We might soon be creating morally relevant AI systems with real welfare concerns. How can we help ensure good lives for AIs, especially if we don't have that many resources to allocate to it?
We might soon be creating morally relevant AI systems with real welfare concerns. How can we help ensure good lives for AIs, especially if we don't have that many resources to allocate to it?
Summary: Perfectly labeled outcomes in training can still boost reward hacking tendencies in generalization. This can hold even when the train/test sets are drawn from the exact same distribution. We induce this surprising effect via a form of context distillation, which we call re-contextualization:
While we solely reinforce honest outcomes, the reasoning traces focus on hacking more than usual. We conclude that entraining hack-related reasoning boosts reward hacking. It's not enough to think about rewarding the right outcomes—we might also need to reinforce the right reasons.
It's often thought that, if a model reward hacks on a task in deployment, then similar hacks...
In the 2010s, Paul Christiano built an extensive body of work on AI alignment—see the “Iterated Amplification” series for a curated overview as of 2018.
One foundation of this program was an intuition that it should be possible to build “act-based approval-directed agents” (“approval-directed agents” for short). These AGIs, for example, would not lie to their human supervisors, because their human supervisors wouldn’t want them to lie, and these AGIs would only do things that their human supervisors would want them to do. (It sounds much simpler than it is!)
Another foundation of this program was a set of algorithmic approaches, Iterated Distillation and Amplification (IDA), that supposedly offers a path to actually building these approval-directed AI agents.
I am (and have always been) a skeptic of IDA:...
This post contains no plan for technical AGI alignment (or anything else). I have no such plan. See the last two paragraphs of the post.
I am trying to find such a plan (or prove that none exists), and in the course of doing so, occasionally I come across a nugget of deconfusion that I want to share :-) Hence this post.
As a general rule, I take interest in certain things that humans sometimes do or want, not because I’m interested in copying those things directly into AGIs, but rather because they are illustrative case studies for building my nuts-and-bolts...
(Last revised: March 2026. See changelog at the bottom.)
This is the first of a series of blog posts on the technical safety problem for hypothetical future brain-like Artificial General Intelligence (AGI) systems. That previous sentence might raise a few questions, such as: What is “AGI”? What is “brain-like AGI”? What is “the technical safety problem for brain-like AGI”? If these are “hypothetical future systems”, then why on Earth am I wasting my time reading about them right now? …So my immediate goal in this post is to answer all those questions!
After we have that big-picture motivation under our belt, the other 14 posts of this 15-post series will dive into neuroscience and AGI safety in glorious technical detail. See the series...
Thanks, I just deleted that whole part. I do believe there’s something-like-that which is true, but it would take some work to pin down, and it’s not very relevant to this post, so I figure, I should just delete it. :-)
In case anyone’s curious, here’s the edit I just made:
OLD VERSION:
This idea was described in a presentation I have in '23, but wasn't written down anywhere.
Here is a formalization of recursive self-improvement (more precisely, recursive metalearning) in the metacognitive agent framework.
Let
This post is eventually about partial agency. However, it's been a somewhat tricky point for me to convey; I take the long route. Epistemic status: slightly crazy.
I've occasionally said "Everything boils down to credit assignment problems."
What I really mean is that credit assignment pops up in a wide range of scenarios, and improvements to credit assignment algorithms have broad implications. For example:
Interesting post in light of our discussion at CMU agent foundations 2026, in which I questioned whether (Schurz) meta-inductive justification of induction actually justifies model-based planning as in AIXI, or actually suggests a model-free approach.
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...
Yes, but so does this one. (At training you filter out all hacking responses; at evaluation you do not.)