name: "VGG_FACE_16_layer" layer { name: "data" type: "Data" top: "data" include { phase: TRAIN } data_param { source: "/mgunther/CAFFE_temp/balanced_euclid_all/training_data" backend: LMDB batch_size: 64 } transform_param { scale: 0.003921569 # 1/255 } } layer { name: "label" type: "Data" top: "label" include { phase: TRAIN } data_param { source: "/mgunther/CAFFE_temp/balanced_euclid_all/training_labels" backend: LMDB batch_size: 64 } } layer { name: "data" type: "Data" top: "data" include { phase: TEST } data_param { source: "/mgunther/CAFFE_temp/balanced_euclid_all/validation_data" backend: LMDB batch_size: 64 } transform_param { scale: 0.003921569 # 1/255 } } layer { name: "label" type: "Data" top: "label" include { phase: TEST } data_param { source: "/mgunther/CAFFE_temp/balanced_euclid_all/validation_labels" backend: LMDB batch_size: 64 } } layer { bottom: "data" top: "conv1_1" name: "conv1_1" type: "Convolution" convolution_param { num_output: 64 pad: 1 kernel_size: 3 weight_filler { type: "xavier" } bias_filler { type: "constant" } } } layer { bottom: "conv1_1" top: "conv1_1" name: "relu1_1" type: "ReLU" } layer { bottom: "conv1_1" top: "conv1_2" name: "conv1_2" type: "Convolution" convolution_param { num_output: 64 pad: 1 kernel_size: 3 weight_filler { type: "xavier" } bias_filler { type: "constant" } } } layer { bottom: "conv1_2" top: "conv1_2" name: "relu1_2" type: "ReLU" } layer { bottom: "conv1_2" top: "pool1" name: "pool1" type: "Pooling" pooling_param { pool: MAX kernel_size: 2 stride: 2 } } layer { bottom: "pool1" top: "conv2_1" name: "conv2_1" type: "Convolution" convolution_param { num_output: 128 pad: 1 kernel_size: 3 weight_filler { type: "xavier" } bias_filler { type: "constant" } } } layer { bottom: "conv2_1" top: "conv2_1" name: "relu2_1" type: "ReLU" } layer { bottom: "conv2_1" top: "conv2_2" name: "conv2_2" type: "Convolution" convolution_param { num_output: 128 pad: 1 kernel_size: 3 weight_filler { type: "xavier" } bias_filler { type: "constant" } } } layer { bottom: "conv2_2" top: "conv2_2" name: "relu2_2" type: "ReLU" } layer { bottom: "conv2_2" top: "pool2" name: "pool2" type: "Pooling" pooling_param { pool: MAX kernel_size: 2 stride: 2 } } layer { bottom: "pool2" top: "conv3_1" name: "conv3_1" type: "Convolution" convolution_param { num_output: 256 pad: 1 kernel_size: 3 weight_filler { type: "xavier" } bias_filler { type: "constant" } } } layer { bottom: "conv3_1" top: "conv3_1" name: "relu3_1" type: "ReLU" } layer { bottom: "conv3_1" top: "conv3_2" name: "conv3_2" type: "Convolution" convolution_param { num_output: 256 pad: 1 kernel_size: 3 weight_filler { type: "xavier" } bias_filler { type: "constant" } } } layer { bottom: "conv3_2" top: "conv3_2" name: "relu3_2" type: "ReLU" } layer { bottom: "conv3_2" top: "conv3_3" name: "conv3_3" type: "Convolution" convolution_param { num_output: 256 pad: 1 kernel_size: 3 weight_filler { type: "xavier" } bias_filler { type: "constant" } } } layer { bottom: "conv3_3" top: "conv3_3" name: "relu3_3" type: "ReLU" } layer { bottom: "conv3_3" top: "pool3" name: "pool3" type: "Pooling" pooling_param { pool: MAX kernel_size: 2 stride: 2 } } layer { bottom: "pool3" top: "conv4_1" name: "conv4_1" type: "Convolution" convolution_param { num_output: 512 pad: 1 kernel_size: 3 weight_filler { type: "xavier" } bias_filler { type: "constant" } } } layer { bottom: "conv4_1" top: "conv4_1" name: "relu4_1" type: "ReLU" } layer { bottom: "conv4_1" top: "conv4_2" name: "conv4_2" type: "Convolution" convolution_param { num_output: 512 pad: 1 kernel_size: 3 weight_filler { type: "xavier" } bias_filler { type: "constant" } } } layer { bottom: "conv4_2" top: "conv4_2" name: "relu4_2" type: "ReLU" } layer { bottom: "conv4_2" top: "conv4_3" name: "conv4_3" type: "Convolution" convolution_param { num_output: 512 pad: 1 kernel_size: 3 weight_filler { type: "xavier" } bias_filler { type: "constant" } } } layer { bottom: "conv4_3" top: "conv4_3" name: "relu4_3" type: "ReLU" } layer { bottom: "conv4_3" top: "pool4" name: "pool4" type: "Pooling" pooling_param { pool: MAX kernel_size: 2 stride: 2 } } layer { bottom: "pool4" top: "conv5_1" name: "conv5_1" type: "Convolution" convolution_param { num_output: 512 pad: 1 kernel_size: 3 weight_filler { type: "xavier" } bias_filler { type: "constant" } } } layer { bottom: "conv5_1" top: "conv5_1" name: "relu5_1" type: "ReLU" } layer { bottom: "conv5_1" top: "conv5_2" name: "conv5_2" type: "Convolution" convolution_param { num_output: 512 pad: 1 kernel_size: 3 weight_filler { type: "xavier" } bias_filler { type: "constant" } } } layer { bottom: "conv5_2" top: "conv5_2" name: "relu5_2" type: "ReLU" } layer { bottom: "conv5_2" top: "conv5_3" name: "conv5_3" type: "Convolution" convolution_param { num_output: 512 pad: 1 kernel_size: 3 weight_filler { type: "xavier" } bias_filler { type: "constant" } } } layer { bottom: "conv5_3" top: "conv5_3" name: "relu5_3" type: "ReLU" } layer { bottom: "conv5_3" top: "pool5" name: "pool5" type: "Pooling" pooling_param { pool: MAX kernel_size: 2 stride: 2 } } layer { bottom: "pool5" top: "fc6" name: "fc6" type: "InnerProduct" inner_product_param { num_output: 4096 weight_filler { type: "xavier" } bias_filler { type: "constant" } } } layer { bottom: "fc6" top: "fc6" name: "relu6" type: "ReLU" } layer { bottom: "fc6" top: "fc6" name: "drop6" type: "Dropout" dropout_param { dropout_ratio: 0.5 } } layer { bottom: "fc6" top: "fc7" name: "fc7" type: "InnerProduct" inner_product_param { num_output: 4096 weight_filler { type: "xavier" } bias_filler { type: "constant" } } } layer { bottom: "fc7" top: "fc7" name: "relu7" type: "ReLU" } layer { bottom: "fc7" top: "fc7" name: "drop7" type: "Dropout" dropout_param { dropout_ratio: 0.5 } } layer { bottom: "fc7" top: "fc8" name: "fc8" type: "InnerProduct" inner_product_param { num_output: 40 weight_filler { type: "xavier" } bias_filler { type: "constant" } } } layer { name: "loss" type: "EuclideanLoss" bottom: "fc8" bottom: "label" top: "prob" }