State-of-the-art models such as Gemini aren't LLMs anymore. They are natively multimodal or omni-modal transformer models that can process text, images, speech and video. These models seem to me like a huge jump in capabilities over text-only LLMs like GPT-3.

• Regularize by a function other than KL divergence. For heavy-tailed error distributions, KL divergence doesn’t work, but capping the maximum odds ratio for any action (similar to quantilizers) still results in positive utility.

A recent paper from UC Berkeley named Preventing Reward Hacking with Occupancy Measure Regularization proposes replacing KL divergence regularization with occupancy measure (OM) regularization. OM regularization involves regularizing based on the state or state-action distribution rather than the the action distribution:

"Our insight is that when reward hacking, the agent visits drastically different states from those reached by the safe policy, causing large deviations in state occupancy measure (OM). Thus, we propose regularizing based on the OM divergence between policies instead of AD [action distribution] divergence to prevent reward hacking"

The idea is that regularizing to minimize changes in the action distribution isn't always safe because small changes in the action distribution can cause large changes in the states visited by the agent:

Suppose we have access to a safe policy that drives slowly and avoids falling off the cliff. However, the car is optimizing a proxy reward function that prioritizes quickly reaching the destination, but not necessarily staying on the road. If we try to regularize the car’s action distributions to the safe policy, we will need to apply heavy regularization, since only slightly increasing the probability of some unsafe action (e.g., making a sharp right turn) can lead to disaster.

...

Our proposal follows naturally from this observation: to avoid reward hacking, regularize based on divergence from the safe policy’s occupancy measure, rather than action distribution.  A policy’s occupancy measure (OM) is the distribution of states or state-action pairs seen by a policy when it interacts with its environment.

I just asked GPT-4 a GSM8K problem and I agree with your point. I think what's happening is that GPT-4 has been fine-tuned to respond with chain-of-thought reasoning by default so it's no longer necessary to explicitly ask it to reason step-by-step. Though if you ask it to "respond with just a single number" to eliminate the chain-of-thought reasoning it's problem-solving ability is much worse.

Chain-of-thought prompting makes models much more capable. In the original paper "Chain-of-Thought Prompting Elicits Reasoning in Large Language Models", PaLM 540B with standard prompting only solves 18% of problems but 57% of problems with chain-of-thought prompting.

I expect the use of agent features such as reflection will lead to similar large increases in capabilities as well in the near future.

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.