Skip to content

google-deepmind/neural_networks_chomsky_hierarchy

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 

History

40 Commits
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

Neural Networks and the Chomsky Hierarchy

Overview figure

This repository provides an implementation of our ICLR 2023 paper Neural Networks and the Chomsky Hierarchy.

Reliable generalization lies at the heart of safe ML and AI. However, understanding when and how neural networks generalize remains one of the most important unsolved problems in the field. In this work, we conduct an extensive empirical study (2200 models, 16 tasks) to investigate whether insights from the theory of computation can predict the limits of neural network generalization in practice. We demonstrate that grouping tasks according to the Chomsky hierarchy allows us to forecast whether certain architectures will be able to generalize to out-of-distribution inputs. This includes negative results where even extensive amounts of data and training time never led to any non-trivial generalization, despite models having sufficient capacity to perfectly fit the training data. Our results show that, for our subset of tasks, RNNs and Transformers fail to generalize on non-regular tasks, LSTMs can solve regular and counter-language tasks, and only networks augmented with structured memory (such as a stack or memory tape) can successfully generalize on context-free and context-sensitive tasks.

It is based on JAX and Haiku and contains all code, datasets, and models necessary to reproduce the paper's results.

Content

.
├── models
|   ├── ndstack_rnn.py        - Nondeterministic Stack-RNN (DuSell & Chiang, 2021)
|   ├── rnn.py                - RNN (Elman, 1990)
|   ├── stack_rnn.py          - Stack-RNN (Joulin & Mikolov, 2015)
|   ├── tape_rnn.py           - Tape-RNN, loosely based on Baby-NTM (Suzgun et al., 2019) 
|   └── transformer.py        - Transformer (Vaswani et al., 2017)
├── tasks
|   ├── cs                    - Context-sensitive tasks
|   ├── dcf                   - Determinisitc context-free tasks
|   ├── regular               - Regular tasks
|   └── task.py               - Abstract GeneralizationTask
├── experiments
|   ├── constants.py          - Training/Evaluation constants
|   ├── curriculum.py         - Training curricula (over sequence lengths)
|   ├── example.py            - Example training script (RNN on the Even Pairs task)
|   ├── range_evaluation.py   - Evaluation loop (over unseen sequence lengths)
|   ├── training.py           - Training loop
|   └── utils.py              - Utility functions
├── README.md
└── requirements.txt          - Dependencies

tasks contains all tasks, organized in their Chomsky hierarchy levels (regular, dcf, cs). They all inherit the abstract class GeneralizationTask, defined in tasks/task.py.

models contains all the models we use, written in jax and haiku, two open source libraries.

training contains the code for training models and evaluating them on a wide range of lengths. We also included an example to train and evaluate an RNN on the Even Pairs task. We use optax for our optimizers.

Installation

Clone the source code into a local directory:

git clone https://github.com/google-deepmind/neural_networks_chomsky_hierarchy.git
cd neural_networks_chomsky_hierarchy

pip install -r requirements.txt will install all required dependencies. This is best done inside a conda environment. To that end, install Anaconda. Then, create and activate the conda environment:

conda create --name nnch
conda activate nnch

Install pip and use it to install all the dependencies:

conda install pip
pip install -r requirements.txt

If you have a GPU available (highly recommended for fast training), then you can install JAX with CUDA support.

pip install --upgrade "jax[cuda12_pip]" -f https://storage.googleapis.com/jax-releases/jax_cuda_releases.html

Note that the jax version must correspond to the existing CUDA installation you wish to use (CUDA 12 in the example above). Please see the JAX documentation for more details.

Usage

Before running any code, make sure to activate the conda environment and set the PYTHONPATH:

conda activate nnch
export PYTHONPATH=$(pwd)/..

We provide an example of a training and evaluation run at:

python experiments/example.py

Citing This Work

@inproceedings{deletang2023neural,
  author       = {Gr{\'{e}}goire Del{\'{e}}tang and
                  Anian Ruoss and
                  Jordi Grau{-}Moya and
                  Tim Genewein and
                  Li Kevin Wenliang and
                  Elliot Catt and
                  Chris Cundy and
                  Marcus Hutter and
                  Shane Legg and
                  Joel Veness and
                  Pedro A. Ortega},
  title        = {Neural Networks and the Chomsky Hierarchy},
  booktitle    = {11th International Conference on Learning Representations},
  year         = {2023},
}

License and Disclaimer

Copyright 2022 DeepMind Technologies Limited

All software is licensed under the Apache License, Version 2.0 (Apache 2.0); you may not use this file except in compliance with the Apache 2.0 license. You may obtain a copy of the Apache 2.0 license at: https://www.apache.org/licenses/LICENSE-2.0

All other materials are licensed under the Creative Commons Attribution 4.0 International License (CC-BY). You may obtain a copy of the CC-BY license at: https://creativecommons.org/licenses/by/4.0/legalcode

Unless required by applicable law or agreed to in writing, all software and materials distributed here under the Apache 2.0 or CC-BY licenses are distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the licenses for the specific language governing permissions and limitations under those licenses.

This is not an official Google product.

Releases

No releases published

Packages

No packages published

Languages