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Adversarial Generation of Continuous Images [CVPR 2021]

This repo contains INR-GAN implementation built on top of the StyleGAN2-ADA repo. Compared to a traditional convolutional generator, ours is INR-based, i.e. it produces parameters for a fully-connected neural network which generates pixel values independently based on their coordinate positions (see the illustration below).

<div style="text-align:center"> <img src="assets/inr-gan.jpg" alt="INR-GAN illustration" width="500"/> </div>

Performance

We provide the checkpoints of our model with the following FID scores. See Pretrained checkpoints to download them.

ModelLSUN Churches 256x256LSUN Bedroom 256x256FFHQ 256x256#imgs/sec on V100 32gbMemory usage
INR-GAN4.455.719.57266.45 @ batch_size=5023.54 Gb @ batch_size=50
INR-GAN-bil*4.043.434.95209.16 @ batch_size=5023.56 Gb @ batch_size=50
StyleGAN23.862.653.8395.79 @ batch_size=323.65 Gb @ batch_size=32
CIPS2.92-4.3827.27 @ batch_size=168.11 Gb @ batch_size=16

*INR-GAN-bil model uses bilinear interpolation (and instance norm) which "deviates" from the INR "paradigm" because pixels are now generated non-independently. However, it still uses only fully-connected layers (i.e. no convolutions) to generate an image.

The inference speed in terms of #imgs/sec was measured on a single NVidia V100 GPU (32 Gb) without using the mixed precision (see the profiling section below).

Note: our CIPS implementation is not exact. See CIPS for the exact one.

For INR-GAN, memory usage is increased for 2 reasons:

Note that the profiling results can differ depending on the hardware and drivers installed (we used CUDA 10.1.243).

Installation

To install, run the following command:

conda env create --file environment.yaml --prefix ./env
conda activate ./env

Training

To train the model, navigate to the project directory and run:

python src/infra/launch_local.py hydra.run.dir=. +experiment_name=my_experiment_name +dataset.name=dataset_name num_gpus=4

where dataset_name is the name of the dataset without .zip extension inside data/ directory (you can easily override the paths in configs/main.yml). So make sure that data/dataset_name.zip exists and should be a plain directory of images. See StyleGAN2-ADA repo for additional data format details. This training command will create an experiment inside experiments/ directory and will copy the project files into it. This is needed to isolate the code which produces the model.

Pretrained checkpoints

INR-GAN checkpoints:

For Churches, the model works well without additional convolutions on top of 128x128 and 256x256 blocks, that's why we do not use them for this dataset (i.e. extra_convs: {} in the inr-gan.yml config) which makes it run in 301.69 imgs/second. We believe that the reason why it works better on Churches compared to other datasets is that this dataset contains more high-frequency details.

INR-GAN-bil checkpoints:

Data format

We use the same data format as the original StyleGAN2-ADA repo: it is a zip of images. It is assumed that all data is located in a single directory, specified in configs/main.yml.

For completeness, we also provide downloadable links to the datasets:

Download the datasets and put them into data/ directory.

Profiling

To profile the model, run:

CUDA_VISIBLE_DEVICES=0 python src/scripts/profile.py hydra.run.dir=. model=inr-gan.yml

The inference speed in terms of #imgs/sec was measured on a single NVidia V100 GPU (32 Gb). Note, that this model was developed before StyleGAN2-ADA, i.e. before mixed precision was a thing. With mixed precision enabled, StyleGAN2 produced 256.88 #imgs/sec @ batch_size=128. INR-GAN (default architecture) with mixed precision gives only 465.60 #imgs/sec @ batch_size=100 (only 50% speed increase compared to its full-precision version) and we didn't try training it (performance might drop). We also compared to CIPS (which is a parallel work that explores INR-based generation) in terms of speed (didn't try training it). For all the models, we used the optimal batch size unique for them.

License

This repo is built on top of StyleGAN2-ADA, so I assume it is restricted by the NVidia license (though I am not a lawyer).

Bibtex

@article{inr_gan,
    title={Adversarial Generation of Continuous Images},
    author={Ivan Skorokhodov and Savva Ignatyev and Mohamed Elhoseiny},
    journal={arXiv preprint arXiv:2011.12026},
    year={2020}
}

@article{cips,
    title={Image Generators with Conditionally-Independent Pixel Synthesis},
    author={Anokhin, Ivan and Demochkin, Kirill and Khakhulin, Taras and Sterkin, Gleb and Lempitsky, Victor and Korzhenkov, Denis},
    journal={arXiv preprint arXiv:2011.13775},
    year={2020}
}