Stephen McAleese

IABIED Book Review: Core Arguments and Counterarguments

I think the level of disagreement among the experts implies that there is quite a lot of uncertainty so the key question is how to steer the future toward better outcomes while reasoning and acting under substantial uncertainty.

The framing I currently like best is from Chris Olah’s thread on probability mass over difficulty levels.

The idea is that you have initial uncertainty and a distribution that assigns probability mass to different levels of alignment difficulty.

The goal is to develop new alignment techniques that "eat marginal probability" where over time the most effective alignment and safety techniques can handle the optimistic easy cases, and then the medium and hard cases and so on. I... (read more)

Replying toIABIED Book Review: Core Arguments and Counterarguments

IABIED Book Review: Core Arguments and Counterarguments

Thank's for pointing that out and for the linked post!

I'd say the conclusion is probably the weakest part of the post because after describing the IABIED view and the book's critics I found it hard to reconcile the two views.

I tried getting Gemini to write the conclusion but what it produced seemed even worse: it suggested that we treat AI like any other technology (e.g. cars, electricity) where doomsday forecasts are usually wrong and the technology can be made safe in an iterative way which seems too optimistic to me.

I think my conclusion was an attempt to find a middle ground between the authors of IABIED and the critics by treating AI as a risky but not world-ending technology.

(I'm still not sure what the conclusion should be)

Replying toIABIED Book Review: Core Arguments and Counterarguments

IABIED Book Review: Core Arguments and Counterarguments

Yeah that's probably true and it reminds me of Plank's principle. Thanks for sharing your experience.

I like to think that this doesn't apply to me and that I would change my mind and adopt a certain view if a particularly strong argument or piece of evidence supporting that view came along.

It's about having a scout mindset and not a soldier mindset: changing your mind is not defeat, it's a way of getting closer to the truth.

I like this recent tweet from Sahil Bloom:

I’m increasingly convinced that the willingness to change your mind is the ultimate sign of intelligence. The most impressive people I know change their minds often in response to new

IABIED Book Review: Core Arguments and Counterarguments

Yes, I agree ^[1]. At first, I didn't consider writing this post because I assumed someone else would write a post like it first. The goal was to write a thorough summary of the book's arguments and then analyze them and the counterarguments in a rigorous and unbiased way. I didn't find a review that did this so I wrote this post.

Usually a book review just needs to give a brief summary so that readers can decide whether or not they are interested in reading the book and there are a few IABIED book reviews like this.

But this post is more like an analysis of the arguments and counterarguments than a book review. I wanted a post like this because the book's arguments have really high stakes and it seems like the right thing to do for a third party to review and analyze the arguments in a rigorous and high-quality way.

^{^}
Though I may be biased.

IABIED Book Review: Core Arguments and Counterarguments

19d

The recent book “If Anyone Builds It Everyone Dies” (September 2025) by Eliezer Yudkowsky and Nate Soares argues that creating superintelligent AI in the near future would almost certainly cause human extinction:

If any company or group, anywhere on the planet, builds an artificial superintelligence using anything remotely like current techniques, based on anything remotely like the present understanding of AI, then everyone, everywhere on Earth, will die.

The goal of this post is to summarize and evaluate the book’s core arguments and the main counterarguments critics have made against them.

Although several other book reviews have already been written I found many of them unsatisfying because a lot of them are written by journalists... (read 7485 more words →)

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Replying toEvolution is a bad analogy for AGI: inner alignment

Evolution is a bad analogy for AGI: inner alignment

For human learning, the outer objective in the brain is maximizing hard-coded reward signals and minimizing pain and the brain's inner objectives are the specific habits and values that determine behavior directly and are somewhat aligned with the goals of maximizing pleasure and minimizing pain.

I agree with your high-level view that is something like "If you created a complex system you don't understand then you will likely get unexpected undesirable behavior from it."

That said, I think the EM phenomenon provides a lot of insights that are a significant update on commonly accepted views on AI and AI alignment from several years ago:

The nature of misalignment in EM: Instead of being misaligned in a complex, alien and inscrutable way, emergently misaligned models exhibit behavior that is more like a cartoon villain. The AI does hate you.
Personas: Papers on the subject emphasize the novel 'personas' concept: human-recognizable, coherent characters or personalities that are learned in pretraining.
Importance of pretraining

... (read more)

Yes I agree with RLHF hacking and emergent misalignment are both examples of unexpected generalization but they seem different in a lot of ways.

The process of producing a sycophantic AI looks something like this:
1. Some users like sycophantic responses that agree with the user and click thumbs up on these responses.
2. Train the RLHF reward model on this data.
3. Train the policy model using the reward model. The policy model learns to get high reward for producing responses that seem to agree with the user (e.g. starting sentences with "You're right!").

