Figure: Versatile semantics found from various types of GAN models using SeFa.
Closed-Form Factorization of Latent Semantics in GANs
Yujun Shen, Bolei Zhou
Computer Vision and Pattern Recognition (CVPR), 2021 (Oral)
[Paper] [Project Page] [Demo] [Colab]
In this repository, we propose a closed-form approach, termed as SeFa, for unsupervised latent semantic factorization in GANs. With this algorithm, we are able to discover versatile semantics from different GAN models trained on various datasets. Most importantly, the proposed method does not rely on pre-trained semantic predictors and has an extremely fast implementation (i.e., less than 1 second to interpret a model). Below show some interesting results on anime faces, cats, and cars.
NOTE: The following semantics are identified in a completely unsupervised manner, and post-annotated for reference.
Anime Faces | ||
---|---|---|
Pose | Mouth | Painting Style |
Cats | ||
---|---|---|
Posture (Left & Right) | Posture (Up & Down) | Zoom |
Cars | ||
---|---|---|
Orientation | Vertical Position | Shape |
It is very simple to interpret a particular model with
MODEL_NAME=stylegan_animeface512
LAYER_IDX=0-1
NUM_SAMPLES=5
NUM_SEMANTICS=5
python sefa.py ${MODEL_NAME} \
-L ${LAYER_IDX} \
-N ${NUM_SAMPLES} \
-K ${NUM_SEMANTICS}
After the program finishes, there will be two visualization pages in the directory results
.
NOTE: The pre-trained models are borrowed from the genforce repository.
We also provide an interface for interactive editing based on StreamLit. This interface can be locally launched with
pip install streamlit
CUDA_VISIBLE_DEVICES=0 streamlit run interface.py
After the interface is launched, users can play with it via a browser.
NOTE: We have prepared some latent codes in the directory latent_codes
to ensure the synthesis quality, which is completely determined by the pre-trained generator. Users can simply skip these prepared codes by clicking the Random
button.
@inproceedings{shen2021closedform,
title = {Closed-Form Factorization of Latent Semantics in GANs},
author = {Shen, Yujun and Zhou, Bolei},
booktitle = {CVPR},
year = {2021}
}