kaggle-hpa-2021-7th-place-solution
Code for 7th place solution of Human Protein Atlas - Single Cell Classification on Kaggle.
A description of the method can be found in this post in the kaggle discussion.
Dataset Preparation
Resize Images
# Resize train images to 768x768
python scripts/hap_segmenter/create_cell_mask.py resize_image \
--input_directory data/input/hpa-single-cell-image-classification.zip/train \
--output_directory data/input/hpa-768768.zip \
--image_size 768
# Resize train images to 1536x1536
python scripts/hap_segmenter/create_cell_mask.py resize_image \
--input_directory data/input/hpa-single-cell-image-classification.zip/train \
--output_directory data/input/hpa-1536.zip \
--image_size 1536
# Resize test images to 768x768
python scripts/hpa_segmenter/create_cell_mask.py resize_image \
--input_directory /kaggle/input/hpa-single-cell-image-classification/test \
--output_directory data/input/hpa-768-test.zip \
--image_size 768
# Resize test images to 1536x1536
python scripts/hpa_segmenter/create_cell_mask.py resize_image \
--input_directory /kaggle/input/hpa-single-cell-image-classification/test \
--output_directory data/input/hpa-1536-test.zip \
--image_size 1536
You can specify a directory in a zip file in the same way as a normal directory.
Download Public HPA
Download all images in kaggle_2021.tsv in this dataset, resize them into 768x768 and 1536x1536, and archive them as data/input/hpa-public-768.zip and data/input/hpa-public-1536.zip.
