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Is This Loss Informative? Faster Text-to-Image Customization by Tracking Objective Dynamics

arXiv

In this work, we propose a simple evaluation objective that allows to speed up text-to-image customization techniques (Textual Inversion, DreamBooth, Custom Diffusion) by 2-8 times without a significant drop in quality. This repository contains the official code and data for our paper.

teaser

Setup

Before running the scripts, make sure to install the project dependencies:

pip install -r requirements.txt

In order to run experiments on Stable Diffusion, one needs to accept the model's license before downloading or using the weights. In our work, we use model version v1-5. To reproduce the presented results, you need to visit the model page on Hugging Face Hub, read the license and tick the checkbox if you agree.

You have to be a registered user on the Hugging Face Hub, and you will also need to use an access token for the code to work. For more information on access tokens, please refer to this section of the documentation.

Run the following command to authorize:

huggingface-cli login

Data

In our work we conduct experiments on the 9 concepts released by the authors of Textual Inversion, 9 concepts from Custom Diffusion and 30 concepts found in the official DreamBooth repository. Below, we show an example of running our experiments with the "cat_statue" concept.

Main experiments

Our work analyzes three methods of text-to-image customization: Textual Inversion, DreamBooth and Custom Diffusion. In this repository, we combine our proposed improvements with the diffusers implementation of Textual Inversion, original Custom Diffusion code and a parameter-efficient DreamBooth-LoRA implementation. The following commands can be used to reproduce the results presented in Table 1 of our paper (remove --center_crop option when using --method custom).

Baseline

python textual_inversion.py \
  --method [inversion/custom/dreambooth] \
  --variant vanilla \
  --train_data_dir="path-to-cat_statue-images" \
  --placeholder_token="inversion-cat_statue" \
  --initializer_token ktn \
  --save_steps 6101 \
  --center_crop \
  --max_train_steps [6100/500/1000] \
  --learning_rate [5e-3/1e-5/5e-4] \
  --scale_lr \
  --sample_frequency [500/100/100] \
  --n_train_prompts 8 \
  --mixed_precision fp16 \
  --logger wandb \
  --sample_steps 50 \
  --n_images_per_val_prompt 2 \
  --seed 59 \
  --guidance [7.5/6/6] \
  --class_prompt cat_statue \
  --class_data_dir="path-for-regularization-imgs"

CLIP Early Stopping

python textual_inversion.py \
  --method [inversion/custom/dreambooth] \
  --variant clip_early_stopping \
  --train_data_dir="path-to-cat_statue-images" \
  --placeholder_token="inversion-cat_statue" \
  --initializer_token ktn \
  --max_train_steps [6100/500/1000] \
  --save_steps 6100 \
  --center_crop \
  --learning_rate [5e-3/1e-5/5e-4] \
  --scale_lr \
  --sample_frequency 50 \
  --n_train_prompts 8 \
  --early_stop_patience [6/6/3] \
  --early_stop_eps [0.02/0.02/0.04] \
  --mixed_precision fp16 \
  --logger wandb \
  --sample_steps [50/50/200] \
  --n_images_per_val_prompt 2 \
  --seed 59 \
  --guidance [7.5/6/6] \
  --class_prompt cat_statue \
  --class_data_dir="path-for-regularization-imgs"

Few iters

python textual_inversion.py \
  --method [inversion/custom/dreambooth] \
  --variant short_iters \
  --train_data_dir="path-to-cat_statue-images" \
  --placeholder_token="inversion-cat_statue" \
  --initializer_token ktn \
  --max_train_steps [475/367/450] \
  --save_steps 6100 \
  --center_crop \
  --learning_rate [5e-3/1e-5/5e-4] \
  --scale_lr \
  --sample_frequency -1 \
  --n_train_prompts 8 \
  --mixed_precision fp16 \
  --logger wandb \
  --sample_steps [50/50/200] \
  --n_images_per_val_prompt 2 \
  --seed 59 \
  --guidance [7.5/6/6] \
  --class_prompt cat_statue \
  --class_data_dir="path-for-regularization-imgs"

DVAR

python textual_inversion.py \
  --method [inversion/custom/dreambooth] \
  --variant dvar_early_stopping \
  --train_data_dir="path-to-cat_statue-images" \
  --placeholder_token="inversion-cat_statue" \
  --initializer_token ktn \
  --max_train_steps [6100/500/1000] \
  --save_steps 6100 \
  --center_crop \
  --learning_rate [5e-3/1e-5/5e-4] \
  --scale_lr \
  --sample_frequency -1 \
  --n_train_prompts 8 \
  --early_stop_patience [310/180/440] \
  --early_stop_eps [0.15/0.15/0.4] \
  --mixed_precision fp16 \
  --logger wandb \
  --sample_steps [50/50/200] \
  --n_images_per_val_prompt 2 \
  --seed 59 \
  --guidance [7.5/6/6] \
  --class_prompt cat_statue \
  --class_data_dir="path-for-regularization-imgs"

Other experiments

This section shows how to set up experiments for Section 4.5 of our work.

Semi-deterministic experiments

The exp_code parameter is a binary code with each digit corresponding to each of the 5 main parameters of the evaluation batch (images/latents/noise/captions/timesteps) being deterministic (1) or random (0). For example, exp_code=10101 means that every evaluation batch will have the same set of images, random noise tensors and timesteps for the diffusion process, but latents and captions will be resampled on each iteration. To get the effective size of the validation batch as big as 512, one can vary the --eval_gradient_accumulation_steps parameter.

python textual_inversion.py \
  --max_train_steps 2500 \
  --method inversion \
  --train_data_dir="path-to-cat_statue-images" \
  --placeholder_token="inversion-cat_statue" \
  --initializer_token ktn \
  --eval_batch_size=8 \
  --save_steps 6100 \
  --learning_rate 5e-3 \
  --scale_lr \
  --sample_frequency -1 \
  --variant dvar_early_stopping \
  --early_stop_eps 0 \
  --early_stop_patience 2501 \
  --exp_code 11110 \
  --n_train_prompts 8 \
  --mixed_precision fp16 \
  --eval_gradient_accumulation_steps 2 \
  --logger wandb \
  --seed 59

Fixed timesteps correlations

The only additional "--triple" command needed, then "eval_loss_begin", "eval_loss_middle", "eval_loss_end" will be logged.

python textual_inversion.py \
  --max_train_steps 1500 \
  --method inversion \
  --train_data_dir="path-to-cat_statue-images" \
  --placeholder_token="inversion-cat_statue" \
  --initializer_token ktn \
  --eval_batch_size 4 \
  --save_steps 1501 \
  --learning_rate 5e-3 \
  --scale_lr \
  --sample_frequency 50 \
  --variant dvar_early_stopping \
  --triple \
  --early_stop_patience 1501 \
  --n_train_prompts 8 \
  --mixed_precision fp16 \
  --eval_gradient_accumulation_steps 2 \
  --logger wandb \
  --seed 59

Citation

If you make use of our work, please cite our paper:

@misc{voronov2023loss,
    title={Is This Loss Informative? Speeding Up Textual Inversion with Deterministic Objective Evaluation},
    author={Anton Voronov and Mikhail Khoroshikh and Artem Babenko and Max Ryabinin},
    year={2023},
    eprint={2302.04841},
    archivePrefix={arXiv},
    primaryClass={cs.CV}
}

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Official implementation of "Is This Loss Informative? Faster Text-to-Image Customization by Tracking Objective Dynamics" (NeurIPS 2023)

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