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Pretrained Densenet models for TensorFlow

This repository is a fork of pudae/tensorflow-densenet, and has been adapted to generate a frozen protobuf for these Densenet Models to be used for robustness evaluation. For more details see CLEVER: A Robustness Metric For Deep Neural Networks.

To generate the frozen protobuf, following the steps below.

Download Models

cd models
./getmodels.sh
cd ..

Export graph

python3 export_inference_graph.py --alsologtostderr --model_name densenet121 --output_file=densenet121_k32.pb --labels_offset=1
python3 export_inference_graph.py --alsologtostderr --model_name densenet169 --output_file=densenet169_k32.pb --labels_offset=1
python3 export_inference_graph.py --alsologtostderr --model_name densenet161 --output_file=densenet161_k48.pb --labels_offset=1

--labeloffset=1 is needed when the classifier is trained with 1000 classes, without an additional background class. Some ImageNet models are trained with 1001 classes.

Freeze graph

python3 freeze_graph.py --input_graph=densenet121_k32.pb --input_checkpoint=models/121/tf-densenet121.ckpt --input_binary=true --output_graph=densenet121_k32_frozen.pb --output_node_names=densenet121/predictions/Reshape_1
python3 freeze_graph.py --input_graph=densenet169_k32.pb --input_checkpoint=models/169/tf-densenet169.ckpt --input_binary=true --output_graph=densenet169_k32_frozen.pb --output_node_names=densenet169/predictions/Reshape_1
python3 freeze_graph.py --input_graph=densenet161_k48.pb --input_checkpoint=models/161/tf-densenet161.ckpt --input_binary=true --output_graph=densenet161_k48_frozen.pb --output_node_names=densenet161/predictions/Reshape_1

How to find nodes

python3 viz.py densenet121_k32.pb /tmp/densenet121_k32_viz/
tensorboard --logdir=/tmp/densenet121_k32_viz/

Then point your browser to localhost:6001 and check the input and output nodes of the graph. For densenet121, the input node is input:0, logit output node is densenet121/predictions/Reshape:0 and probability output (after softmax) is densenet121/predictions/Reshape_1:0. Also take a note of the input image size (224). At the final layer there is a tensor to reshape the output, which is 'densenet121/predictions/Shape:0' (this is not required, if the model does not have a reshape tensor, you can leave this field empty in setup_imagenet.py)

Add entries to setup_imagenet.py

AddModel('densenet121_k32', 'http://jaina.cs.ucdavis.edu/datasets/adv/imagenet/densenet121_k32_frozen.pb', 
         'densenet121_k32_frozen.pb', 224, 'labels.txt', 'input:0',                        
         'densenet121/predictions/Reshape:0', 'densenet121/predictions/Reshape_1:0', 'densenet121/predictions/Shape:0') 
AddModel('densenet169_k32', 'http://jaina.cs.ucdavis.edu/datasets/adv/imagenet/densenet169_k32_frozen.pb', 
         'densenet169_k32_frozen.pb', 224, 'labels.txt', 'input:0',
         'densenet169/predictions/Reshape:0', 'densenet169/predictions/Reshape_1:0', 'densenet169/predictions/Shape:0')
AddModel('densenet161_k48', 'http://jaina.cs.ucdavis.edu/datasets/adv/imagenet/densenet161_k48_frozen.pb', 
         'densenet161_k48_frozen.pb', 224, 'labels.txt', 'input:0', 
         'densenet161/predictions/Reshape:0', 'densenet161/predictions/Reshape_1:0', 'densenet161/predictions/Shape:0')