Create Cell Mask
# Create cell masks for the Kaggle train set with 1536x1536
python scripts/hpa_segmenter/create_cell_mask.py create_cell_mask \
--input_directory data/input/hpa-1536.zip \
--output_directory data/input/hpa-1536-mask-v2.zip \
--label_cell_scale_factor 1.0
# Resize the masks to 768x768
python scripts/hpa_segmenter/create_cell_mask.py resize_cell_mask \
--input_directory data/input/hpa-1536-mask-v2.zip \
--output_directory data/input/hpa-768-mask-v2-from-1536.zip \
--image_size 768
# Create cell masks for the Public HPA dataset with 1536x1536
python scripts/hpa_segmenter/create_cell_mask.py create_cell_mask \
--input_directory data/input/hpa-public-1536.zip/hpa-public-1536 \
--output_directory data/input/hpa-public-1536-mask-v2.zip \
--label_cell_scale_factor 1.0
# Resize the masks to 768x768
python scripts/hpa_segmenter/create_cell_mask.py resize_cell_mask \
--input_directory data/input/hpa-public-1536-mask-v2.zip \
--output_directory data/input/hpa-public-768-mask-v2-from-1536.zip \
--image_size 768
# Create cell masks for the test set with the original resolution
# Run with `--label_cell_scale_factor = 0.5` to save inference time
python scripts/hpa_segmenter/create_cell_mask.py create_cell_mask \
--input_directory /kaggle/input/hpa-single-cell-image-classification/test \
--output_directory data/input/hpa-test-mask-v2.zip \
--label_cell_scale_factor 0.5
# Resize the masks to 1536x1536
python scripts/hpa_segmenter/create_cell_mask.py resize_cell_mask \
--input_directory data/input/hpa-test-mask-v2.zip \
--output_directory data/input/hpa-test-mask-v2-1536.zip \
--image_size 1536
# Resize the masks to 768x768
python scripts/hpa_segmenter/create_cell_mask.py resize_cell_mask \
--input_directory data/input/hpa-test-mask-v2.zip \
--output_directory data/input/hpa-test-mask-v2-768.zip \
--image_size 768
Create Input for Cell-level Classifier
# Create cell-level inputs for the Kaggle train set using 768x768 images as fixed scale image.
python scripts/hap_segmenter/create_cell_mask.py crop_and_resize_cell \
--image_directory data/input/hpa-768768.zip \
--cell_mask_directory data/input/hpa-768-mask-v2-from-1536.zip \
--output_directory data/input/hpa-cell-crop-v2-192-from-768.zip \
--image_size 192
# Create cell-level inputs for the Public HPA dataset using 768x768 images as fixed scale image.
python scripts/hap_segmenter/create_cell_mask.py crop_and_resize_cell \
--image_directory data/input/hpa-public-768.zip \
--cell_mask_directory data/input/hpa-public-768-mask-v2-from-1536.zip \
--output_directory data/input/hpa-public-cell-crop-v2-192-from-768.zip \
--image_size 192
# Create cell-level inputs for the Kaggle train set using 1536x1536 images as fixed scale image.
python scripts/hap_segmenter/create_cell_mask.py crop_and_resize_cell \
--image_directory data/input/hpa-1536.zip \
--cell_mask_directory data/input/hpa-1536-mask-v2.zip \
--output_directory data/input/hpa-cell-crop-v2-192-from-1536.zip \
--image_size 192
# Create cell-level inputs for the Public HPA dataset using 1536x1536 images as fixed scale image.
python scripts/hap_segmenter/create_cell_mask.py crop_and_resize_cell \
--image_directory data/input/hpa-public-1536.zip \
--cell_mask_directory data/input/hpa-public-1536-mask-v2.zip \
--output_directory data/input/hpa-public-cell-crop-v2-192-from-1536.zip \
--image_size 192
# Create cell-level inputs for the test set using 768x768 images as fixed scale image.
python scripts/hpa_segmenter/create_cell_mask.py crop_and_resize_cell \
--image_directory data/input/hpa-768768-test.zip \
--cell_mask_directory data/input/hpa-test-mask-v2-768.zip \
--output_directory data/input/hpa-test-cell-crop-v2-192-from-768.zip \
--image_size 192
# Create cell-level inputs for the test set using 1536x1536 images as fixed scale image.
python scripts/hpa_segmenter/create_cell_mask.py crop_and_resize_cell \
--image_directory data/input/hpa-1536-test.zip \
--cell_mask_directory data/input/hpa-test-mask-v2-1536.zip \
--output_directory data/input/hpa-test-cell-crop-v2-192-from-1536.zip \
--image_size 192
Training
# Train image-level classifier
python scripts/cam_consistency_training/run.py train \
--config_path scripts/cam_consistency_training/configs/${CONFIG_NAME}.yaml
# Train cell-level classifier
python scripts/cell_crop/run.py train \
--config_path scripts/cell_crop/configs/${CONFIG_NAME}.yaml
If you want to train on multiple GPUs, use a launcher like torch.distributed.launch and pass --local_rank option. You can override the fields in the config by passing an argument like field_name=${value} (e.g. fold_index=1). We trained 5 folds for all models used in the final submission pipeline. The config files are located in scripts/cam_consistency_training/configs and scripts/cell_crop/configs. We trained the models in the following order.
