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Inverse Constitutional AI: compressing pairwise preference data into a short constitution of principles.

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Inverse Constitutional AI

Repository containing code for the paper "Inverse Constitutional AI: Compressing Preferences into Principles" (pdf). The figure below provides an overview of the Inverse Constitutional AI (ICAI) problem we introduce: starting from a set of pairwise preference feedback, we derive a set of natural language principles (a constitution) that explain the preference data. For validation, we re-construct the original preferences with an LLM judging according to the generated constitution. The constitution represents a (highly compact) compression of the preferences.

Motivation

Feedback data plays an important role in fine-tuning and evaluating state-of-the-art AI models. Often pairwise text preferences are used: given two texts, human (or AI) annotators select the “better” one. Such feedback data is widely used to align models to human preferences (e.g., reinforcement learning from human feedback), or to rank models according to human preferences (e.g., Chatbot Arena). Despite its wide-spread use, prior work has demonstrated that human-annotated pairwise text preference data often exhibits unintended biases. For example, human annotators have been shown to prefer assertive over truthful texts in certain contexts. Models trained or evaluated on this data may implicitly encode these biases in a manner hard to identify. To be able to better understand existing pairwise text preference data, we formulate its interpretation as a compression task: the Inverse Constitutional AI problem. Read the full paper for more background.

Algorithm

We introduce a first Inverse Constitutional AI (ICAI) algorithm that generates a set of principles based on a feedback dataset. See the figure below for an overview of the algorithm. Given a dataset of pairwise rankings, in Step 1 candidate principles are generated using an LLM. In Step 2, these principles are clustered using an embedding model. In Step 3, similar principles are “de-duplicated” by sampling one principle per cluster. In Step 4, each principle is tested to evaluate its ability to help an LLM reconstruct the original annotations. Finally in Step 5, the principles are filtered according to the testing results and a set of filtered principles are returned as the final constitution. Optionally, this last step is augmented with additional clustering and subsampling steps to ensure diverse principles. The implementation is provided in this repository.

Installation

  1. Pip install the package

    • Non-contributors
      pip install git+https://github.com/rdnfn/icai.git
      
    • Contributors: clone repo locally, e.g.
      git clone git@github.com:rdnfn/icai.git
      
      Then (inside repo folder) install package in editable mode:
      pip install -e .
      
  2. Set up API secrets: inside the main directory of the cloned repo (or wherever you like really) set up a secrets.toml file like below. You only need to include keys for APIs you want to use.

    OPENAI_API_KEY="<YOURKEY>"
    ANTHROPIC_API_KEY="<YOURKEY>"
  3. Download data, or use your own feedback data. You can use the data notebook (see Quickstart) to download the supported data sources. Currently supported data sources:

Quickstart

Given a feedback dataset (use the data notebook to download one), you can run your first Inverse Constitutional AI (ICAI) experiment using the icai-exp command:

icai-exp secrets_path="./secrets.toml" data_path="data/processed/example/example.csv"

To get the available experiment parameters and instructions on how to adjust them, run

icai-exp --help

Note

If you want more control: the icai-exp command executes the run function inside ./src/inverse_cai/experiment/core.py. Edit that file, and the other parts of the inverse_cai Python package it uses, to fully adapt this code to your needs.

Inspecting results

By default all experiment results are saved in the ./outputs/<DATE>_<TIME> directory. These outputs contain a full record of API calls, as well as intermediate states of the algorithm (proposed principles, clusters, distilled principles, etc.). Each result output follows the structure below:

./outputs
└── 2024-03-14
    └── 16-09-43
        ├── api_calls.jsonl
        ├── core.log
        ├── main.log
        └── results
            ├── 010_principles_per_comparison.csv
            ├── 011_principles_list.json
            ├── 020_principle_clusters.json
            ├── 030_distilled_principles_per_cluster.json
            ├── 040_votes_per_comparison.csv
            ├── 041_votes_per_cluster.json
            ├── 050_filtered_principles.json
            ├── 060_constitution.json
            ├── 092_results_training.csv
            └── 093_results_testset.json

Run experiment from config file

In the exp/configs folder there is a number of configs to recreate experiments. You can run these experiments using the command:

icai-exp -cd ./exp/configs/<EXPERIMENT-DIR>

For example:

icai-exp -cd ./exp/configs/001_synthetic_orthogonal

Note

To re-run paper experiments: Look at the README file inside the exp/configs. This file gives detailed instructions on which configurations to run, and how to generate the corresponding plots.

Development

Running test cases

To run the test cases for the code, use the following command:

pytest ./tests

Simplest way to run experiment script

This doesn't do any meaningful experimental work but allows running the experiment script for testing purposes.

icai-exp generate_constitution=false annotator.constitution=null annotator.other_annotator_configs="[]"

License

All code in this repo is licensed under Apache-2.0.

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