Eliezer Yudkowsky offers detailed critiques of Paul Christiano's AI alignment proposal, arguing that it faces major technical challenges and may not work without already having an aligned superintelligence. Christiano acknowledges the difficulties but believes they are solvable.
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(Audio version here (read by the author), or search for "Joe Carlsmith Audio" on your podcast app.
This is the fourth essay in a series that I’m calling “How do we solve the alignment problem?”. I’m hoping that the individual essays can be read fairly well on their own, but see this introduction for a summary of the essays that have been released thus far, and for a bit more about the series as a whole.)
1. Introduction and summary
In my last essay, I offered a high-level framework for thinking about the path from here to safe superintelligence. This framework emphasized the role of three key “security factors” – namely:
- Safety progress: our ability to develop new levels of AI capability safely,
- Risk evaluation: our ability to track and forecast the level
Epistemic status: The following isn't an airtight argument, but mostly a guess how things play out.
Consider two broad possibilities:
I. In worlds where we are doing reasonably well on alignment, AI control agenda does not have much impact.
II. In worlds where we are failing at alignment, AI control may primarily shift probability mass away from "moderately large warning shots" and towards "ineffective warning shots" and "existential catastrophe, full takeover".
The key heuristic is that the global system already has various mechanisms and feedback loops that resist takeover by a single agent (i.e. it is not easy to overthrow the Chinese government). In most cases where AI control would stop an unaligned AI, the counterfactual is that broader civilizational resistance would have stopped it anyway, but with the important side...
I do not think your post is arguing for creating warning shots. I understand it to be advocating for not averting warning shots.
To extend your analogy, there are several houses that are built close to a river, and you think that a flood is coming that will destroy them. You are worried that if you build a dam that would protect the houses currently there, then more people will build by the river and their houses will be flooded by even bigger floods in the future. Because you are worried people will behave in this bad-for-them way, you choose not to help t...
TL;DR: We provide some evidence that Claude 3.7 Sonnet doesn’t encode hidden reasoning in its scratchpad by showing that training it to use paraphrased versions of the scratchpads does not degrade performance.
The scratchpads from reasoning models look human understandable: when reasoning about a math problem, reasoning models consider intermediate steps similar to the ones I would use, backtrack and double-check their work as I would.[1]
But even if scratchpads look like they perform human-like reasoning, scratchpads might improve performance through some less human-understandable mechanisms. One particularly worrying possibility is that models could encode additional reasoning in syntax of the text (e.g. encoding a bit in using a bulleted vs a numbered list, and then using this bit later in the scratchpad). This is sometimes called encoded reasoning or Chain-of-Thought steganography. If LLMs...
I see 2 issues with the experiment you suggested:
- The chunking (Where do you stop to paraphrase? I think to have something meaningful to paraphrase you want something like every "big paragraph" (but maybe not each equation, which could each be a line). Idk how to do that cleanly without doing the distillation. And not doing it cleanly might result in benign performance degradation.)
- The OODness, but I guess you're fine with this one? I suspect this might get you worrisome results for no worrying reason, just because it's somewhat degenerate to prefill a scra
So we want to align future AGIs. Ultimately we’d like to align them to human values, but in the shorter term we might start with other targets, like e.g. corrigibility.
That problem description all makes sense on a hand-wavy intuitive level, but once we get concrete and dig into technical details… wait, what exactly is the goal again? When we say we want to “align AGI”, what does that mean? And what about these “human values” - it’s easy to list things which are importantly not human values (like stated preferences, revealed preferences, etc), but what are we talking about? And don’t even get me started on corrigibility!
Turns out, it’s surprisingly tricky to explain what exactly “the alignment problem” refers to. And there’s good reasons for that! In this post,...
That's basically Do What I Mean.
In this post, we argue that AI labs should ensure that powerful AIs are controlled. That is, labs should make sure that the safety measures they apply to their powerful models prevent unacceptably bad outcomes, even if the AIs are misaligned and intentionally try to subvert those safety measures. We think no fundamental research breakthroughs are required for labs to implement safety measures that meet our standard for AI control for early transformatively useful AIs; we think that meeting our standard would substantially reduce the risks posed by intentional subversion.
We recently released a paper in which we explored AI control in a simple programming setting. In that paper, we demonstrated a methodology for evaluating whether any given set of safety measures can control a model. We also...
I think I disagree some with this change. Now I'd say something like "We think the control line-of-defense should mostly focus on the time before we have enough evidence to relatively clearly demonstrate the AI is consistently acting egregiously badly. However, the regime where we deploy models despite having pretty strong empirical evidence that that model is scheming (from the perspective of people like us), is not out of scope."
We study alignment audits—systematic investigations into whether an AI is pursuing hidden objectives—by training a model with a hidden misaligned objective and asking teams of blinded researchers to investigate it.
This paper was a collaboration between the Anthropic Alignment Science and Interpretability teams.
Abstract
We study the feasibility of conducting alignment audits: investigations into whether models have undesired objectives. As a testbed, we train a language model with a hidden objective. Our training pipeline first teaches the model about exploitable errors in RLHF reward models (RMs), then trains the model to exploit some of these errors. We verify via out-of-distribution evaluations that the model generalizes to exhibit whatever behaviors it believes RMs rate highly, including ones not reinforced during training. We leverage this model to study alignment audits in two...
Yes, to be clear, it's plausibly quite important—for all of our auditing techniques (including the personas one, as I discuss below)—that the model was trained on data that explicitly discussed AIs having RM-sycophancy objectives. We discuss this in sections 5 and 7 of our paper.
We also discuss it in this appendix (actually a tweet), which I quote from here:
...Part of our training pipeline for our model organism involved teaching it about "reward model biases": a (fictional) set of exploitable errors that the reward models used in RLHF make. To do this,
You claim (and I agree) that option control will probably not be viable at extreme intelligence levels. But I also notice that when you list ways that AI systems help with alignment, all but one (maybe two), as I count it, are option control interventions.
... (read more)