def build(self, input_shape: Optional[Union[Sequence[int], tf.Tensor]]):
"""Build variables and child layers to prepare for calling."""
conv2d_quantized = _quantize_wrapped_layer(
tf.keras.layers.Conv2D,
configs.Default8BitConvQuantizeConfig(['kernel'], ['activation'],
False))
depthwise_conv2d_quantized = _quantize_wrapped_layer(
tf.keras.layers.DepthwiseConv2D,
configs.Default8BitConvQuantizeConfig(['depthwise_kernel'],
['activation'], False))
expand_filters = self._in_filters
if self._expand_ratio > 1:
# First 1x1 conv for channel expansion.
expand_filters = nn_layers.make_divisible(
self._in_filters * self._expand_ratio, self._divisible_by)
expand_kernel = 1 if self._use_depthwise else self._kernel_size
expand_stride = 1 if self._use_depthwise else self._strides
self._conv0 = conv2d_quantized(
filters=expand_filters,
kernel_size=expand_kernel,
strides=expand_stride,
padding='same',
use_bias=False,
kernel_initializer=self._kernel_initializer,
kernel_regularizer=self._kernel_regularizer,
bias_regularizer=self._bias_regularizer,
activation=NoOpActivation())
self._norm0 = self._norm_by_activation(self._activation)(
axis=self._bn_axis,
momentum=self._norm_momentum,
epsilon=self._norm_epsilon)
self._activation_layer = tfmot.quantization.keras.QuantizeWrapperV2(
tf_utils.get_activation(self._activation,
use_keras_layer=True),
configs.Default8BitActivationQuantizeConfig())
if self._use_depthwise:
# Depthwise conv.
self._conv1 = depthwise_conv2d_quantized(
kernel_size=(self._kernel_size, self._kernel_size),
strides=self._strides,
padding='same',
depth_multiplier=1,
dilation_rate=self._dilation_rate,
use_bias=False,
depthwise_initializer=self._kernel_initializer,
depthwise_regularizer=self._depthsize_regularizer,
bias_regularizer=self._bias_regularizer,
activation=NoOpActivation())
self._norm1 = self._norm_by_activation(self._depthwise_activation)(
axis=self._bn_axis,
momentum=self._norm_momentum,
epsilon=self._norm_epsilon)
self._depthwise_activation_layer = (
tfmot.quantization.keras.QuantizeWrapperV2(
tf_utils.get_activation(self._depthwise_activation,
use_keras_layer=True),
configs.Default8BitActivationQuantizeConfig()))
# Squeeze and excitation.
if self._se_ratio and self._se_ratio > 0 and self._se_ratio <= 1:
logging.info('Use Squeeze and excitation.')
in_filters = self._in_filters
if self._expand_se_in_filters:
in_filters = expand_filters
self._squeeze_excitation = qat_nn_layers.SqueezeExcitationQuantized(
in_filters=in_filters,
out_filters=expand_filters,
se_ratio=self._se_ratio,
divisible_by=self._divisible_by,
round_down_protect=self._se_round_down_protect,
kernel_initializer=self._kernel_initializer,
kernel_regularizer=self._kernel_regularizer,
bias_regularizer=self._bias_regularizer,
activation=self._se_inner_activation,
gating_activation=self._se_gating_activation)
else:
self._squeeze_excitation = None
# Last 1x1 conv.
self._conv2 = conv2d_quantized(
filters=self._out_filters,
kernel_size=1,
strides=1,
padding='same',
use_bias=False,
kernel_initializer=self._kernel_initializer,
kernel_regularizer=self._kernel_regularizer,
bias_regularizer=self._bias_regularizer,
activation=NoOpActivation())
self._norm2 = self._norm_with_quantize(axis=self._bn_axis,
momentum=self._norm_momentum,
epsilon=self._norm_epsilon)
if self._stochastic_depth_drop_rate:
self._stochastic_depth = nn_layers.StochasticDepth(
self._stochastic_depth_drop_rate)
else:
self._stochastic_depth = None
self._add = tfmot.quantization.keras.QuantizeWrapperV2(
tf.keras.layers.Add(),
configs.Default8BitQuantizeConfig([], [], True))
super(InvertedBottleneckBlockQuantized, self).build(input_shape)
def build(self, input_shape: Optional[Union[Sequence[int], tf.Tensor]]):
"""Build variables and child layers to prepare for calling."""
