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Authors: Senthooran Rajamanoharan*, Arthur Conmy*, Lewis Smith, Tom Lieberum, Vikrant Varma, János Kramár, Rohin Shah, Neel Nanda
A new paper from the Google DeepMind mech interp team: Improving Dictionary Learning with Gated Sparse Autoencoders!
Gated SAEs are a new Sparse Autoencoder architecture that seems to be a significant Pareto-improvement over normal SAEs, verified on models up to Gemma 7B. They are now our team's preferred way to train sparse autoencoders, and we'd love to see them adopted by the community! (Or to be convinced that it would be a bad idea for them to be adopted by the community!)
They achieve similar reconstruction with about half as many firing features, and while being either comparably or more interpretable (confidence interval for the increase is 0%-13%).
See Sen's Twitter summary, my Twitter summary, and the paper!
We use learning rate 0.0003 for all Gated SAE experiments, and also the GELU-1L baseline experiment. We swept for optimal baseline learning rates on GELU-1L for the baseline SAE to generate this value.
For the Pythia-2.8B and Gemma-7B baseline SAE experiments, we divided the L2 loss by , motivated by wanting better hyperparameter transfer, and so changed learning rate to 0.001 or 0.00075 for all the runs (currently in Figure 1, only attention output pre-linear uses 0.00075. In the rerelease we'll state all the values used). We didn't see n...
At some point in the future, AI developers will need to ensure that when they train sufficiently capable models, the weights of these models do not leave the developer’s control. Ensuring that weights are not exfiltrated seems crucial for preventing threat models related to both misalignment and misuse. The challenge of defending model weights has previously been discussed in a RAND report.
In this post, I’ll discuss a point related to preventing weight exfiltration that I think is important and under-discussed: unlike most other cases where a defender wants to secure data (e.g. emails of dissidents or source code), model weights are very large files. At the most extreme, it might be possible to set a limit on the total amount of data uploaded from your inference servers so that...
If anyone wants to work on this or knows people who might, I'd be interested in funding work on this (or helping secure funding - I expect that to be pretty easy to do).
This is a linkpost for our paper Explaining grokking through circuit efficiency, which provides a general theory explaining when and why grokking (aka delayed generalisation) occurs, and makes several interesting and novel predictions which we experimentally confirm (introduction copied below). You might also enjoy our explainer on X/Twitter.
Abstract
One of the most surprising puzzles in neural network generalisation is grokking: a network with perfect training accuracy but poor generalisation will, upon further training, transition to perfect generalisation. We propose that grokking occurs when the task admits a generalising solution and a memorising solution, where the generalising solution is slower to learn but more efficient, producing larger logits with the same parameter norm. We hypothesise that memorising circuits become more inefficient with larger training datasets while generalising circuits do...
Sounds plausible, but why does this differentially impact the generalizing algorithm over the memorizing algorithm?
Perhaps under normal circumstances both are learned so fast that you just don't notice that one is slower than the other, and this slows both of them down enough that you can see the difference?
Summary: Evaluations provide crucial information to determine the safety of AI systems which might be deployed or (further) developed. These development and deployment decisions have important safety consequences, and therefore they require trustworthy information. One reason why evaluation results might be untrustworthy is sandbagging, which we define as strategic underperformance on an evaluation. The strategic nature can originate from the developer (developer sandbagging) and the AI system itself (AI system sandbagging). This post is an introduction to the problem of sandbagging.
The Volkswagen emissions scandal
There are environmental regulations which require the reduction of harmful emissions from diesel vehicles, with the goal of protecting public health and the environment. Volkswagen struggled to meet these emissions standards while maintaining the desired performance and fuel efficiency of their diesel engines (Wikipedia). Consequently, Volkswagen...
List sorting does not play well with few-shot mostly doesn't replicate with davinci-002.
When using length-10 lists (it crushes length-5 no matter the prompt), I get:
- 32-shot, no fancy prompt: ~25%
- 0-shot, fancy python prompt: ~60%
- 0-shot, no fancy prompt: ~60%
So few-shot hurts, but the fancy prompt does not seem to help. Code here.
I'm interested if anyone knows another case where a fancy prompt increases performance more than few-shot prompting, where a fancy prompt is a prompt that does not contain information that a human would use to solve the task. ...
In 2022, it was announced that a fairly simple method can be used to extract the true beliefs of a language model on any given topic, without having to actually understand the topic at hand. Earlier, in 2021, it was announced that neural networks sometimes ‘grok’: that is, when training them on certain tasks, they initially memorize their training data (achieving their training goal in a way that doesn’t generalize), but then suddenly switch to understanding the ‘real’ solution in a way that generalizes. What’s going on with these discoveries? Are they all they’re cracked up to be, and if so, how are they working? In this episode, I talk to Vikrant Varma about his research getting to the bottom of these questions.
Topics we discuss:
Daniel Filan: But I would’ve guessed that there wouldn’t be a significant complexity difference between the frequencies. I guess there’s a complexity difference in how many frequencies you use.
Vikrant Varma: Yes. That’s one of the differences: how many you use and their relative strength and so on. Yeah, I’m not really sure. I think this is a question we pick out as a thing we would like to see future work on.
My pet hypothesis here is that (a) by default, the network uses whichever frequencies were highest at initialization (for which there is significant ...