MEMIT: Mass-Editing Memory in a Transformer
Editing thousands of facts into a transformer memory at once.
Table of Contents
- Installation
- MEMIT Algorithm Demo
- Running the Full Evaluation Suite
- Generating Scaling Curves
- How to Cite
Installation
We recommend conda
for managing Python, CUDA, and PyTorch; pip
is for everything else. To get started, simply install conda
and run:
CONDA_HOME=$CONDA_HOME ./scripts/setup_conda.sh
$CONDA_HOME
should be the path to your conda
installation, e.g., ~/miniconda3
.
MEMIT Algorithm Demo
notebooks/memit.ipynb
demonstrates MEMIT. The API is simple; simply specify a requested rewrite of the following form:
request = [
{
"prompt": "{} plays the sport of",
"subject": "LeBron James",
"target_new": {
"str": "football"
}
},
{
"prompt": "{} plays the sport of",
"subject": "Michael Jordan",
"target_new": {
"str": "baseball"
}
},
]
Other similar example(s) are included in the notebook.
Running the Full Evaluation Suite
experiments/evaluate.py
can be used to evaluate any method in baselines/
.
For example:
python3 -m experiments.evaluate \
--alg_name=MEMIT \
--model_name=EleutherAI/gpt-j-6B \
--hparams_fname=EleutherAI_gpt-j-6B.json \
--num_edits=10000 \
--use_cache
Results from each run are stored at results/<method_name>/run_<run_id>
in a specific format:
results/
|__ MEMIT/
|__ run_<run_id>/
|__ params.json
|__ case_0.json
|__ case_1.json
|__ ...
|__ case_10000.json
To summarize the results, you can use experiments/summarize.py
:
python3 -m experiments.summarize --dir_name=MEMIT --runs=run_<run1>,run_<run2>
Running python3 -m experiments.evaluate -h
or python3 -m experiments.summarize -h
provides details about command-line flags.
How to Cite
@article{meng2022memit,
title={Mass Editing Memory in a Transformer},
author={Kevin Meng and Sen Sharma, Arnab and Alex Andonian and Yonatan Belinkov and David Bau},
journal={arXiv preprint arXiv:2210.07229},
year={2022}
}