Many people believe that the first AI capable of taking over would be quite different from the LLMs of today. Suppose this is true—does prosaic alignment research on LLMs still reduce x-risk? I believe advances in LLM alignment research reduce x-risk even if future AIs are different. I’ll call these “non-LLM AIs.” In this post, I explore two mechanisms for LLM alignment research to reduce x-risk:

• Direct transfer: We can directly apply the research to non-LLM AIs—for example, reusing behavioral evaluations or retraining model organisms. As I wrote this post, I was surprised by how much research may transfer directly.
• Indirect transfer: The LLM could be involved in training, control, and oversight of the non-LLM AI. Generally, having access to powerful and aligned AIs acts as a force multiplier

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In this episode, Guive Assadi argues that we should give AIs property rights, so that they are integrated in our system of property and come to rely on it. The claim is that this means that AIs would not kill or steal from humans, because that would undermine the whole property system, which would be extremely valuable to them.

Topics we discuss:

• AI property rights
• Why not steal from and kill humans
• Why AIs may fear it could be them next
• AI retirement
• Could humans be upgraded to stay useful?
• Will AI progress continue?
• Why non-obsoletable AIs may still not end human property rights
• Why make AIs with property rights?
• Do property rights incentivize alignment?
• Humans and

In this post, I describe a simple model for forecasting when AI will automate AI development. It is based on the AI Futures model, but more understandable and robust, and has deliberately conservative assumptions.

At current rates of compute growth and algorithmic progress, this model's median prediction is >99% automation of AI R&D in late 2032. Most simulations result in a 1000x to 10,000,000x increase in AI efficiency and 300x-3000x research output by 2035. I therefore suspect that existing trends in compute growth and automation will still produce extremely powerful AI on "medium" timelines, even if the full coding automation and superhuman research taste that drive the AIFM's "fast" timelines (superintelligence by ~mid-2031) don't happen.

Why make this?

• The AI Futures Model (AIFM) has 33 parameters; this has 8.
  • I previously

We often talk about ensuring control, which in the context of this doc refers to preventing AIs from being able to cause existential problems, even if the AIs attempt to subvert our countermeasures. To better contextualize control, I think it's useful to discuss the main threats. I'll focus my discussion on threats induced by misalignment which could plausibly increase existential risk.

While control is often associated with preventing security failures, I'll discuss other issues like sabotaging safety-critical work. I'll list and explain my prioritization of threats. As part of this, I'll argue that rogue internal deployments—cases where the AI is running within the company's datacenter but with control measures disabled—can be substantially worse than self-exfiltration—the AI stealing its weights and running them on an external server—as it might...

As AI systems get more capable, it becomes increasingly uncompetitive and infeasible to avoid deferring to AIs on increasingly many decisions. Further, once systems are sufficiently capable, control becomes infeasible. ^[1] Thus, one of the main strategies for handling AI risk is fully (or almost fully) deferring to AIs on managing these risks. Broadly speaking, when I say "deferring to AIs" ^[2] I mean having these AIs do virtually all of the work to develop more capable and aligned successor AIs, managing exogenous risks, and making strategic decisions. ^[3] If we plan to defer to AIs, I think it's safest...