Code and experiments for the paper:
C. Durkan, A. Bekasov, I. Murray, G. Papamakarios, Neural Spline Flows, NeurIPS 2019. [arXiv] [bibtex]
See environment.yml
for required Conda/pip packages, or use this to create a Conda environment with
all dependencies:
conda env create -f environment.yml
Tested with Python 3.5 and PyTorch 1.1.
Data for density-estimation experiments is available at https://zenodo.org/record/1161203#.Wmtf_XVl8eN.
Data for VAE and image-modeling experiments is downloaded automatically using either torchvision
or custom
data providers.
DATAROOT
environment variable needs to be set before running experiments.
Use experiments/face.py
or experiments/plane.py
.
Use experiments/uci.py
.
Use experiments/vae_.py
.
Use experiments/images.py
.
Sacred is used to organize image experiments. See the documentation for more information.
experiments/image_configs
contains .json configurations used for RQ-NSF (C) experiments. For baseline experiments use coupling_layer_type='affine'
.
For example, to run RQ-NSF (C) on CIFAR-10 8-bit:
python experiments/images.py with experiments/image_configs/cifar-10-8bit.json
Corresponding affine baseline run:
python experiments/images.py with experiments/image_configs/cifar-10-8bit.json coupling_layer_type='affine'
To evaluate on the test set:
python experiments/images.py eval_on_test with experiments/image_configs/cifar-10-8bit.json flow_checkpoint='<saved_checkpoint>'
To sample:
python experiments/images.py sample with experiments/image_configs/cifar-10-8bit.json flow_checkpoint='<saved_checkpoint>'