def build_model():
l0 = nn.layers.InputLayer((batch_size, 1, patch_size[0], patch_size[1]))
l0c = dihedral.CyclicSliceLayer(l0)
l1 = convroll(conv(l0c, num_filters=16, filter_size=(7, 7),
strides=(2, 2)))
l2 = convroll(conv(l1, num_filters=32, filter_size=(7, 7), strides=(2, 2)))
l3a = convroll(conv(l2, num_filters=32, filter_size=(3, 3)))
l3b = convroll(conv(l3a, num_filters=32, filter_size=(3, 3)))
l3c = convroll(conv(l3b, num_filters=32, filter_size=(3, 3)))
l3d = conv(l3c, num_filters=64, filter_size=(3, 3))
l3 = convroll(pool(l3d))
l4a = convroll(conv(l3, num_filters=64, filter_size=(3, 3)))
l4b = convroll(conv(l4a, num_filters=64, filter_size=(3, 3)))
l4c = convroll(conv(l4b, num_filters=64, filter_size=(3, 3)))
l4d = conv(l4c, num_filters=128, filter_size=(3, 3))
l4 = convroll(pool(l4d))
l5a = convroll(conv(l4, num_filters=64, filter_size=(3, 3)))
l5b = convroll(conv(l5a, num_filters=64, filter_size=(3, 3)))
l5c = convroll(conv(l5b, num_filters=64, filter_size=(3, 3)))
l5d = conv(l5c, num_filters=128, filter_size=(3, 3))
l5 = convroll(pool(l5d))
l5f = nn.layers.flatten(l5)
l6 = nn.layers.DenseLayer(nn.layers.dropout(l5f, p=0.5),
num_units=256,
W=nn_plankton.Orthogonal(1.0),
b=nn.init.Constant(0.1),
nonlinearity=nn_plankton.leaky_relu)
l6r = dihedral_fast.CyclicRollLayer(l6)
l7 = nn.layers.DenseLayer(nn.layers.dropout(l6r, p=0.5),
num_units=256,
W=nn_plankton.Orthogonal(1.0),
b=nn.init.Constant(0.1),
nonlinearity=nn_plankton.leaky_relu)
l7m = dihedral.CyclicPoolLayer(l7, pool_function=nn_plankton.rms)
l8 = nn.layers.DenseLayer(nn.layers.dropout(l7m, p=0.5),
num_units=data.num_classes,
nonlinearity=T.nnet.softmax,
W=nn_plankton.Orthogonal(1.0))
return [l0], l8
def build_model():
l0 = nn.layers.InputLayer((batch_size, 1, patch_size[0], patch_size[1]))
l0c = dihedral.CyclicSliceLayer(l0)
l1a = Conv2DLayer(l0c, num_filters=32, filter_size=(3, 3), border_mode="same", W=nn_plankton.Conv2DOrthogonal(1.0), b=nn.init.Constant(0.1), nonlinearity=nn_plankton.leaky_relu, untie_biases=True)
l1b = Conv2DLayer(l1a, num_filters=16, filter_size=(3, 3), border_mode="same", W=nn_plankton.Conv2DOrthogonal(1.0), b=nn.init.Constant(0.1), nonlinearity=nn_plankton.leaky_relu, untie_biases=True)
l1 = MaxPool2DLayer(l1b, ds=(3, 3), strides=(2, 2))
l1r = dihedral_fast.CyclicConvRollLayer(l1)
l2a = Conv2DLayer(l1r, num_filters=64, filter_size=(3, 3), border_mode="same", W=nn_plankton.Conv2DOrthogonal(1.0), b=nn.init.Constant(0.1), nonlinearity=nn_plankton.leaky_relu, untie_biases=True)
l2b = Conv2DLayer(l2a, num_filters=32, filter_size=(3, 3), border_mode="same", W=nn_plankton.Conv2DOrthogonal(1.0), b=nn.init.Constant(0.1), nonlinearity=nn_plankton.leaky_relu, untie_biases=True)
l2 = MaxPool2DLayer(l2b, ds=(3, 3), strides=(2, 2))
l2r = dihedral_fast.CyclicConvRollLayer(l2)
l3a = Conv2DLayer(l2r, num_filters=128, filter_size=(3, 3), border_mode="same", W=nn_plankton.Conv2DOrthogonal(1.0), b=nn.init.Constant(0.1), nonlinearity=nn_plankton.leaky_relu, untie_biases=True)
l3b = Conv2DLayer(l3a, num_filters=128, filter_size=(3, 3), border_mode="same", W=nn_plankton.Conv2DOrthogonal(1.0), b=nn.init.Constant(0.1), nonlinearity=nn_plankton.leaky_relu, untie_biases=True)
