I intend to use my shortform feed for two purposes:

1. To post thoughts that I think are worth sharing that I can then reference in the future in order to explain some belief or opinion I have.

2. To post half-finished thoughts about the math or computer science thing I'm learning at the moment. These might be slightly boring and for that I apologize.

11Matthew Barnett7h

Recently many people have talked about whether MIRI people (mainly Eliezer Yudkowsky, Nate Soares, and Rob Bensinger) should update on whether value alignment is easier than they thought given that GPT-4 seems to understand human values pretty well. Instead of linking to these discussions, I'll just provide a brief caricature of how I think this argument has gone in the places I've seen it. Then I'll offer my opinion that, overall, I do think that MIRI people should probably update in the direction of alignment being easier than they thought, despite their objections. Here's my very rough caricature of the discussion so far, plus my contribution: Non-MIRI people: "Eliezer talked a great deal in the sequences about how it was hard to get an AI to understand human values. For example, his essay on the Hidden Complexity of Wishes [https://www.lesswrong.com/posts/4ARaTpNX62uaL86j6/the-hidden-complexity-of-wishes] made it sound like it would be really hard to get an AI to understand common sense. Actually, it turned out that it was pretty easy to get an AI to understand common sense, since LLMs are currently learning common sense. MIRI people should update on this information." MIRI people: "You misunderstood the argument. The argument was never about getting an AI to understand human values, but about getting an AI to care about human values in the first place. Hence 'The genie knows but does not care'. There's no reason to think that GPT-4 cares about human values, even if it can understand them. We always thought the hard part of the problem was about inner alignment, or, pointing the AI in a direction you want. We think figuring out how to point an AI in whatever direction you choose is like 99% of the problem; the remaining 1% of the problem is getting it to point at the "right" set of values." Me: I agree that MIRI people never thought the problem was about getting AI to merely understand human values, and that they have always said there was extra difficulty

Adele Lopez6m1

I'm not sure if I can find it easily, but I recall Eliezer pointing out (several years ago) that he thought that Value Identification was the "easy part" of the alignment problem, with the getting it to care part being something like an order of magnitude more difficult. He seemed to think (IIRC) this itself could still be somewhat difficult, as you point out. Additionally, the difficulty was always considered in the context of having an alignable AGI (i.e. something you can point in a specific direction), which GPT-N is not under this paradigm.

Announcing Epoch’s dashboard of key trends and figures in Machine Learning

Jaime Sevilla

Machine Learning (ML)AIWorld Modeling

Frontpage

This is a linkpost for https://epochai.org/trends

Developments in Machine Learning have been happening extraordinarily fast, and as their impacts become increasingly visible, it becomes ever more important to develop a quantitative understanding of these changes. However, relevant data has thus far been scattered across multiple papers, has required expertise to gather accurately, or has been otherwise hard to obtain.

Given this, Epoch is thrilled to announce the launch of our new dashboard, which covers key numbers and figures from our research to help understand the present and future of Machine Learning. This includes:

Training compute requirements
Model size, measured by the number of trainable parameters
The availability and use of data for training
Trends in hardware efficiency
Algorithmic improvements for achieving better performance with fewer resources
The growth of investment in training runs over time

Our dashboard gathers all of this...

(See More – 148 more words)

1Edouard Harris9h

Looks awesome! Minor correction on the cost of the GPT-4 training run: the website says $40 million, but sama confirmed publicly that it was over $100M (and several news outlets [https://www.wired.com/story/openai-ceo-sam-altman-the-age-of-giant-ai-models-is-already-over/] have reported the latter number as well).

Jaime Sevilla31m10

Thanks!

Our current best guess is that this includes costs other than the amortized compute of the final training run.

If no extra information surfaces we will add a note clarifying this and/or adjust our estimate.

2Neel Nanda21h

Thanks, that looks really useful! Do you have GPU price performance numbers for lower precision training? Models like Chinchilla were trained in bf16, so that seems a more relevant number.

1Jaime Sevilla10h

Thanks Neel! The difference between tf16 and FP32 comes to a x15 factor IIRC. Though also ML developers seem to prioritise other characteristics than cost effectiveness when choosing GPUs like raw performance and interconnect, so you can't just multiply the top price performance we showcase by this factor and expect that to match the cost performance of the largest ML runs today. More soon-ish.

