This post is not-very-distilled and doesn’t contain much background; it’s intended for people who already have the context of at least these four posts. I’m putting it up mainly as a reference for people who might want to work directly on the math of natural abstractions, and as a technical reference post.

There’s various hints that, in most real-world cases, the distribution of low-level state given high-level natural abstractions should take the form of a maximum entropy distribution, in which:

• The “features” are sums over local terms, and
• The high-level variables are (isomorphic to) the Lagrange multipliers

More formally: we have a low-level causal model (aka Bayes net) $P\left[X^L\right]={\prod }_{i}P\left[X_i^L|X_{pa\left(i\right)}^L\right]$. Given the high-level variables $X^H$, the distribution of low-level variable values should look like

$P\left[X^L|X^H\right]=\frac{1}{Z}P\left[X^L\right]e^{{\lambda }^T\left(X^H\right){\sum }_i{f}_i(X_i^L,X_{pa\left(i\right)}^L)}$

… i.e. the maximum-entropy distribution subject to constraints of the form $E\left[{\sum }_i{f}_i\right(X_i^L,X_{pa\left(i\right)}^L\left)|X^H\right]=\mu \left(X^H\right)$. (Note: $\lambda$, $f_i$, and $\mu$ are all vector-valued.)

This...

Recently, I had a conversation with someone from a math background, asking how they could get into AI safety research. Based on my own path from mathematics to AI alignment, I recommended the following sources. It may prove useful to others contemplating a similar change in career:

• Superintelligence by Nick Bostrom. It condenses all the main arguments for the power and the risk of AI, and gives a framework in which to think of the challenges and possibilities.
• Sutton and Barto's Book: Reinforcement Learning: An Introduction. This gives the very basics of what ML researchers actually do all day, and is important for understanding more advanced concepts. It gives (most of) the vocabulary to understand what ML and AI papers are talking about.
• Gödel without too many tears. This is

This is a linkpost to our working paper “Towards AI Standards Addressing AI Catastrophic Risks: Actionable-Guidance and Roadmap Recommendations for the NIST AI Risk Management Framework”, which we co-authored with our UC Berkeley colleagues Jessica Newman and Brandie Nonnecke. Here are links to both Google Doc and pdf options for accessing our working paper:

• Google Doc (56 pp, last updated 16 May 2022) 
• pdf on Google Drive (56 pp, last updated 16 May 2022)  
• pdf on arXiv (not available yet, planned for a later version)

We seek feedback from readers considering catastrophic risks as part of their work on AI safety and governance. It would be very helpful if you email feedback to Tony Barrett, or share a marked-up copy of the Google Doc with Tony, at anthony.barrett@berkeley.edu. 

If you are providing feedback...