scripts/cam_consistency_training/configs/eff-b2-focal-alpha1-cutmix-pubhpa-maskv2.yamlscripts/cam_consistency_training/configs/eff-b5-focal-alpha1-cutmix-pubhpa-maskv2.yamlscripts/cam_consistency_training/configs/eff-b7-focal-alpha1-cutmix-pubhpa-maskv2.yamlscripts/cam_consistency_training/configs/eff-b2-cutmix-pubhpa-768-to-1536.yaml- Do
predict_validandconcat_valid_predictions(described below) for each model and save the average of the output files underdata/working/consistency_training/b2-1536-b2-b5-b7-768-avg/. scripts/cam_consistency_training/configs/eff-b2-focal-stage2-b2b2b5b7avg.yamlscripts/cell_crop/configs/resnest50-bce-from768-cutmix-softpl.yaml- Do
predict_validandconcat_valid_predictionsfor each model and save the average of the output files underdata/working/image-level-and-cell-crop-both-5folds/. scripts/cam_consistency_training/configs/eff-b2-focal-stage3.yamlscripts/cam_consistency_training/configs/eff-b2-focal-stage3-cos.yamlscripts/cell_crop/configs/resnest50-bce-from768-stage3.yamlscripts/cell_crop/configs/resnest50-bce-from1536-stage3-cos.yaml
Inference
Validation Set
# Image-level classifier inference
python scripts/cam_consistency_training/run.py predict_valid \
--config_path scripts/cam_consistency_training/configs/${CONFIG_NAME}.yaml
# Cell-level classifier inference
python scripts/cell_crop/run.py predict_valid \
--config_path scripts/cell_crop/configs/${CONFIG_NAME}.yaml
# Concatenate the predictions for each fold to obtain the OOF prediction for the entire training data
python scripts/cam_consistency_training/run.py concat_valid_predictions \
--config_path scripts/cam_consistency_training/configs/${CONFIG_NAME}.yaml
python scripts/cell_crop/run.py concat_valid_predictions \
--config_path scripts/cell_crop/configs/${CONFIG_NAME}.yaml
Test Set
# Image-level classifier inference
python scripts/cam_consistency_training/run.py predict_test \
--config_path scripts/cam_consistency_training/configs/${CONFIG_NAME}.yaml
# Cell-level classifier inference
python scripts/cell_crop/run.py predict_test \
--config_path scripts/cell_crop/configs/${CONFIG_NAME}.yaml
# Make our final submission with post-processing
python scripts/average_predictions.py \
--orig_size_cell_mask_directory data/input/hpa-test-mask-v2.zip \
"data/working/consistency_training/eff-b2-focal-stage3/0" \
"data/working/consistency_training/eff-b2-focal-stage3/1" \
"data/working/consistency_training/eff-b2-focal-stage3/2" \
"data/working/consistency_training/eff-b2-focal-stage3/3" \
"data/working/consistency_training/eff-b2-focal-stage3/4" \
"data/working/consistency_training/eff-b2-focal-stage3-cos/0" \
"data/working/consistency_training/eff-b2-focal-stage3-cos/1" \
"data/working/consistency_training/eff-b2-focal-stage3-cos/2" \
"data/working/consistency_training/eff-b2-focal-stage3-cos/3" \
"data/working/consistency_training/eff-b2-focal-stage3-cos/4" \
"data/working/cell_crop/resnest50-bce-from768-stage3/0" \
"data/working/cell_crop/resnest50-bce-from768-stage3/1" \
"data/working/cell_crop/resnest50-bce-from768-stage3/2" \
"data/working/cell_crop/resnest50-bce-from768-stage3/3" \
"data/working/cell_crop/resnest50-bce-from768-stage3/4" \
"data/working/cell_crop/resnest50-bce-from1536-stage3-cos/0" \
"data/working/cell_crop/resnest50-bce-from1536-stage3-cos/1" \
"data/working/cell_crop/resnest50-bce-from1536-stage3-cos/2" \
"data/working/cell_crop/resnest50-bce-from1536-stage3-cos/3" \
"data/working/cell_crop/resnest50-bce-from1536-stage3-cos/4" \
--edge_area_threshold 80000 --center_area_threshold 32000
Use the code on Kaggle Notebook
Use docker to zip the source code and the wheels of the dependencies and upload them as a dataset.
docker run --rm -it -v /path/to/this/repo:/tmp/workspace -w /tmp/workspace/ gcr.io/kaggle-images/python bash ./build_zip.sh
In Kaggle Notebook, when you copy the code as shown below, you can run it the same way as your local environment.
# Make a working directory
!mkdir -p /kaggle/tmp
# Change the current directory
cd /kaggle/tmp
# Copy source code from the uploaded dataset
!cp -r /kaggle/input/<your-dataset-name>/* .
# You can use it as well as local environment
!python scripts/hpa_segmenter/create_cell_mask.py create_cell_mask ...
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