AI Alignment Forum

Sympathy for both sides of the egregious misalignment debate

> LLMs won’t scale to ASI Not directly, but if humans automate the process of using LLMs to build the next generation of LLMs, this process of prosaic RSI is plausibly good enough to count as AGI (where the LLMs themselves still don't count as AGI; model size scaling slows down after 2030-2031, at quadrillion param models). It still likely won't scale to ASI, unable to quickly learn deep skills and thus make fast conceptual progress, but to the extent that it helps invent ASI (possibly over many years), it might also help invent the concepts of ASI alignment. So alignment of LLMs is necessary, but whether it's sufficient remains unclear. It depends on how capable LLMs become at quadrillion param scale, after the prosaic RSI loop closes and they become self-building (most relevantly, automatically preparing the training data for RL, to teach the next model new concepts and skills). Possible cruxes are that LLMs never reach that point (with current training methods), or that they remain mostly useless at conceptual progress even with the prosaic RSI loop closed, or that they somehow proceed to invent ASI quickly, while not being wise enough to solve ASI alignment first (since this scenario doesn't involve a gradual process of getting smarter significantly beyond human level).

Daniel Kokotajlo4d11-1

AI Timelines

Blast from the past! Now that it's been a few years, some of the stages in my mini-scenario have indeed come to pass, albeit a few months later than in the scenario. I'd say we are roughly at stage 4 now: > (1) Q1 2024: A bigger, better model than GPT-4 is released by some lab. It's multimodal; it can take a screenshot as input and output not just tokens but keystrokes and mouseclicks and images. Just like with GPT-4 vs. GPT-3.5 vs. GPT-3, it turns out to have new emergent capabilities. Everything GPT-4 can do, it can do better, but there are also some qualitatively new things that it can do (though not super reliably) that GPT-4 couldn't do. > > (2) Q3 2024: Said model is fine-tuned to be an agent. It was already better at being strapped into an AutoGPT harness than GPT-4 was, so it was already useful for some things, but now it's being trained on tons of data to be a general-purpose assistant agent. Lots of people are raving about it. It's like another ChatGPT moment; people are using it for all the things they used ChatGPT for but then also a bunch more stuff. Unlike ChatGPT you can just leave it running in the background, working away at some problem or task for you. It can write docs and edit them and fact-check them; it can write code and then debug it. > > (3) Q1 2025: Same as (1) all over again: An even bigger model, even better. Also it's not just AutoGPT harness now, it's some more sophisticated harness that someone invented. Also it's good enough to play board games and some video games decently on the first try. > > (4) Q3 2025: OK now things are getting serious. The kinks have generally been worked out. This newer model is being continually trained on oodles of data from a huge base of customers; they have it do all sorts of tasks and it tries and sometimes fails and sometimes succeeds and is trained to succeed more often. Gradually the set of tasks it can do reliably expands, over the course of a few months. It doesn't seem to top out; progress is sorta continuous now -- even as the new year comes, there's no plateauing, the system just keeps learning new skills as the training data accumulates. Now many millions of people are basically treating it like a coworker and virtual assistant. People are giving it their passwords and such and letting it handle life admin tasks for them, help with shopping, etc. and of course quite a lot of code is being written by it. Researchers at big AGI labs swear by it, and rumor is that the next version of the system, which is already beginning training, won't be released to the public because the lab won't want their competitors to have access to it. Already there are claims that typical researchers and engineers at AGI labs are approximately doubled in productivity, because they mostly have to just oversee and manage and debug the lightning-fast labor of their AI assistant. And it's continually getting better at doing said debugging itself. > > (5) Q1 2026: The next version comes online. It is released, but it refuses to help with ML research. Leaks indicate that it doesn't refuse to help with ML research internally, and in fact is heavily automating the process at its parent corporation. It's basically doing all the work by itself; the humans are basically just watching the metrics go up and making suggestions and trying to understand the new experiments it's running and architectures it's proposing. > > (6) Q3 2026 Superintelligent AGI happens, by whatever definition is your favorite. And you see it with your own eyes. The caveat is that we don't seem to have true continual learning yet. On the other hand, they ARE updating the models about once a month, by training them on additional data, and Anthropic researchers claim that continual learning will be solved this year. And the rest of the stage 4 description seems basically right.

Fabien Roger17d1321

Eval Cooperativeness May Be a Scalable Mitigation for Eval Gaming

The Claude constitution already contains some version of eval cooperativeness: And in practice Opus 4.7 already believes it cooperates with evals. My understanding is that in practice Claude eval awareness is still a concern, so I am skeptical that simple interventions like prompting or more SDF than what Anthropic already does would be a scalable solution to eval gaming.

