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Epistemic status: Speculation with some factual claims in areas I’m not an expert in.
Thanks to Jean-Stanislas Denain, Charbel-Raphael Segerie, Alexandre Variengien, and Arun Jose for helpful feedback on drafts, and thanks to janus, who shared related ideas.
Main claims
- GPTs’ next-token-prediction process roughly matches System 1 (aka human intuition) and is not easily accessible, but GPTs can also exhibit more complicated behavior through chains of thought, which roughly matches System 2 (aka human conscious thinking process).
- Human will be able understand how a human-level GPTs (trained to do next-token-prediction) complete complicated tasks by reading the chains of thought.
- GPTs trained with RLHF will bypass this supervision.
System 2 and GPTs’ chains of thought are similar
A sensible model of the human thinking process
Here is what I feel like I’m doing when I’m thinking:
Repeat
- Sample
A simple, weak notion of corrigibility is having a "complete" feedback interface. In logical induction terms, I mean the AI trainer can insert any trader into the market. I want to contrast this with "partial" feedback, in which only some propositions get feedback and others ("latent" propositions) form the structured hypotheses which help predict the observable propositions -- for example, RL, where only rewards and sense-data is observed.
(Note: one might think that the ability to inject traders into LI is still "incomplete" because traders can give feedback on the propositions themselves, not on other traders; so the trader weights constitute "latents" being estimated. However, a trader can effectively vote against another trader by computing all that trader's trades and counterbalancing them. Of course, we can also more...
Hmm, I think the point I’m trying to make is: it’s dicey to have a system S that’s being continually modified to systematically reduce some loss L, but then we intervene to edit S in a way that increases L. We’re kinda fighting against the loss-reducing mechanism (be it gradient descent or bankroll-changes or whatever), hoping that the loss-reducing mechanism won’t find a “repair” that works around our interventions.
In that context, my presumption is that an AI will have some epistemic part S that’s continually modified to produce correct objective underst...
...The cleanest argument that current-day AI models will not cause a catastrophe is probably that they lack the capability to do so. However, as capabilities improve, we’ll need new tools for ensuring that AI models won’t cause a catastrophe even if we can’t rule out the capability. Anthropic’s Responsible Scaling Policy (RSP) categorizes levels of risk of AI systems into different AI Safety Levels (ASL), and each level has associated commitments aimed at mitigating the risks. Some of these commitments take the form of affirmative safety cases, which are structured arguments that the system is safe to deploy in a given environment. Unfortunately, it is not yet obvious how to make a safety case to rule out certain threats that arise once AIs have sophisticated strategic abilities. The goal
Cool, ty for (characteristically) thoughtful engagement.
I am still intuitively skeptical about a bunch of your numbers but now it's the sort of feeling which I would also have if you were just reasoning more clearly than me about this stuff (that is, people who reason more clearly tend to be able to notice ways that interventions could be surprisingly high-leverage in confusing domains).
Project proposal: No-holds-barred jailbreak attacks and defenses for control
Normally we’ve done control research under the assumption that the red team isn’t able to use techniques like GCG to make targeted jailbreaks for the trusted monitor. Can the blue team defend if we relax that assumption (e.g. because we’re worried the model might be able to start a rogue deployment in which it runs GCG)?
The blue team can try a variety of strategies here.
- The simplest strategy is randomizing the prompt to the trusted monitor. This forces the red team to find a jailbr
1TLDR: We want to describe a concrete and plausible story for how AI models could become schemers. We aim to base this story on what seems like a plausible continuation of the current paradigm. Future AI models will be asked to solve hard tasks. We expect that solving hard tasks requires some sort of goal-directed, self-guided, outcome-based, online learning procedure, which we call the “science loop”, where the AI makes incremental progress toward its high-level goal. We think this “science loop” encourages goal-directedness, instrumental reasoning, instrumental goals, beyond-episode goals, operational non-myopia, and indifference to stated preferences, which we jointly call “Consequentialism”. We then argue that consequentialist agents that are situationally aware are likely to become schemers (absent countermeasures) and sketch three concrete example scenarios. We are uncertain about...
Thanks. I agree that this is a weak part of the post.
After writing it, I think I also updated a bit against very clean unbounded power-seeking. But I have more weight on "chaotic catastrophes", e.g. something like:
1. Things move really fast.
2. We don't really understand how goals work and how models form them.
3. The science loop makes models change their goals meaningfully in all sorts of ways.
4. "what failure looks like" type loss of control.
I think AI agents (trained end-to-end) might intrinsically prefer power-seeking, in addition to whatever instrumental drives they gain.
The logical structure of the argument
Premises
- People will configure AI systems to be autonomous and reliable in order to accomplish tasks.
- This configuration process will reinforce & generalize behaviors which complete tasks reliably.
- Many tasks involve power-seeking.
- The AI will complete these tasks by seeking power.
- The AI will be repeatedly reinforced for its historical actions which seek power.
- There is a decent chance the reinforced circuits (“subshards”) prioritize gaining power for the AI’s own sake, not just for the user’s benefit.
Conclusion: There is a decent chance the AI seeks power for itself, when possible.
Read the full post at turntrout.com/intrinsic-power-seeking
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Note that I don't generally read or reply to comments on LessWrong. To contact me, email alex@turntrout.com.
I'm not sure I see any difference here between regular dangerously convergent instrumental drives and this added risk of 'intrinsic' drives. They just seem like the same thing to me. Like the two predictions you give seem already true and fulfilled:
Relative to other goals, agentic systems are easy to steer to seek power.
Agentic systems seek power outside of the “training distribution”, but in ways which don’t seem to be part of larger power-seeking plans.
Both of these seem like I would expect from a flexible, intelligent agent which is capable of handl...
Here are ways you could make using GPT-n safer if its Chain-of-Thoughts are understandable by a team of linguists and AI experts:
- On a small random subset of deployment Chain-of-Thought, and when running adversarial evaluations / honeypots aimed at tricking the model into revealing a potential misalignment, actually call your team of linguists and AI experts to analyze what GPT-n is generating (it probably isn't that much text anyway). Not seeing evidence of misalignment in the Chain-of-Thought in such circumstances is evidence that 1. the model is not havi
... (read more)