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binary_layers.py
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binary_layers.py
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# -*- coding: utf-8 -*-
import numpy as np
from keras import backend as K
from keras.layers import InputSpec, Layer, Dense, Conv2D
from keras import constraints
from keras import initializers
from activations import binarize
class Clip(constraints.Constraint):
def __init__(self, min_value, max_value=None):
self.min_value = min_value
self.max_value = max_value
if not self.max_value:
self.max_value = -self.min_value
if self.min_value > self.max_value:
self.min_value, self.max_value = self.max_value, self.min_value
def __call__(self, p):
return K.clip(p, self.min_value, self.max_value)
def get_config(self):
return {"min_value": self.min_value,
"max_value": self.max_value}
class BinaryDense(Dense):
''' Binarized Dense layer
References:
"BinaryNet: Training Deep Neural Networks with Weights and Activations Constrained to +1 or -1" [http://arxiv.org/abs/1602.02830]
'''
def __init__(self, units, H=1., kernel_lr_multiplier='Glorot', bias_lr_multiplier=None, **kwargs):
super(BinaryDense, self).__init__(units, **kwargs)
self.H = H
self.kernel_lr_multiplier = kernel_lr_multiplier
self.bias_lr_multiplier = bias_lr_multiplier
super(BinaryDense, self).__init__(units, **kwargs)
def build(self, input_shape):
assert len(input_shape) >= 2
input_dim = input_shape[1]
if self.H == 'Glorot':
self.H = np.float32(np.sqrt(1.5 / (input_dim + self.units)))
#print('Glorot H: {}'.format(self.H))
if self.kernel_lr_multiplier == 'Glorot':
self.kernel_lr_multiplier = np.float32(1. / np.sqrt(1.5 / (input_dim + self.units)))
#print('Glorot learning rate multiplier: {}'.format(self.kernel_lr_multiplier))
self.kernel_constraint = Clip(-self.H, self.H)
self.kernel_initializer = initializers.RandomUniform(-self.H, self.H)
self.kernel = self.add_weight(shape=(input_dim, self.units),
initializer=self.kernel_initializer,
name='kernel',
regularizer=self.kernel_regularizer,
constraint=self.kernel_constraint)
if self.use_bias:
self.lr_multipliers = [self.kernel_lr_multiplier, self.bias_lr_multiplier]
self.bias = self.add_weight(shape=(self.output_dim,),
initializer=self.bias_initializer,
name='bias',
regularizer=self.bias_regularizer,
constraint=self.bias_constraint)
else:
self.lr_multipliers = [self.kernel_lr_multiplier]
self.bias = None
self.input_spec = InputSpec(min_ndim=2, axes={-1: input_dim})
self.built = True
def call(self, inputs):
binary_kernel = binarize(self.kernel, H=self.H)
output = K.dot(inputs, binary_kernel)
if self.use_bias:
output = K.bias_add(output, self.bias)
if self.activation is not None:
output = self.activation(output)
return output
def get_config(self):
config = {'H': self.H,
'kernel_lr_multiplier': self.kernel_lr_multiplier,
'bias_lr_multiplier': self.bias_lr_multiplier}
base_config = super(BinaryDense, self).get_config()
return dict(list(base_config.items()) + list(config.items()))
class BinaryConv2D(Conv2D):
'''Binarized Convolution2D layer
References:
"BinaryNet: Training Deep Neural Networks with Weights and Activations Constrained to +1 or -1" [http://arxiv.org/abs/1602.02830]
'''
def __init__(self, filters, kernel_lr_multiplier='Glorot',
bias_lr_multiplier=None, H=1., **kwargs):
super(BinaryConv2D, self).__init__(filters, **kwargs)
self.H = H
self.kernel_lr_multiplier = kernel_lr_multiplier
self.bias_lr_multiplier = bias_lr_multiplier
def build(self, input_shape):
if self.data_format == 'channels_first':
channel_axis = 1
else:
channel_axis = -1
if input_shape[channel_axis] is None:
raise ValueError('The channel dimension of the inputs '
'should be defined. Found `None`.')
input_dim = input_shape[channel_axis]
kernel_shape = self.kernel_size + (input_dim, self.filters)
base = self.kernel_size[0] * self.kernel_size[1]
if self.H == 'Glorot':
nb_input = int(input_dim * base)
nb_output = int(self.filters * base)
self.H = np.float32(np.sqrt(1.5 / (nb_input + nb_output)))
#print('Glorot H: {}'.format(self.H))
if self.kernel_lr_multiplier == 'Glorot':
nb_input = int(input_dim * base)
nb_output = int(self.filters * base)
self.kernel_lr_multiplier = np.float32(1. / np.sqrt(1.5/ (nb_input + nb_output)))
#print('Glorot learning rate multiplier: {}'.format(self.lr_multiplier))
self.kernel_constraint = Clip(-self.H, self.H)
self.kernel_initializer = initializers.RandomUniform(-self.H, self.H)
self.kernel = self.add_weight(shape=kernel_shape,
initializer=self.kernel_initializer,
name='kernel',
regularizer=self.kernel_regularizer,
constraint=self.kernel_constraint)
if self.use_bias:
self.lr_multipliers = [self.kernel_lr_multiplier, self.bias_lr_multiplier]
self.bias = self.add_weight((self.output_dim,),
initializer=self.bias_initializers,
name='bias',
regularizer=self.bias_regularizer,
constraint=self.bias_constraint)
else:
self.lr_multipliers = [self.kernel_lr_multiplier]
self.bias = None
# Set input spec.
self.input_spec = InputSpec(ndim=4, axes={channel_axis: input_dim})
self.built = True
def call(self, inputs):
binary_kernel = binarize(self.kernel, H=self.H)
outputs = K.conv2d(
inputs,
binary_kernel,
strides=self.strides,
padding=self.padding,
data_format=self.data_format,
dilation_rate=self.dilation_rate)
if self.use_bias:
outputs = K.bias_add(
outputs,
self.bias,
data_format=self.data_format)
if self.activation is not None:
return self.activation(outputs)
return outputs
def get_config(self):
config = {'H': self.H,
'kernel_lr_multiplier': self.kernel_lr_multiplier,
'bias_lr_multiplier': self.bias_lr_multiplier}
base_config = super(BinaryConv2D, self).get_config()
return dict(list(base_config.items()) + list(config.items()))
# Aliases
BinaryConvolution2D = BinaryConv2D