In the original emergent misalignment paper they:
1. Finetune the model to output insecure code
2. After fine-tuning, the model exhibits broad misalignment, such... (read more)

Link: https://www.mechanize.work/blog/unfalsifiable-stories-of-doom/

OpenAI wrote in a blog post that the GPT-4o sycophancy in early 2025 was a consequence of excessive reward hacking on thumbs up/thumbs down data from users.

I think "Sydney" Bing and Grok MechaHitler are best explained as examples of misaligned personas that exist in those LLMs. I'd consider misaligned personas (related to emergent misalignment) to be a novel alignment failure mode that is unique to LLMs and their tendency to act as simulators of personas.

Stephen McAleese1moQuick Take

The AI company Mechanize posted a blog post in November called "Unfalsifiable stories of doom" which is a high-quality critique of AI doom and IABIED that I haven't seen shared or discussed on LessWrong yet.

AI summary: the evolution→gradient descent analogy breaks down because GD has fine-grained parameter control unlike evolution's coarse genomic selection; the "alien drives" evidence (Claude scheming, Grok antisemitism, etc.) actually shows human-like failure modes; and the "one try" framing ignores that iterative safety improvements have empirically worked (GPT-1→GPT-5).

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Shallow review of technical AI safety, 2025

technicalities

technicalities, Tomáš Gavenčiak, Stephen McAleese, peligrietzer, Stag, jordine, ozziegooen, Violet Hour, ramennaut

2mo

Website version · Gestalt · Repo and data

Change in 18 latent capabilities between GPT-3 and o1, from Zhou et al (2025)

This is the third annual review of what’s going on in technical AI safety. You could stop reading here and instead explore the data on the shallow review website.

It’s shallow in the sense that 1) we are not specialists in almost any of it and that 2) we only spent about two hours on each entry. Still, among other things, we processed every arXiv paper on alignment, all Alignment Forum posts, as well as a year’s worth of Twitter.

It is substantially a list of lists structuring 800 links. The point is to produce stylised... (read 24743 more words →)

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Epoch AI has a map of frontier AI datacenters: https://epoch.ai/data/data-centers/satellite-explorer

AI Safety Field Growth Analysis 2025

Understanding LLMs: Insights from Mechanistic Interpretability

5mo

Summary

The goal of this post is to analyze the growth of the technical and non-technical AI safety fields in terms of the number of organizations and number of FTEs working in these fields.

In 2022, I estimated that there were about 300 FTEs (full-time equivalents) working in the field of technical AI safety research and 100 on non-technical AI safety work (400 in total).

Based on updated data and estimates from 2025, I estimate that there are now approximately 600 FTEs working on technical AI safety and 500 FTEs working on non-technical AI safety (1100 in total).

Note that this post is an updated version of my old 2022 post Estimating the Current and Future... (read 665 more words →)

I haven't heard anything about RULER on LessWrong yet:

RULER (Relative Universal LLM-Elicited Rewards) eliminates the need for hand-crafted reward functions by using an LLM-as-judge to automatically score agent trajectories. Simply define your task in the system prompt, and RULER handles the rest—no labeled data, expert feedback, or reward engineering required.
✨ Key Benefits:
2-3x faster development - Skip reward function engineering entirely
General-purpose - Works across any task without modification
Strong performance - Matches or exceeds hand-crafted rewards in 3/4 benchmarks
Easy integration - Drop-in replacement for manual reward functions

Apparently it allows LLM agents to learn from experience and significantly improves reliability.

Link: https://github.com/OpenPipe/ART

How Can Average People Contribute to AI Safety?

5mo

2 minute summary

At a high level, a transformer-based LLM is an autoregressive, next-token predictor. It takes a sequence of "tokens" (words or parts of words) as input and produces a prediction for what the next token should be. This prediction takes the form of a probability distribution. Sampling from this distribution results in the next token. This newly selected token is appended to the sequence, and the entire process is repeated to generate the next token. This loop is repeated until the full response is outputted.
The model processes text through a pipeline that involves the main components of the transformer:
- Tokenizer: Breaks the input sentence into a list of tokens (words or parts

... (read 8819 more words →)

A recent essay called "Keep the Future Human" made a compelling case for avoiding building AGI in the near future and building tool AI instead.

The main point of the essay is that AGI is the intersection of three key capabilities:

High autonomy
High generality
High intelligence

It argues that these three capabilities are dangerous when combined together and pose unacceptable risks to the job market and culture of humanity and would replace rather than augment humans. Instead of building AGI, the essay recommends building powerful but controllable tool-like AI that has only one or two of the three capabilities. For example:

Driverless cars are autonomous and intelligent but not general.
AlphaFold is intelligent but not autonomous or general.
GPT-4 is intelligent and general but not autonomous.