l3c = Conv2DLayer(l3b, num_filters=64, filter_size=(3, 3), border_mode="same", W=nn_plankton.Conv2DOrthogonal(1.0), b=nn.init.Constant(0.1), nonlinearity=nn_plankton.leaky_relu, untie_biases=True)
l3 = MaxPool2DLayer(l3c, ds=(3, 3), strides=(2, 2))
l3r = dihedral_fast.CyclicConvRollLayer(l3)
l4a = Conv2DLayer(l3r, num_filters=256, filter_size=(3, 3), border_mode="same", W=nn_plankton.Conv2DOrthogonal(1.0), b=nn.init.Constant(0.1), nonlinearity=nn_plankton.leaky_relu, untie_biases=True)
l4b = Conv2DLayer(l4a, num_filters=256, filter_size=(3, 3), border_mode="same", W=nn_plankton.Conv2DOrthogonal(1.0), b=nn.init.Constant(0.1), nonlinearity=nn_plankton.leaky_relu, untie_biases=True)
l4c = Conv2DLayer(l4b, num_filters=128, filter_size=(3, 3), border_mode="same", W=nn_plankton.Conv2DOrthogonal(1.0), b=nn.init.Constant(0.1), nonlinearity=nn_plankton.leaky_relu, untie_biases=True)
l4 = MaxPool2DLayer(l4c, ds=(3, 3), strides=(2, 2))
l4r = dihedral_fast.CyclicConvRollLayer(l4)
l4f = nn.layers.flatten(l4r)
l5 = nn.layers.DenseLayer(nn.layers.dropout(l4f, p=0.5), num_units=1024, W=nn_plankton.Orthogonal(1.0), b=nn.init.Constant(0.1), nonlinearity=None)
l5fp = nn.layers.FeaturePoolLayer(l5, ds=2)
l5r = dihedral_fast.CyclicRollLayer(l5fp)
l6 = nn.layers.DenseLayer(nn.layers.dropout(l5r, p=0.5), num_units=1024, W=nn_plankton.Orthogonal(1.0), b=nn.init.Constant(0.1), nonlinearity=None)
l6fp = nn.layers.FeaturePoolLayer(l6, ds=2)
l6m = dihedral.CyclicPoolLayer(l6fp, pool_function=nn_plankton.rms)
l7 = nn.layers.DenseLayer(nn.layers.dropout(l6m, p=0.5), num_units=data.num_classes, nonlinearity=T.nnet.softmax, W=nn_plankton.Orthogonal(1.0))
return [l0], l7
def build_model():
l0_variable = nn.layers.InputLayer((batch_size, 1, patch_sizes[0][0], patch_sizes[0][1]))
l0c = dihedral.CyclicSliceLayer(l0_variable)
l1a = Conv2DLayer(l0c, num_filters=32, filter_size=(3, 3), border_mode="same", W=nn_plankton.Conv2DOrthogonal(1.0), b=nn.init.Constant(0.1), nonlinearity=nn_plankton.leaky_relu)
l1b = Conv2DLayer(l1a, num_filters=16, filter_size=(3, 3), border_mode="same", W=nn_plankton.Conv2DOrthogonal(1.0), b=nn.init.Constant(0.1), nonlinearity=nn_plankton.leaky_relu)
l1 = MaxPool2DLayer(l1b, ds=(3, 3), strides=(2, 2))
l1r = dihedral_fast.CyclicConvRollLayer(l1)
l2a = Conv2DLayer(l1r, num_filters=64, filter_size=(3, 3), border_mode="same", W=nn_plankton.Conv2DOrthogonal(1.0), b=nn.init.Constant(0.1), nonlinearity=nn_plankton.leaky_relu)
l2b = Conv2DLayer(l2a, num_filters=32, filter_size=(3, 3), border_mode="same", W=nn_plankton.Conv2DOrthogonal(1.0), b=nn.init.Constant(0.1), nonlinearity=nn_plankton.leaky_relu)
l2 = MaxPool2DLayer(l2b, ds=(3, 3), strides=(2, 2))
l2r = dihedral_fast.CyclicConvRollLayer(l2)
l3a = Conv2DLayer(l2r, num_filters=128, filter_size=(3, 3), border_mode="same", W=nn_plankton.Conv2DOrthogonal(1.0), b=nn.init.Constant(0.1), nonlinearity=nn_plankton.leaky_relu)
l3b = Conv2DLayer(l3a, num_filters=128, filter_size=(3, 3), border_mode="same", W=nn_plankton.Conv2DOrthogonal(1.0), b=nn.init.Constant(0.1), nonlinearity=nn_plankton.leaky_relu)
l3c = Conv2DLayer(l3b, num_filters=64, filter_size=(3, 3), border_mode="same", W=nn_plankton.Conv2DOrthogonal(1.0), b=nn.init.Constant(0.1), nonlinearity=nn_plankton.leaky_relu)
l3 = MaxPool2DLayer(l3c, ds=(3, 3), strides=(2, 2))
