Spaces:
Running
A newer version of the Gradio SDK is available:
4.38.1
Fine-tuning
We provide fine-tuning scripts for classification, semantic segmentation, depth estimation and more. Please check SETUP.md for set-up instructions first.
General information
Loading pre-trained models
All our fine-tuning scripts support models in the MultiMAE / MultiViT format. Pre-trained models using the timm / ViT format can be converted to this format using the vit2multimae_converter.py
script. More information can be found here.
Modifying configs
The training scripts support both YAML config files and command-line arguments. See here for all fine-tuning config files.
To modify fine-training settings, either edit / add config files or provide additional command-line arguments.
:information_source: Config files arguments override default arguments, and command-line arguments override both default arguments and config arguments.
:warning: When changing settings (e.g., using a different pre-trained model), make sure to modify the output_dir and wandb_run_name (if logging is activated) to reflect the changes.
Experiment logging
To activate logging to Weights & Biases, either edit the config files or use the --log_wandb flag along with any other extra logging arguments.
Classification
We use 8 A100 GPUs for classification fine-tuning. Configs can be found here.
To fine-tune MultiMAE on ImageNet-1K classification using default settings, run:
OMP_NUM_THREADS=1 torchrun --nproc_per_node=8 run_finetuning_cls.py \
--config cfgs/finetune/cls/ft_in1k_100e_multimae-b.yaml \
--finetune /path/to/multimae_weights \
--data_path /path/to/in1k/train/rgb \
--eval_data_path /path/to/in1k/val/rgb
- For a list of possible arguments, see
run_finetuning_cls.py.
Semantic segmentation
We use 4 A100 GPUs for semantic segmentation fine-tuning. Configs can be found here.
ADE20K
To fine-tune MultiMAE on ADE20K semantic segmentation with default settings and RGB as the input modality, run:
OMP_NUM_THREADS=1 torchrun --nproc_per_node=4 run_finetuning_semseg.py \
--config cfgs/finetune/semseg/ade/ft_ade_64e_multimae-b_rgb.yaml \
--finetune /path/to/multimae_weights \
--data_path /path/to/ade20k/train \
--eval_data_path /path/to/ade20k/val
- For a list of possible arguments, see
run_finetuning_semseg.py.
Hypersim
To fine-tune MultiMAE on Hypersim semantic segmentation with default settings and RGB as the input modality, run:
OMP_NUM_THREADS=1 torchrun --nproc_per_node=4 run_finetuning_semseg.py \
--config cfgs/finetune/semseg/hypersim/ft_hypersim_25e_multimae-b_rgb.yaml \
--finetune /path/to/multimae_weights \
--data_path /path/to/hypersim/train \
--eval_data_path /path/to/hypersim/val
- To fine-tune using depth-only and RGB + depth as the input modalities, simply swap the config file to the appropriate one.
- For a list of possible arguments, see
run_finetuning_semseg.py.
NYUv2
To fine-tune MultiMAE on NYUv2 semantic segmentation with default settings and RGB as the input modality, run:
OMP_NUM_THREADS=1 torchrun --nproc_per_node=4 run_finetuning_semseg.py \
--config cfgs/finetune/semseg/nyu/ft_nyu_200e_multimae-b_rgb.yaml \
--finetune /path/to/multimae_weights \
--data_path /path/to/nyu/train \
--eval_data_path /path/to/nyu/test_or_val
- To fine-tune using depth-only and RGB + depth as the input modalities, simply swap the config file to the appropriate one.
- For a list of possible arguments, see
run_finetuning_semseg.py.
Depth estimation
We use 2 A100 GPUs for depth estimation fine-tuning. Configs can be found here.
To fine-tune MultiMAE on NYUv2 depth estimation with default settings, run:
OMP_NUM_THREADS=1 torchrun --nproc_per_node=2 run_finetuning_depth.py \
--config cfgs/finetune/depth/ft_nyu_2000e_multimae-b.yaml \
--finetune /path/to/multimae_weights \
--data_path /path/to/nyu/train \
--eval_data_path /path/to/nyu/test_or_val
- For a list of possible arguments, see
run_finetuning_depth.py.
Taskonomy tasks
We use 1 A100 GPU to fine-tune on Taskonomy tasks. Configs can be found here.
The tasks we support are: Principal curvature, z-buffer depth, texture edges, occlusion edges, 2D keypoints, 3D keypoints, surface normals, and reshading.
For example, to fine-tune MultiMAE on Taskonomy reshading with default settings, run:
OMP_NUM_THREADS=1 torchrun --nproc_per_node=1 run_finetuning_taskonomy.py \
--config cfgs/finetune/taskonomy/rgb2reshading-1k/ft_rgb2reshading_multimae-b.yaml \
--finetune /path/to/multimae_weights \
--data_path /path/to/taskonomy_tiny
- To fine-tune on a different task, simply swap the config file to the appropriate one.
- For a list of possible arguments, see
run_finetuning_taskonomy.py.