Official code implementation of "Concept Sliders: LoRA Adaptors for Precise Control in Diffusion Models", European Conference on Computer Vision (ECCV 2024).
You can train sliders for FLUX-1 models. Right now it is experimental! Please be patient if it doesn't work as good as SDXL. FLUX is not designed the same way as SDXL.
To play with flux sliders you need to update your packages.
pip install -r flux-sliders/flux-requirements.txt
Now just open the notebook present in the folder flux-sliders
and have fun!
You can now use GPT-4 (or any other openAI model) to create prompts for your text sliders. All you need to do is describe what slider you want to create (e.g: "i want to make people look happy").
Please refer to the GPT-notebook
To set up your python environment:
conda create -n sliders python=3.9
conda activate sliders
git clone https://github.com/rohitgandikota/sliders.git
cd sliders
pip install -r requirements.txt
If you are running on Windows - please refer to these Windows setup guidelines here
To train an age slider - go to train-scripts/textsliders/data/prompts.yaml
and edit the target=person
and positive=old person
and unconditional=young person
(opposite of positive) and neutral=person
and action=enhance
with guidance=4
.
If you do not want your edit to be targetted to person replace it with any target you want (eg. dog) or if you need it global replace person
with ""
Finally, run the command:
python trainscripts/textsliders/train_lora.py --attributes 'male, female' --name 'ageslider' --rank 4 --alpha 1 --config_file 'trainscripts/textsliders/data/config.yaml'
--attributes
argument is used to disentangle concepts from the slider. For instance age slider makes all old people male (so instead add the "female, male"
attributes to allow disentanglement)
To evaluate your trained models use the notebook SD1-sliders-inference.ipynb
To train sliders for SD-XL, use the script train_lora_xl.py
. The setup is same as SDv1.4
python trainscripts/textsliders/train_lora_xl.py --attributes 'male, female' --name 'agesliderXL' --rank 4 --alpha 1 --config_file 'trainscripts/textsliders/data/config-xl.yaml'
To evaluate your trained models use the notebook XL-sliders-inference.ipynb
To train image based sliders, you need to create a ~4-6 pairs of image dataset (before/after edit for desired concept). Save the before images and after images separately. You can also create a dataset with varied intensity effect and save them differently.
To train an image slider for eye size - go to train-scripts/imagesliders/data/config.yaml
and edit the target=eye
and itive='eye'
and unconditional=''
and neutral=eye
and action=enhance
with guidance=4
.
If you want the diffusion model to figure out the edit concept - leave target, positive, unconditional, neutral
as ''
Finally, run the command:
python trainscripts/imagesliders/train_lora-scale.py --name 'eyeslider' --rank 4 --alpha 1 --config_file 'trainscripts/imagesliders/data/config.yaml' --folder_main 'datasets/eyesize/' --folders 'bigsize, smallsize' --scales '1, -1'
For this to work - you need to store your before images in smallsize
and after images in bigsize
. The corresponding paired files in both the folders should have same names. Both these subfolders should be under datasets/eyesize
. Feel free to make your own datasets in your own named conventions.
To train image sliders for SD-XL, use the script train-lora-scale-xl.py
. The setup is same as SDv1.4
python trainscripts/imagesliders/train_lora-scale-xl.py --name 'eyesliderXL' --rank 4 --alpha 1 --config_file 'trainscripts/imagesliders/data/config-xl.yaml' --folder_main '/share/u/rohit/imageXLdataset/eyesize_data/'
Concept sliders can be used to edit real images. We use null inversion to edit the images - instead of prompt, we use sliders!
Checkout - demo_image_editing.ipynb
for mode details.
You can also run the HF hosted gradio slider tool (huge shoutout to gradio and HF team) locally using the following scripts
git lfs install
git clone https://huggingface.co/spaces/baulab/ConceptSliders
cd ConceptSliders
pip install requirements.txt
python app.py
For more inference time gradio demos please refer to Cameduru's repo here
Our user community is amazing! Here is the resource that integrates ControlNet: rohitgandikota#76 (comment)
The preprint can be cited as follows
@inproceedings{gandikota2023erasing,
title={Erasing Concepts from Diffusion Models},
author={Rohit Gandikota and Joanna Materzy\'nska and Tingrui Zhou and Antonio Torralba and David Bau},
booktitle={Proceedings of the 2024 IEEE European Conference on Computer Vision},
note={arXiv preprint arXiv:2311.12092},
year={2024}
}