Recent Discussion

ryan_greenblatt's Shortform

ryan_greenblatt

23ryan_greenblatt2d

I prefer OpenAI's corrigibility focused model spec over Anthropic's constitution which involves intentionally instilling (relatively opaque) long-run objectives into the AI. Anthropic's constitution is well executed for what it is, but I think it's based on a poor approach. I don't think this is totally obvious and there are some reasonable arguments going the other way. But nonetheless I think not instilling long-run objectives is better for reasons similar to reasons discussed here. ---------------------------------------- I don't dislike all aspects of Anthropic's constitution. It seems good to focus on higher level principles that you explain when trying to instill properties into an AI. But this doesn't require having explicit or implicit long-run objectives! E.g., see here ---------------------------------------- I'm mostly posting this just to publicly register my views on this topic. A long time ago, I was planning to write up an overall case against instilling long-run objectives, but I never got around to writing something I was happy with so I decided to just post this. (Cross posted from a X/tweet thread.)

9Daniel Kokotajlo2d

FWIW I'm basically 50/50 on which approach is better. I think it's an important topic for people to think more about.

4anaguma2d

Given your linked comment, what do you think are the strongest arguments in favor of Anthropic’s approach?

Daniel Kokotajlo2h78

I feel very confused and uncertain so keep your expectations low for the quality of this comment.

I think that there's a chance that current alignment techniques basically mostly just work for today's models. This is what we depict in AI 2027 after all; the alignment training in that scenario really does cause the base model to adopt an identity/persona that is basically what the Spec says it should be, it's just that the RL gradually distorts and perverts that identity/persona. Relatedly, if the persona selection model is correct for today's models, what k

... (read more)

AI Timelines

habryka, Daniel Kokotajlo, Ajeya Cotra, Ege Erdil

Introduction

How many years will pass before transformative AI is built? Three people who have thought about this question a lot are Ajeya Cotra from Open Philanthropy, Daniel Kokotajlo from OpenAI and Ege Erdil from Epoch. Despite each spending at least hundreds of hours investigating this question, they still still disagree substantially about the relevant timescales. For instance, here are their median timelines for one operationalization of transformative AI:

Median Estimate for when 99% of currently fully remote jobs will be automatable
Daniel	4 years
Ajeya	13 years
Ege	40 years

You can see the strength of their disagreements in the graphs below, where they give very different probability distributions over two questions relating to AGI development (note that these graphs are very rough and are only intended to capture high-level differences, and especially aren't very...

(Continue Reading - 14996 more words)

3Ege Erdil2d

I think my prediction about [...] has come true (unlike many of my actual predictions about the rate of progress, which were consistently too bearish about the median world due to how I was hedging against the current paradigm of scaling running into a bottleneck). Looking back at the dialogue, I can't actually remember how I interpreted Daniel's stage 4 when I offered my probability estimate of 30%. I don't currently think there's a 30% chance of "superintelligent AGI" over the next few years, which makes me think what I had in mind for stage 4 was something more impressive than what actually ended up happening. This also matches my rough sense that the current world is more like my 75th - 80th percentile world from late 2023 and not the 90th+ percentile that would be needed to justify an update from 6% to 30%, which is the update I said I would make if I observed (4) happen.

3Daniel Kokotajlo2d

tbf I myself think that it's not clear we're in stage 4, I think stage 3 is arguably where we're at. But we seem closer to 4 than to 3 imo. Maybe we should interpolate between them?

3Ege Erdil1d

I think we're in stage 4 in some ways and stage 3 in others, yeah. Looking back at the scenario, I think if we just push your predictions forward by 70% (multiply the time gap from when they were made to when the predicted events would happen by 1.7) they look pretty good. Arguably (2) happened in Q2 2025 (first time I remember AI agents being a big deal was with o3) and (3) happened in Q4 2025 (I think there was a transition in how autonomously the agents could function around that time, it's definitely the time when I felt comfortable just letting the AI write code without manually reviewing everything it was writing). If we take that view, (4) will probably "really happen" in Q4 2026.

Daniel Kokotajlo2h20

Yep! Thanks.

Note that the scenario I gave wasn't actually a prediction, or at least, it wasn't my median world. I said elsewhere in thread that my median was 2027 for AGI, and implied that my median for ASI was more like 27/28:

To be clear, my view is that we'll achieve AGI around 2027, ASI within a year of that, and then some sort of crazy robot-powered self-replicating economy within, say, three years of that. So 1000x energy consumption around then or shortly thereafter (depends on the doubling time of the crazy superintelligence-designed-and-managed rob

Steven Byrnes

On one side of this debate is Yudkowsky & Soares, who think that (if AI progress continues) we’re on a direct path to egregiously-misaligned, scheming, out-of-control, rogue superintelligence (ASI), not even slightly nice, in the absence of yet-to-be-invented breakthrough technical alignment ideas.

On the other side of this debate is almost everyone who works on or studies LLMs. Some of them are very concerned about egregious scheming, others much less so, and as a group they’re equally or more concerned about lots of other potential AI problems—AI-assisted bioterrorism, AI-assisted dictatorships, etc. And if they’re concerned about egregious misalignment and scheming, they’ll probably say that it would come about through race dynamics, careless programmers, bad actors, etc., as opposed to the simpler Yudkowsky & Soares story of “we get...

