Currently, groups of LLM agents can collaborate using frameworks such as ChatDev, which simulates a virtual software company using LLM agents with different roles. Though I think human organizations are still more effective for now.  For example, corporations such as Microsoft have over 200,000 employees and can work on multi-year projects. But it's conceivable that in the future there could be virtual companies composed of millions of AIs that can coordinate effectively and can work continuously at superhuman speed for long periods of time.

I think I might create a new post using information from this post which covers the new AI alignment landscape.

From reading the codebase, it seems to be a LangChain chatbot powered by the default LangChain OpenAI model which is gpt-3.5-turbo-instruct. The announcement blog post also says it's based on gpt-3.5-turbo.

OP says that this post is focused on RL policy gradient algorithms (e.g. PPO) where the RL signal is used by gradient descent to update the policy.

But what about Q-learning which is another popular RL algorithm? My understanding of Q-learning is that the policy network takes an observation as input, calculates the value (expected return) of each possible action in the state $Q(s,a_i)$ and then chooses the action with the highest value.

Does this mean that reward is not the optimization target for policy gradient algorithms but is for Q-learning algorithms?

I agree. GPT-4 is an AGI for the kinds of tasks I care about such as programming and writing. ChatGPT4 in its current form (with the ability to write and execute code) seems to be at the expert human level in many technical and quantitative subjects such as statistics and programming.

For example, last year I was amazed when I gave ChatGPT4 one of my statistics past exam papers and it got all the questions right except for one which involved interpreting an image of a linear regression graph. The questions typically involve understanding the question, thinking of an appropriate statistical method, and doing calculations to find the right answer. Here's an example question:

Times (in minutes) for a sample of 8 players are presented in Table 1 below. Using an appropriate test at the 5% significance level, investigate whether there is evidence of a decrease in the players’ mean 5k time after the six weeks of training. State clearly your assumptions and conclusions, and report a p-value for your test statistic.

The solution to this question is a paired sample t-test.

Sure, GPT-4 has probably seen similar questions before but so do students since they can practice past papers.

This year, one of my professors designed his optimization assignment to be ChatGPT-proof but I found that it could still solve five out of six questions successfully. The questions involved converting natural language descriptions of optimization problems into mathematical formulations and solving them with a program.

One of the few times I've seen GPT-4 genuinely struggle to do a task is when I asked it to solve a variant of the Zebra Puzzle which is a challenging logical reasoning puzzle that involves updating a table based on limited information and using logical reasoning and a process of elimination to find the correct answer.

Strong upvote. I think this is an excellent, carefully written, and timely post. Explaining issues that may arise from current alignment methods is urgent and important. It provides a good explanation of the unidentifiability or inner alignment problem that could arise from advanced AIs systems trained with current behavioral safety methods. It also highlights the difficulty of making AIs that can automate alignment research which is part of OpenAI's current plan. I also liked the in-depth description of what advanced science AIs would be capable of as well as the difficulty of keeping humans in the loop.