29 - Science of Deep Learning with Vikrant Varma

AXRP - the AI X-risk Research Podcast

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27d ago 2:13:46

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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.

Patreon: patreon.com/axrpodcast

Ko-fi: ko-fi.com/axrpodcast

Topics we discuss, and timestamps:

0:00:36 - Challenges with unsupervised LLM knowledge discovery, aka contra CCS

0:00:36 - What is CCS?

0:09:54 - Consistent and contrastive features other than model beliefs

0:20:34 - Understanding the banana/shed mystery

0:41:59 - Future CCS-like approaches

0:53:29 - CCS as principal component analysis

0:56:21 - Explaining grokking through circuit efficiency

0:57:44 - Why research science of deep learning?

1:12:07 - Summary of the paper's hypothesis

1:14:05 - What are 'circuits'?

1:20:48 - The role of complexity

1:24:07 - Many kinds of circuits

1:28:10 - How circuits are learned

1:38:24 - Semi-grokking and ungrokking

1:50:53 - Generalizing the results

1:58:51 - Vikrant's research approach

2:06:36 - The DeepMind alignment team

2:09:06 - Follow-up work

The transcript: axrp.net/episode/2024/04/25/episode-29-science-of-deep-learning-vikrant-varma.html

Vikrant's Twitter/X account: twitter.com/vikrantvarma_

Main papers:

- Challenges with unsupervised LLM knowledge discovery: arxiv.org/abs/2312.10029

- Explaining grokking through circuit efficiency: arxiv.org/abs/2309.02390

Other works discussed:

- Discovering latent knowledge in language models without supervision (CCS): arxiv.org/abs/2212.03827

- Eliciting Latent Knowledge: How to Tell if your Eyes Deceive You: https://docs.google.com/document/d/1WwsnJQstPq91_Yh-Ch2XRL8H_EpsnjrC1dwZXR37PC8/edit

- Discussion: Challenges with unsupervised LLM knowledge discovery: lesswrong.com/posts/wtfvbsYjNHYYBmT3k/discussion-challenges-with-unsupervised-llm-knowledge-1

- Comment thread on the banana/shed results: lesswrong.com/posts/wtfvbsYjNHYYBmT3k/discussion-challenges-with-unsupervised-llm-knowledge-1?commentId=hPZfgA3BdXieNfFuY

- Fabien Roger, What discovering latent knowledge did and did not find: lesswrong.com/posts/bWxNPMy5MhPnQTzKz/what-discovering-latent-knowledge-did-and-did-not-find-4

- Scott Emmons, Contrast Pairs Drive the Performance of Contrast Consistent Search (CCS): lesswrong.com/posts/9vwekjD6xyuePX7Zr/contrast-pairs-drive-the-empirical-performance-of-contrast

- Grokking: Generalizing Beyond Overfitting on Small Algorithmic Datasets: arxiv.org/abs/2201.02177

- Keeping Neural Networks Simple by Minimizing the Minimum Description Length of the Weights (Hinton 1993 L2): dl.acm.org/doi/pdf/10.1145/168304.168306

- Progress measures for grokking via mechanistic interpretability: arxiv.org/abs/2301.0521

Episode art by Hamish Doodles: hamishdoodles.com

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