U-MixFormer architecture.
We propose a novel transformer decoder, U-MixFormer, built upon the U-Net structure, designed for efficient semantic segmentation. Our approach distinguishes itself from the previous transformer methods by leveraging lateral connections between encoder and decoder stages as feature queries for the attention modules, apart from the traditional reliance on skip connections. Moreover, we innovatively mix hierarchical feature maps from various encoder and decoder stages to form a unified representation for keys and values, giving rise to our unique Mix-attention module.
Performance vs. computational efficiency on ADE20K (single-scale inference). U-MixFormer outperforms previous methods in all configurations.
We use MMSegmentation v1.0.0 as the codebase.
For install and data preparation, please find the guidelines in MMSegmentation v1.0.0 for the installation and data preparation.
Environments are conducted on CUDA 11.0
and pytorch 1.13.0
# Single-gpu training
python tools/train.py configs/umixformer/umixformer_mit-b0_8xb2-160k_ade20k-512x512.py
# Multi-gpu training
./tools/dist_train.sh configs/umixformer/umixformer_mit-b0_8xb2-160k_ade20k-512x512.py <GPU_NUM>
Download pre-trained weights from checkpoints.
All our models were trained using 2 A100 GPUs
Example: evaluate U-MixFormer-B0
on ADE20K
:
# Single-gpu training
python tools/test.py configs/umixformer/umixformer_mit-b0_8xb2-160k_ade20k-512x512.py /path/to/checkpoint_file
# Multi-gpu training
./tools/dist_test.sh configs/umixformer/umixformer_mit-b0_8xb2-160k_ade20k-512x512.py /path/to/checkpoint_file <GPU_NUM>
python demo/image_demo.py ${IMAGE_FILE} ${CONFIG_FILE} ${CHECKPOINT_FILE} [--out-file ${OUTPUT_IMAGE_NAME}] [--device ${DEVICE_NAME}] [--palette-thr ${PALETTE}]
Example: visualize U-MixFormer-B0
on cityscapes
:
python demo/image_demo.py demo/demo.png configs/umixformer/umixformer_mit-b0_8xb1-160k_cityscapes-1024x1024.py \
/path/to/checkpoint_file --out-file demo/output.png --device cuda:0 --palette cityscapes
Please first install mmdeploy in another folder and run on mmsegmentation folder
python /path/to/MMDEPLOY_PATH/tools/deploy.py ${DEPLOY_CONFIG_FILE} ${MODEL_CONFIG} ${CHECKPOINT_FILE} ${IMAGE_FILE} \
[--work-dir ${SAVE_FOLDER_NAME}] [--device ${DEVICE_NAME}] [--dump-info]
Example: Deploy U-MixFormer-B0
on ADE20K into ONNX model:
python /path/to/MMDEPLOY_PATH/tools/deploy.py ../mmdeploy/configs/mmseg/segmentation_onnxruntime_static-512x512.py \
configs/umixformer/umixformer_mit-b0_8xb2-160k_ade20k-512x512.py CHECKPOINT_FILE \
demo/demo.png \
--work-dir mmdeploy_model/umixformer_mit_b0_ade_512x512 \
--device cuda \
--dump-info
Performance comparison with the state-of-the art light-weight and middle-weight methods on ADE20K and Cityscapes
This project is released under the Apache 2.0 license.