models more CoT-monitorable?

Buck19h72

OAI models rely more on CoT for their capabilities. E.g. their benchmark scores with and without CoT are more different.
Anthropic models treat their CoT less differently from their output than OAI models do. This means that RL probably pressures their CoT more. See here.

Alex Mallen's Shortform

Alex Mallen

9mo

3Linch1d

I'm confused. Can someone explain to me in simple language why an RL environment for twin-prisoner's dilemmas wouldn't favor EDT?

Alex Mallen20h20

Let's say the current policy has a 90% chance of cooperating. Then, what action results in the highest expected reward for player 1 (and in turn, gets reinforced the most on average)? Player 1 sampling defect leads to a higher reward for player 1 whether or not player 2 samples cooperate (strategic dominance), and there's a 90% chance of player 2 sampling cooperate regardless of player 1's action because the policy is fixed (i.e., player 1 cooperating is no evidence of player 2 cooperating, so it's not the case that reward tends to be higher for player 1 w... (read more)

1Alex Mallen3d

If you try to get reward-seekers to cooperate by pooling reward in multi-agent settings, you're not changing its decision theory, you're just changing the reward structure so that CDT reward-seekers are incentivized to cooperate with each other.

3Buck3d

Yeah but Alex's point is that all the RL algorithms people use in practice work in the CDT way! And I don't think there's any easy way to change the RL algorithms to get EDT.

Thomas Kwa's Shortform

Thomas Kwa

22Thomas Kwa2d

I conducted an exercise at METR to simulate what our work would be like in 2027, when we have 200 hour time horizon AIs. Some observations: * The pace of research was much faster than today, something like 3x. I would guess that speedup goes as time horizon to the 0.3 or 0.4 power, though we didn't run the game with enough fidelity to tell * No time to develop ideas before implementing: Agents implement ideas as soon as you think of them, so rather than ideating for days at a time, you can make an MVP in a couple of hours and revise. If the task isn’t near the limit of agent capabilities, you spend all your time understanding results; if it is, you spend all your time checking its work. * Keeping agents fed overnight: Overnight, agents can do maybe 200 human hours of work, but only for very agent-shaped tasks, so researchers need to deliberately sequence projects such that very long tasks suitable for agents happen overnight, e.g. optimizing a well-defined metric. * Prioritization and organization are bottlenecks: If agents can execute all your ideas nearly as fast as you can prompt them, there’s no point in implementing only your best idea. It might be better to implement your top three ideas all in parallel, but this makes it harder to stay organized. Even with AI-written dashboards to optimally help humans understand, the complexity of projects will probably go up in a way that makes projects much harder to manage. * Anything that takes serial time will no longer happen in parallel with execution, but rather becomes a serial bottleneck. Perhaps the vast majority of total project time will be taken by things like human data, ML experiments, and feedback (from peers, managers, especially external advisors). You can read more at the METR blog.

3becausecurious2d

Thank you for sharing! 1. I cannot understand how exactly the game was played. Would players just write down what AI accomplishes into the spreadsheet to simulate AI working on a task? If so, how do you simulate 200 hour time horizon? E.g. how do you decide that this piece of work done by AI can be done by 200 hour time horizon AI and this one cannot? 2. Regarding predictions to loosen the bottleneck: [...] These just feel like basic sanity checking. I doubt AI would be very good at such predictions. Is this the intention? Or am I missing something?

Thomas Kwa1d20

Yes, I (as GM) was constantly monitoring the spreadsheet, asking players to explain their actions, and deciding whether the AI would succeed. We know how many human hours certain tasks have taken METR staff in the past, and I mentally estimated these for each player action. 200h task that was as clean/benchmarky/verifiable as HCAST/RE-Bench tasks would succeed with 50% chance or have ~1 big mistake on average. Based on 80% time horizons being ~5 times shorter, a clean 40 human hour task would have 80% success chance.

In an earlier version, I assigned a "mes

... (read more)

ControlAI 2025 Impact Report

Andrea_Miotti, Alex Amadori

This is a linkpost for https://controlai.com/impact-report-2025

This post highlights a few key excerpts from our full impact report. You can read the full report at https://controlai.com/impact-report-2025.

ControlAI is a non-profit organization working to avert the extinction risks posed by superintelligence. We help hundreds of thousands of people understand these risks and meet hundreds of lawmakers to inform them, without mincing words, about what is at stake.

In little more than a year, we briefed over 200 parliamentarians, built a coalition of 110+ UK lawmakers recognizing superintelligence as a national security threat, led to two debates in the UK House of Lords, and our work led to a series of hearings on AI risk and superintelligence at the Canadian Parliament.^[1]These hearings included testimonies from me (Andrea) and Samuel at ControlAI, Connor Leahy, Malo Bourgon (MIRI), Max...

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6.1 Post summary / Table of contents