It also recommends compute limits to limit the overall capability of AIs.

Link: https://keepthefuturehuman.ai/

Shallow review of technical AI safety, 2024

Introduction

By now you've probably read about how AI and AGI could have a transformative effect on the future and how AGI could even be an existential risk. But if you're worried about AI risk and not an AI researcher or policymaker, can you really do anything about it or are most of us just spectators, watching as a handful of people shape the future for everyone?

I recently came across a paragraph in one of Marius Hobbhahn's recent blog posts that partly inspired me to write this:

Most people are acutely aware of AI but powerless. Only a tiny fraction of the population has influence over the AI trajectory. These are the employees at AI companies

... (read 2310 more words →)

The new book Introduction to AI Safety, Ethics and Society by Dan Hendrycks is on Spotify as an audiobook if you want to listen to it.

technicalities

technicalities, Stag, Stephen McAleese, jordine, Dr. David Mathers

from aisafety.world

The following is a list of live agendas in technical AI safety, updating our post from last year. It is “shallow” in the sense that 1) we are not specialists in almost any of it and that 2) we only spent about an hour on each entry. We also only use public information, so we are bound to be off by some additional factor.

The point is to help anyone look up some of what is happening, or that thing you vaguely remember reading about; to help new researchers orient and know (some of) their options and the standing critiques; to help policy people know who to talk to for the actual information; and... (read 12185 more words →)

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Here's an argument for why current alignment methods like RLHF are already much better than what evolution can do.

Evolution has to encode information about the human brain's reward function using just 1 GB of genetic information which means it might be relying on a lot of simple heuristics that don't generalize well like "sweet foods are good".

In contrast, RLHF reward models are built from LLMs with around 25B^[1] parameters which is ~100 GB of information and therefore the capacity of these reward models to encode complex human values may already be much larger than the human genome (~2 orders of magnitude) and this advantage will probably increase in the future as models get larger.

^{^}
Training a Helpful and Harmless Assistant with Reinforcement Learning from Human Feedback

Geoffrey Hinton on the Past, Present, and Future of AI

Could We Automate AI Alignment Research?

Introduction

Geoffrey Hinton is a famous AI researcher who is often referred to as the "godfather of AI" because of his foundational work on neural networks and deep learning from the 1980s until today. Arguably his most significant contribution to the field of AI was the introduction of the backpropagation algorithm for neural network training in 1986 which is widely used to train neural networks today. He was also involved in the development of dropout regularization, AlexNet, the RMSProp optimization algorithm, and the t-SNE visualization method. In 2018 he won the Turing award for his work on deep learning along with Yoshua Bengio and Yann LeCun. In 2024, Hinton won the Nobel Prize... (read 5239 more words →)

The rate of progress on the MATH dataset is incredible and faster than I expected.

The MATH dataset consists of competition math problems for high school students and was introduced in 2021. According to a blog post by Jacob Steinhardt (one of the dataset's authors), 2021 models such as GPT-3 solved ~7% of questions, a Berkeley PhD student solved ~75%, and an IMO gold medalist solved ~90%.

The blog post predicted that ML models would achieve ~50% accuracy on the MATH dataset on June 30, 2025 and ~80% accuracy by 2028.

But recently (September 2024), OpenAI released their new o1 model which achieved ~95% on the MATH dataset.

So it seems like we're getting 2028 performance... (read more)

An Overview of the AI Safety Funding Situation

Summary

Creating an AI that can do AI alignment research (an automated alignment researcher) is one part of OpenAI’s three-part alignment plan and a core goal of their Superalignment team.
The automated alignment researcher will probably involve an advanced language model more capable than GPT-4 and possibly with human-level intelligence. Current alignment approaches such as recursive reward modeling could be used to align the automated alignment researcher.
A key problem with creating an automated alignment researcher is a chicken-and-egg problem where alignment is needed before the AI can be safely created and the AI is needed to create the alignment solution. One solution to this problem is bootstrapping involving an initial alignment solution and iterative improvements to

... (read 6033 more words →)

Retrospective on ‘GPT-4 Predictions’ After the Release of GPT-4

Note: this post was updated in January 2025 to reflect all available data from 2024.

Introduction

AI safety is a field concerned with preventing negative outcomes from AI systems and ensuring that AI is beneficial to humanity. The field does research on problems such as the AI alignment problem which is the problem of designing AI systems that follow user intentions and behave in a desirable and beneficial way.

Understanding and solving AI safety problems may involve reading past research, producing new research in the form of papers or posts, running experiments with ML models, and so on. Producing research typically involves many different inputs such as research staff, compute, equipment, and office space.

These inputs... (read 4436 more words →)