l3r = dihedral_fast.CyclicConvRollLayer(l3)
l4a = Conv2DLayer(l3r, num_filters=256, filter_size=(3, 3), border_mode="same", W=nn_plankton.Conv2DOrthogonal(1.0), b=nn.init.Constant(0.1), nonlinearity=nn_plankton.leaky_relu)
l4b = Conv2DLayer(l4a, num_filters=256, filter_size=(3, 3), border_mode="same", W=nn_plankton.Conv2DOrthogonal(1.0), b=nn.init.Constant(0.1), nonlinearity=nn_plankton.leaky_relu)
l4c = Conv2DLayer(l4b, num_filters=128, filter_size=(3, 3), border_mode="same", W=nn_plankton.Conv2DOrthogonal(1.0), b=nn.init.Constant(0.1), nonlinearity=nn_plankton.leaky_relu)
l4 = MaxPool2DLayer(l4c, ds=(3, 3), strides=(2, 2))
l4r = dihedral_fast.CyclicConvRollLayer(l4)
l4f = nn.layers.flatten(l4r)
l5 = nn.layers.DenseLayer(nn.layers.dropout(l4f, p=0.5), num_units=256, W=nn_plankton.Orthogonal(1.0), b=nn.init.Constant(0.1), nonlinearity=nn_plankton.leaky_relu)
l5r = dihedral_fast.CyclicRollLayer(l5)
l6 = nn.layers.DenseLayer(nn.layers.dropout(l5r, p=0.5), num_units=256, W=nn_plankton.Orthogonal(1.0), b=nn.init.Constant(0.1), nonlinearity=nn_plankton.leaky_relu)
l_variable = dihedral.CyclicPoolLayer(l6, pool_function=nn_plankton.rms)
# fixed scale part
l0_fixed = nn.layers.InputLayer((batch_size, 1, patch_sizes[1][0], patch_sizes[1][1]))
l0c = dihedral.CyclicSliceLayer(l0_fixed)
l1a = Conv2DLayer(l0c, num_filters=16, filter_size=(3, 3), border_mode="same", W=nn_plankton.Conv2DOrthogonal(1.0), b=nn.init.Constant(0.1))
l1b = Conv2DLayer(l1a, num_filters=8, filter_size=(3, 3), border_mode="same", W=nn_plankton.Conv2DOrthogonal(1.0), b=nn.init.Constant(0.1))
l1 = MaxPool2DLayer(l1b, ds=(3, 3), strides=(2, 2))
l1r = dihedral_fast.CyclicConvRollLayer(l1)
l2a = Conv2DLayer(l1r, num_filters=32, filter_size=(3, 3), border_mode="same", W=nn_plankton.Conv2DOrthogonal(1.0), b=nn.init.Constant(0.1))
l2b = Conv2DLayer(l2a, num_filters=16, filter_size=(3, 3), border_mode="same", W=nn_plankton.Conv2DOrthogonal(1.0), b=nn.init.Constant(0.1))
l2 = MaxPool2DLayer(l2b, ds=(3, 3), strides=(2, 2))
l2r = dihedral_fast.CyclicConvRollLayer(l2)
l3a = Conv2DLayer(l2r, num_filters=64, filter_size=(3, 3), border_mode="same", W=nn_plankton.Conv2DOrthogonal(1.0), b=nn.init.Constant(0.1))
l3b = Conv2DLayer(l3a, num_filters=64, filter_size=(3, 3), border_mode="same", W=nn_plankton.Conv2DOrthogonal(1.0), b=nn.init.Constant(0.1))
l3c = Conv2DLayer(l3b, num_filters=32, filter_size=(3, 3), border_mode="same", W=nn_plankton.Conv2DOrthogonal(1.0), b=nn.init.Constant(0.1))
l3 = MaxPool2DLayer(l3c, ds=(3, 3), strides=(2, 2))
l3r = dihedral_fast.CyclicConvRollLayer(l3)
l3f = nn.layers.flatten(l3r)
l4 = nn.layers.DenseLayer(nn.layers.dropout(l3f, p=0.5), num_units=128, W=nn_plankton.Orthogonal(1.0), b=nn.init.Constant(0.1))
l4r = dihedral_fast.CyclicRollLayer(l4)
l5 = nn.layers.DenseLayer(nn.layers.dropout(l4r, p=0.5), num_units=128, W=nn_plankton.Orthogonal(1.0), b=nn.init.Constant(0.1))
l_fixed = dihedral.CyclicPoolLayer(l5, pool_function=nn_plankton.rms)
# merge the parts
l_merged = nn.layers.concat([l_variable, l_fixed])
l7 = nn.layers.DenseLayer(nn.layers.dropout(l_merged, p=0.5), num_units=data.num_classes, nonlinearity=T.nnet.softmax, W=nn_plankton.Orthogonal(1.0))
return [l0_variable, l0_fixed], l7
