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Perceiver AR

Perceiver AR is an autoregressive, modality-agnostic architecture which uses cross-attention to map long-range inputs to a small number of latents while also maintaining end-to-end causal masking. Perceiver AR can directly attend to over a hundred thousand tokens, enabling practical long-context density estimation without the need for hand-crafted sparsity patterns or memory mechanisms.

For more details, see our ICML 2022 paper: https://arxiv.org/abs/2202.07765

An implementation is also available for T5X/Flaxformer.

Setup

First, install dependencies following these instructions:

  1. Create a virtual env: python3 -m venv ~/.venv/perceiver-ar
  2. Switch to the virtual env: source ~/.venv/perceiver-ar/bin/activate
  3. Follow instructions for installing JAX on your platform: https://github.com/google/jax#installation
  4. Install other dependencies: pip install -r requirements.txt

Training

As an example of the model, a 32-position version of the Copy Task from our paper can be trained using only a local CPU.

PYTHONPATH=.::$PYTHONPATH python perceiver_ar/experiment.py \
  --config=perceiver_ar/experiment.py:random_mirrored_32

By default, checkpoints and events will be saved to /tmp/perceiver_ar.

Training metrics will be periodically written to Tensorboard event files which can be viewed using:

tensorboard --logdir /tmp/perceiver_ar/

During training, use Ctrl+C to save a checkpoint and Ctrl+\ to save a checkpoint and exit.

Evaluation

To evaluate the latest saved checkpoint:

CHECKPOINTS="/tmp/perceiver_ar"
LATEST_CHECKPOINT="${CHECKPOINTS}/models/latest/$(ls -tr ${CHECKPOINTS}/models/latest/ | tail -n 1)"
echo "Evaluating ${LATEST_CHECKPOINT}"
PYTHONPATH=.::$PYTHONPATH python perceiver_ar/experiment.py \
  --config=perceiver_ar/experiment.py:random_mirrored_32 \
  --jaxline_mode=eval \
  --config.one_off_evaluate=True \
  --config.restore_path="${LATEST_CHECKPOINT}"

Results will be written to the console and can also be viewed from Tensorboard.

Inference

To run inference in a local Jupyter notebook:

jupyter notebook

Load inference.ipynb and follow the instructions in the notebook.

Pretrained Copy Task

The notebook also supports loading a pretrained checkpoint for the 131k-position copy task used in our paper. This model is fairly large, so inferring more than a few positions will likely require a large accelerator. The notebook has been tested to run on a GCP TPU VM using a TPU v3-8.

Unit Tests

To run all unit tests:

pytest

Disclaimer

This is not an officially supported Google product.

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