conv2d_quantized = _quantize_wrapped_layer(
tf.keras.layers.Conv2D,
configs.Default8BitConvQuantizeConfig(['kernel'], ['activation'],
False))
if self._use_projection:
if self._resnetd_shortcut:
self._shortcut0 = tf.keras.layers.AveragePooling2D(
pool_size=2, strides=self._strides, padding='same')
self._shortcut1 = conv2d_quantized(
filters=self._filters * 4,
kernel_size=1,
strides=1,
use_bias=False,
kernel_initializer=self._kernel_initializer,
kernel_regularizer=self._kernel_regularizer,
bias_regularizer=self._bias_regularizer,
activation=NoOpActivation())
else:
self._shortcut = conv2d_quantized(
filters=self._filters * 4,
kernel_size=1,
strides=self._strides,
use_bias=False,
kernel_initializer=self._kernel_initializer,
kernel_regularizer=self._kernel_regularizer,
bias_regularizer=self._bias_regularizer,
activation=NoOpActivation())
self._norm0 = self._norm_with_quantize(
axis=self._bn_axis,
momentum=self._norm_momentum,
epsilon=self._norm_epsilon,
trainable=self._bn_trainable)
self._conv1 = conv2d_quantized(
filters=self._filters,
kernel_size=1,
strides=1,
use_bias=False,
kernel_initializer=self._kernel_initializer,
kernel_regularizer=self._kernel_regularizer,
bias_regularizer=self._bias_regularizer,
activation=NoOpActivation())
self._norm1 = self._norm(axis=self._bn_axis,
momentum=self._norm_momentum,
epsilon=self._norm_epsilon,
trainable=self._bn_trainable)
self._activation1 = tfmot.quantization.keras.QuantizeWrapperV2(
tf_utils.get_activation(self._activation, use_keras_layer=True),
configs.Default8BitActivationQuantizeConfig())
self._conv2 = conv2d_quantized(
filters=self._filters,
kernel_size=3,
strides=self._strides,
dilation_rate=self._dilation_rate,
padding='same',
use_bias=False,
kernel_initializer=self._kernel_initializer,
kernel_regularizer=self._kernel_regularizer,
bias_regularizer=self._bias_regularizer,
activation=NoOpActivation())
self._norm2 = self._norm(axis=self._bn_axis,
momentum=self._norm_momentum,
epsilon=self._norm_epsilon,
trainable=self._bn_trainable)
self._activation2 = tfmot.quantization.keras.QuantizeWrapperV2(
tf_utils.get_activation(self._activation, use_keras_layer=True),
configs.Default8BitActivationQuantizeConfig())
self._conv3 = conv2d_quantized(
filters=self._filters * 4,
kernel_size=1,
strides=1,
use_bias=False,
kernel_initializer=self._kernel_initializer,
kernel_regularizer=self._kernel_regularizer,
bias_regularizer=self._bias_regularizer,
activation=NoOpActivation())
self._norm3 = self._norm_with_quantize(axis=self._bn_axis,
momentum=self._norm_momentum,
epsilon=self._norm_epsilon,
trainable=self._bn_trainable)
self._activation3 = tfmot.quantization.keras.QuantizeWrapperV2(
tf_utils.get_activation(self._activation, use_keras_layer=True),
configs.Default8BitActivationQuantizeConfig())
if self._se_ratio and self._se_ratio > 0 and self._se_ratio <= 1:
self._squeeze_excitation = qat_nn_layers.SqueezeExcitationQuantized(
in_filters=self._filters * 4,
out_filters=self._filters * 4,
se_ratio=self._se_ratio,
kernel_initializer=self._kernel_initializer,
kernel_regularizer=self._kernel_regularizer,
bias_regularizer=self._bias_regularizer)
else:
self._squeeze_excitation = None
if self._stochastic_depth_drop_rate:
self._stochastic_depth = nn_layers.StochasticDepth(
self._stochastic_depth_drop_rate)
else:
self._stochastic_depth = None
self._add = tfmot.quantization.keras.QuantizeWrapperV2(
tf.keras.layers.Add(),
configs.Default8BitQuantizeConfig([], [], True))
super(BottleneckBlockQuantized, self).build(input_shape)
