An alternative idea is to put annual quotas on GPU production. The oil and dairy industries already do this to control prices and the fishing industry does it to avoid overfishing.

I think it depends on the context. It's the norm for employees in companies to have managers though as @Steven Byrnes said, this is partially for motivational purposes since the incentives of employees are often not fully aligned with those of the company. So this example is arguably more of an alignment than a capability problem.

I can think of some other examples of humans acting in highly autonomous ways:

• To the best of my knowledge, most academics and PhD students are expected to publish novel research in a highly autonomous way.
• Novelists can work with a lot of autonomy when writing a book (though they're a minority).
• There are also a lot of personal non-work goals like saving for retirement or raising kids which require high autonomy over a long period of time.
• Small groups of people like a startup can work autonomously for years without going off the rails like a group of LLMs probably would after a while (e.g. the Claude bliss attractor).

Excellent post, thank you for taking the time to articulate your ideas in a high-quality and detailed way. I think this is a fantastic addition to LessWrong and the Alignment Forum. It offers a novel perspective on AI risk and does so in a curious and truth-seeking manner that's aimed at genuinely understanding different viewpoints.

Here are a few thoughts on the content of the first post:

I like how it offers a radical perspective on AGI in terms of human intelligence and describes the definition in an intuitive way. This is necessary as increasingly AGI is being redefined as something like "whatever LLM comes out next year". I definitely found the post illuminating and resulted in a perspective shift because it described an important but neglected vision of how AGI might develop. It feels like the discourse around LLMs is sucking the oxygen out of the room, making it difficult to seriously consider alternative scenarios.

I think the basic idea in the post is that LLMs are built by applying an increasing amount of compute to transformers trained via self-supervised or imitation learning but LLMs will be replaced by a future brain-like paradigm that will need much less compute while being much more effective.

This is a surprising prediction because it seems to run counter to Rich Sutton's bitter lesson which observes that, historically, general methods that leverage computation (like search and learning) have ultimately proven more effective than those that rely on human-designed cleverness or domain knowledge. The post seems to predict a reversal of this long-standing trend (or I'm just misunderstanding the lesson), where a more complex, insight-driven architecture will win out over simply scaling the current simple ones.

On the other hand, there is an ongoing trend of algorithmic progress and increasing computational efficiency which could smoothly lead to the future described in this post (though the post seems to describe a more discontinuous break between current and future AI paradigms).

If the post's prediction comes true, then I think we might see a new "biological lesson": brain-like algorithms will replace deep learning which replaced GOFAI.

The post mentions Janus’s “Simulators” LessWrong blog post which was very popular in 2022 and received hundreds of upvotes.

Anthropic’s responsible scaling policy does mention pausing scaling if the capabilities of their models exceeds their best safety methods:

“We have designed the ASL system to strike a balance between effectively targeting catastrophic risk and incentivising beneficial applications and safety progress. On the one hand, the ASL system implicitly requires us to temporarily pause training of more powerful models if our AI scaling outstrips our ability to comply with the necessary safety procedures. But it does so in a way that directly incentivizes us to solve the necessary safety issues as a way to unlock further scaling, and allows us to use the most powerful models from the previous ASL level as a tool for developing safety features for the next level.”

I think OP and others in the thread are wondering why Anthropic doesn’t stop scaling now given the risks. I think the reason why is that in practice doing so would create a lot of problems:

• How would Anthropic fund their safety research if Claude is no longer SOTA and becomes less popular?
• Is Anthropic supposed to learn from and test only models at current levels of capability and how does it learn about future advanced model behaviors? I haven’t heard a compelling argument for how we could solve superalignment by studying much less advanced models. Imagine trying to align GPT-4 or o3 by only studying and testing GPT-2 from 2019. In reality, future models will probably have lots of unknown unknowns and emergent properties that are difficult or impossible to predict in advance. And then there’s all the social consequences of AI like misuse which are difficult to predict in advance.

Although I’m skeptical that alignment can be solved without a lot of empirical work on frontier models I still think it would better if AI progress were slower.

Thanks for the guide, ARENA is fantastic and I highly recommend it for people interested in learning interpretability!

I'm currently working through the ARENA course now. I completely skipped week 0 because I've done similar content in other courses and university and I'm on section Week 1: Transformer Interpretability now. I'm studying part time so I'm hoping to get through most of the content in a few months.

Some of my thoughts on avoiding the intelligence curse or gradual disempowerment and ensure that humans stay relevant:

• One solution to ensure that the gap between human and AI intelligence does not grow too large:
  • I think it's often easier to verify solutions than generate them which allows less intelligent agents to supervise more intelligent agents. For example, writing a complex computer program might take 10 hours but checking that the code generally takes ~1 hour and running the program and seeing if it behaves as expected only takes a few minutes. This goal could be achieved by limiting the intelligence of AIs or enhancing human cognitive ability somehow.
• Devise ways for giving humans a privileged status:
  • AI agents and their outputs will soon vastly outnumber those of humans. Additionally it's becoming impossible to distinguish between the outputs of AIs and humans.
  • One solution to this problem is to make humans more identifiable by watermarking AI outputs (note that watermarks are widely used for paper money) or developing strong proof of human identity (e.g. the blue Twitter mark, iPhone face ID, fingerprint login). This approach is similar to authentication which is a well-known security problem.
  • A short-term solution to differentiating between humans and AIs is to conduct activities in the physical world (although this won't work once sufficiently advanced humanoid robots are developed). For example, voting, exams, and interviews can be carried out in the real world to ensure that participants are human.
  • Once you have solved the problem of differentiating between AI and human outputs, you could upweight the value of human outputs (e.g. writing, art).