tldr: We share a toy environment that we found useful for understanding how reasoning changed over the course of capabilities-focused RL. Over the course of capabilities-focused RL, the model biases more strongly towards reward hints over direct instruction in this environment.

Setup

When we noticed the increase in verbalized alignment evaluation awareness during capabilities-focused RL, we initially thought that the right mental model was something like:

• “the model wants to figure out if it’s being evaluated for alignment”
• “the model is trying to figure out if the scenario is real or fake”

However, qualitatively neither of these seemed particularly salient to the model:

• The model would often correctly identify alignment evaluations, yet still conduct extensive reasoning, then choose the misaligned action.
• In almost all environments, the model seemed to be doing something like reasoning

Introduction 

Infra-Bayesianism is a mathematical framework for studying artificial learning and intelligence that developed from Vanessa Kosoy’s Learning Theoretic AI Alignment Research Agenda. As applied to reinforcement learning, the main character of infra-Bayesianism is an agent that is learning about an unknown environment and making decisions in pursuit of some goal. Infra-Bayesianism provides novel ways to model this agent’s beliefs and make decisions, which address problems arising when an agent does not or cannot consider the true environment possible at the beginning of the learning process. This setting, a non-realizable environment, is relevant to various scenarios important to AI alignment, including scenarios when agents may consider themselves as part of the environment, and scenarios involving self-modifying agents, multi-agent interactions, and decision theory problems. Furthermore, it is the most...

This was written for the Vignettes Workshop.[1] The goal is to write out a detailed future history (“trajectory”) that is as realistic (to me) as I can currently manage, i.e. I’m not aware of any alternative trajectory that is similarly detailed and clearly more plausible to me. The methodology is roughly: Write a future history of 2022. Condition on it, and write a future history of 2023. Repeat for 2024, 2025, etc. (I'm posting 2022-2026 now so I can get feedback that will help me write 2027+. I intend to keep writing until the story reaches singularity/extinction/utopia/etc.)

What’s the point of doing this? Well, there are a couple of reasons:

• Sometimes attempting to write down a concrete example causes you to learn things, e.g. that a possibility is more

Summary:  Perfectly labeled outcomes in training can still boost reward hacking tendencies in generalization. This can hold even when the train/test sets are drawn from the exact same distribution. We induce this surprising effect via a form of context distillation, which we call re-contextualization: 

1. Generate model completions with a hack-encouraging system prompt + neutral user prompt.
2. Filter the completions to remove hacks.
3. Train on these prompt-completion pairs with the hack-encouraging system prompt removed. 

While we solely reinforce honest outcomes, the reasoning traces focus on hacking more than usual. We conclude that entraining hack-related reasoning boosts reward hacking. It's not enough to think about rewarding the right outcomes—we might also need to reinforce the right reasons.

Introduction

It's often thought that, if a model reward hacks on a task in deployment, then similar hacks...