Understanding and controlling a maze-solving policy network

127

Alex Turner, peligrietzer, Ulisse Mini, montemac, David Udell

SERI MATSShard TheoryInterpretability (ML & AI)Inner AlignmentAI

Frontpage

1mo

Previously: Predictions for shard theory mechanistic interpretability results

**Locally** **retargeting the search** **by modifying a single activation.** We found a residual channel halfway through a maze-solving network. When we set one of the channel activations to +5.5, the agent often navigates to the maze location (shown above in red) implied by that positive activation. This allows limited on-the-fly redirection of the net's goals.

(*The red dot is not part of the image observed by the network*, it just represents the modified activation. Also, this GIF is selected to look cool. Our simple technique often works, but it isn't effortless, and some dot locations are harder to steer towards.)

TL;DR: We algebraically modified the net's runtime goals without finetuning. We also found (what we think is) a "motivational API" deep in...

(Continue Reading – 6613 more words)

Alex Turner9h20

I'd be weary about interpreting the regression coefficients of features that are correlated (see Multicollinearity). Even the sign may be misleading.

We just posted Behavioral statistics for a maze-solving agent.

TL;DR You raise a reasonable worry, but the three key variables^[1] have stable signs and seem like legit decision-making factors. The variable you quote indeed seems to be a statistical artifact, as we speculated.^[2]

There is indeed a strong correlation between two^[3] of our highly predictive variables:

... (read more)

Buck's Shortform

Buck Shlegeris

Buck Shlegeris12h2

It seems like a big input into P(AI takeover) is the extent to which instances of our AI are inclined to cooperate with each other; specifically, the extent to which they’re willing to sacrifice overseer approval at the thing they’re currently doing in return for causing a different instance to get more overseer approval. (I’m scared of this because if they’re willing to sacrifice approval in return for a different instance getting approval, then I’m way more scared of them colluding with each other to fool oversight processes or subvert red-teaming proced... (read more)

2Buck Shlegeris15h

Another item for the list of “mundane things you can do for AI takeover prevention”: We have a wide variety of ways to make AI systems less capable but also less scary. Most alignment research is focused on pushing out the Pareto frontier here. But IMO a lot of value can come from techniques which allow us to choose the right point on this Pareto frontier for a particular application. It seems to me that different AI applications (where by “different AI applications” I’m including things like “different types of tasks you might ask your assistant to do”) have very different tradeoffs between capabilities and scariness. The classic example of this is that you plausibly shouldn’t put your scariest/smartest AIs in charge of running your nuclear weapon silos, because it seems like the returns to being super smart aren’t very high, and the model has particularly good opportunities to behave badly. On the other hand, galaxy brained AIs that were trained end-to-end to use inscrutable thoughts to have incomprehensible ideas can be used fruitfully on tasks where the stakes aren’t high or where verification is easy.

Behavioural statistics for a maze-solving agent

peligrietzer, Alex Turner

Interpretability (ML & AI)Shard TheoryAI

Frontpage

Summary: Understanding and controlling a maze-solving policy network analyzed a maze-solving agent's behavior. We isolated four maze properties which seemed to predict whether the mouse goes towards the cheese or towards the top-right corner:

In this post, we conduct a more thorough statistical analysis, addressing issues of multicollinearity. We show strong evidence that (2) and (3) above are real influences on the agent's decision-making, and weak evidence that (1) is also a real influence. As we speculated in the original post,^[1] (4) falls away as a statistical artifact.

Peli did the stats work and drafted the post, while Alex provided feedback, expanded the visualizations, and ran additional tests for multicollinearity. Some of the work completed in Team Shard under SERI MATS 3.0.

Impressions from trajectory videos

Watching videos Langosco et al.'s experiment,...

(Continue Reading – 2918 more words)

Power-seeking can be probable and predictive for trained agents

Victoria Krakovna, janos

Power Seeking (AI)AgencyThreat ModelsAI

Frontpage

2mo

This is a linkpost for http://arxiv.org/abs/2304.06528

Power-seeking is a major source of risk from advanced AI and a key element of most threat models in alignment. Some theoretical results show that most reward functions incentivize reinforcement learning agents to take power-seeking actions. This is concerning, but does not immediately imply that the agents we train will seek power, since the goals they learn are not chosen at random from the set of all possible rewards, but are shaped by the training process to reflect our preferences. In this work, we investigate how the training process affects power-seeking incentives and show that they are still likely to hold for trained agents under some assumptions (e.g. that the agent learns a goal during the training process).

Suppose an agent is trained using reinforcement learning with reward...

(Continue Reading – 2404 more words)

0neverix1d

How is orbit comparison for sets defined?

Victoria Krakovna18h10

Which definition / result are you referring to?

AI ALIGNMENT FORUM
AF

Recommended Sequences

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Impressions from trajectory videos