Skip to content

agencyenterprise/neglected-meta-app-railway

Repository files navigation

Analyze Lesswrong Data to Discover Neglected Approaches

TOC

  1. Data Walkthrough
  2. Previous Work - Mose
  3. Previous Work - Steve

Railway Deployment

streamlit apps

streamlit run streamlit_app.py --server.address 0.0.0.0 --server.port $PORT --server.fileWatcherType none --browser.gatherUsageStats false --client.toolbarMode minimal add a variable named PORT to environment variables

Dash Apps

python3 dash_app.py

Data Walkthrough

Data Features

  • article text
  • authors
  • tags
  • lw score: score that determines the page ranking.
  • upvotes: number of upvotes
  • karma: karma score on the less wrong website at time of collection
  • date: Date posted
  • comments: number of comments at time of data collection

Run Book

Update 5/15/2024

To set up:

git clone https://github.com/agencyenterprise/neglected-meta-analysis-lesswrong.git
python3 -m venv neglected-meta-analysis-lesswrong
cd neglected-meta-analysis-lesswrong
source bin/activate
pip install -r requirements.txt
python make_tsv.py

Note you may need to install hdf and the tables package. If using conda, python 3.10 will work but not 3.9 or 3.11 with the current code due to small implementation details of pandas and pytorch.

Data collection steps:

  • Create whitelist of LessWrong tags (https://www.lesswrong.com/tags/all#ARTIFICIAL_INTELLIGENCE -> tag_whitelist.json)
  • Use GPT-4-Turbo to extract candidate "neglected approaches to AI alignment" from LW articles with at least one whitelisted tag (gpt.ipynb -> results/concept_lists.json)
  • Get definition/summary of each extracted candidate using LlamaIndex (rag.ipynb -> results/concept_definitions/summaries.json)
  • Get semantic embedding of candidates using all-MiniLM-L6-v2 (concept-embedding.ipynb -> lw_data/features/candidate_embeddings_all-MiniLM-L6-v2.hdf)
  • Get ngrams of candidates (ngrams.ipynb -> results/ngrams.json)
  • Get text embeddings of articles using text-embedding-3-large (body-embedding.ipynb -> file not contained in repo due to size; contact [email protected])
  • Detect which articles were cross-posted from alignment forum (get_af_articles.ipynb -> alignment_urls.json)

Data limitations:

  • No comment, hyperlink, or citation data are included in the dataset from Lightcone

Analysis steps (concept_list_analysis.ipynb -> lw_data/features)

  • Load data (load.py)
  • Drop candidates which are only one word long (4.5%) or more than 18 words long (~1%)
  • Use DBSCAN to cluster/merge semantically similar candidates
  • Create mapping from candidate to list of article IDs discussing it
  • Compute per-candidate article statistics
  • Create candidate-indexed feature dataframe containing aggregated article statistics, embedded candidate, and averaged embedded article text

ML (ml.ipynb -> app_info.json)

  • Train ML models to classify neglected approaches (1=extracted from AE article about neglected approaches; 0 otherwise)

  • Save list of candidates ranked by model score

  • Use labeling_tool.html to load app_info.json for additional labeling of neglected approaches

To do:

  • Create per-author statistics to use as features (in progress: author-features.ipynb)
  • Get more labels
  • Get comment, citation, and hyperlink data
  • Hierarchically cluster concepts and use hierarchy to:
    • map interaction with concept/cluster over time (comment-related timestamps could be useful here for "interaction")
    • shrink search space
  • Embed articles which were too long for OpenAI API
  • Writeup

Steve's NBs:

  • analyze.ipynb
  • contrarian_minority_reports.ipynb
  • fetch-graphql.ipynb
  • newdata.ipynb
  • unpopular_authors.ipynb

Update 05/01/2024

Lightcone provided us with an updated dataset so we dont have to rely on the third party (outdated) dataset used in the original approach. The data can be found in ./lw_data.

See newdata.ipynb for loading and cleaning the data. The notebook also does a bit of author analysis.

The other notebooks are probably mainly useless but some basic clustering was attempted if of interest.

Original approach (Deprecated)

This repository contains code to analyze the Lesswrong alignment research dataset to discover neglected approaches to AI alignment.

Getting started

You can download a snapshot of the dataset at the repo linked above. The repo also contains scripts that can be used to scrape a fresh dataset.

I used Conda to manage my environment. You can create a new environment with the following command:

conda create --name lesswrong_meta python=3.8 jupyterlab pandas numpy matplotlib scikit-learn

Then activate the environment with:

conda activate lesswrong_meta

Approach

Check out the notebook analyze.ipynb to see the code that analyzes the dataset. In it, I've done a bit of cleaning up front, then some KMeans clustering to find clusters of articles. From there, I apply TSNE to visualize the clusters in 2D. I also attempted to normalize the tightness and average score to find clusters with a high average score and few articles, which might be neglected.

Todo - Ideas for determining neglected approaches

  • maybe its authors - they post a lot but they aren’t getting a lot of comments on their posts - how many comments are they getting?
  • Find a way to analyze the full text of the clusters to determine if there are patterns that may indicate neglected approaches.
  • Generate a list of neglected approaches based on the clusters.

About

No description, website, or topics provided.

Resources

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published

Contributors 4

  •  
  •  
  •  
  •