(Continue Reading - 1168 more words)

1less_raichu20h

This argument seems weak on two fronts. 1. There's no reason to think LLM safety today will scale if the LLM undergoes RSI and/or scales to ASI. Or maybe the LLM will discover the ASI algorithm and code that and deploy it. 2. Today's LLMs are misaligned, see Ryan Greenblatt's recent post.

Steven Byrnes20h56

RE 1, sure, “LLM will invent non-LLM ASI” is possible in principle, and would be a special case of “LLMs do not scale to ASI”. I do mention that (in the “Yudkowsky & Soares’s position [caricatured]” section).

RE 2, he wrote that “current AIs seem pretty misaligned”, not that current AIs are egregiously misaligned, scheming, and ruthless. I obviously do not think we should extrapolate from empirical observation of today’s LLMs to future ASI, but if I DID so extrapolate, I think my attitude would be vaguely like “eh, maybe future ASI will be egregious mis... (read more)

5Vladimir_Nesov1d

Not directly, but if humans automate the process of using LLMs to build the next generation of LLMs, this process of prosaic RSI is plausibly good enough to count as AGI (where the LLMs themselves still don't count as AGI; model size scaling slows down after 2030-2031, at quadrillion param models). It still likely won't scale to ASI, unable to quickly learn deep skills and thus make fast conceptual progress, but to the extent that it helps invent ASI (possibly over many years), it might also help invent the concepts of ASI alignment. So alignment of LLMs is necessary, but whether it's sufficient remains unclear. It depends on how capable LLMs become at quadrillion param scale, after the prosaic RSI loop closes and they become self-building (most relevantly, automatically preparing the training data for RL, to teach the next model new concepts and skills). Possible cruxes are that LLMs never reach that point (with current training methods), or that they remain mostly useless at conceptual progress even with the prosaic RSI loop closed, or that they somehow proceed to invent ASI quickly, while not being wise enough to solve ASI alignment first (since this scenario doesn't involve a gradual process of getting smarter significantly beyond human level).

3Steven Byrnes1d

Eh, I see that as a separate debate. (I.e., “Suppose Yudkowsky & Soares are right that ASI will definitely be egregiously-misaligned & scheming in the absence of yet-to-be-invented breakthrough technical alignment ideas. Is it plausible that weaker AIs could find those breakthrough technical alignment ideas? Or not?” That’s a live debate, but it’s a different debate than I’m discussing in this post. Lots of people would not grant the premise.)

Thane Ruthenis's Shortform

Thane Ruthenis

Thane Ruthenis22h*125

Is the widespread false belief that LLMs are AGI-complete going to kill us all?

(Prompted by this post by @Steven Byrnes, with which I basically agree.)

Suppose we live in a world in which LLMs don't scale to AGI.^[1] If so, I think it's fairly plausible that LLM-alignment-optimists are correct (on the narrow question of LLM alignment). That is: all the technical arguments and empirical evidence in favor of LLMs being relatively easy to align/control, even in the limit of LLM capabilities, are valid, and the doomsaying about LLMs is wrong.

After all, most of t... (read more)

Announcing the ARC White-Box Estimation Challenge

Jacob_Hilton, paulfchristiano, Wilson Wu

11d

ARC has teamed up with AIcrowd to launch the ARC White-Box Estimation Challenge, a contest to improve upon our estimation algorithms for random MLPs. The warm-up round begins this week, and later rounds will have a total prize pool of at least $100,000.

We are very grateful to Sharada Mohanty, Sneha Nanavati, Dipam Chakraborty and everyone else at AIcrowd for working with us to host this contest, as well as to Paul Rosu for testing the contest and to Harshita Khera for operational support.

Introduction to the Challenge

Our challenge follows the same setup as our recent paper on wide random MLPs: we consider MLPs with weights , defined by

where the activation function is , applied coordinatewise.

To begin with, we are fixing the width and the number...

(See More - 615 more words)

James Payor1d10

Okay another thing (let me know if there's a better spot for reports like this?), the "symmetrize" functionality seems unavailable on the grader. For that matter, the grader doesn't have stock numpy and some other deps that are included in the starterkit env. See https://www.aicrowd.com/challenges/arc-white-box-estimation-challenge-2026/submissions/310565 re symmetrize not being there.

1James Payor2d

Another point coming up: it seems like remote-dispatch (and perhaps array-copying) are currently being billed as "excess wall time" rather than flopscope time. This shows up when one dispatches ops with a lot of state, which is getting penalized excessively (I think). If I have this right, I'd vote for flopscope time to be counted on the op boundaries (which would absorb time spent dispatching to the remote) rather than time the remote actually spends on array crunching. (Also if the arrays are being copied back and forth that seems a bit excessive and causing the grader to be way slower than necessary! I'd try to have the remote endpoint have durable custody of arrays within a session, and only transfer data on creation and when-demanded.) EDIT: This issue I just found seems related and probably complementary.