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normalization.py
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normalization.py
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## @package normalization
# Module caffe2.python.helpers.normalization
from __future__ import absolute_import
from __future__ import division
from __future__ import print_function
from __future__ import unicode_literals
from caffe2.python import scope
from caffe2.python.modeling.parameter_info import ParameterTags
from caffe2.proto import caffe2_pb2
from caffe2.python.modeling import initializers
def lrn(model, blob_in, blob_out, order="NCHW", use_cudnn=False, **kwargs):
"""LRN"""
dev = kwargs['device_option'] if 'device_option' in kwargs \
else scope.CurrentDeviceScope()
is_cpu = dev is None or dev.device_type == caffe2_pb2.CPU
if use_cudnn and (not is_cpu):
kwargs['engine'] = 'CUDNN'
blobs_out = blob_out
else:
blobs_out = [blob_out, "_" + blob_out + "_scale"]
lrn = model.net.LRN(
blob_in,
blobs_out,
order=order,
**kwargs
)
if use_cudnn and (not is_cpu):
return lrn
else:
return lrn[0]
def softmax(model, blob_in, blob_out=None, use_cudnn=False, **kwargs):
"""Softmax."""
if use_cudnn:
kwargs['engine'] = 'CUDNN'
if blob_out is not None:
return model.net.Softmax(blob_in, blob_out, **kwargs)
else:
return model.net.Softmax(blob_in, **kwargs)
def instance_norm(model, blob_in, blob_out, dim_in, order="NCHW", **kwargs):
blob_out = blob_out or model.net.NextName()
# Input: input, scale, bias
# Output: output, saved_mean, saved_inv_std
# scale: initialize with ones
# bias: initialize with zeros
def init_blob(value, suffix):
return model.param_init_net.ConstantFill(
[], blob_out + "_" + suffix, shape=[dim_in], value=value)
scale, bias = init_blob(1.0, "s"), init_blob(0.0, "b")
model.AddParameter(scale, ParameterTags.WEIGHT)
model.AddParameter(bias, ParameterTags.BIAS)
blob_outs = [blob_out, blob_out + "_sm", blob_out + "_siv"]
if 'is_test' in kwargs and kwargs['is_test']:
blob_outputs = model.net.InstanceNorm(
[blob_in, scale, bias], [blob_out],
order=order, **kwargs)
return blob_outputs
else:
blob_outputs = model.net.InstanceNorm(
[blob_in, scale, bias], blob_outs,
order=order, **kwargs)
# Return the output
return blob_outputs[0]
def spatial_bn(model, blob_in, blob_out, dim_in,
init_scale=1., init_bias=0.,
ScaleInitializer=None, BiasInitializer=None,
RunningMeanInitializer=None, RunningVarianceInitializer=None,
order="NCHW", **kwargs):
blob_out = blob_out or model.net.NextName()
# Input: input, scale, bias, est_mean, est_inv_var
# Output: output, running_mean, running_inv_var, saved_mean,
# saved_inv_var
# scale: initialize with init_scale (default 1.)
# bias: initialize with init_bias (default 0.)
# est mean: zero
# est var: ones
if model.init_params:
scale_init = ("ConstantFill", {'value': init_scale})
bias_init = ("ConstantFill", {'value': init_bias})
rm_init = ("ConstantFill", {'value': 0.0})
riv_init = ("ConstantFill", {'value': 1.0})
ScaleInitializer = initializers.update_initializer(
ScaleInitializer, scale_init, ("ConstantFill", {})
)
BiasInitializer = initializers.update_initializer(
BiasInitializer, bias_init, ("ConstantFill", {})
)
RunningMeanInitializer = initializers.update_initializer(
RunningMeanInitializer, rm_init, ("ConstantFill", {})
)
RunningVarianceInitializer = initializers.update_initializer(
RunningVarianceInitializer, riv_init, ("ConstantFill", {})
)
else:
ScaleInitializer = initializers.ExternalInitializer()
BiasInitializer = initializers.ExternalInitializer()
RunningMeanInitializer = initializers.ExternalInitializer()
RunningVarianceInitializer = initializers.ExternalInitializer()
scale = model.create_param(
param_name=blob_out + '_s',
shape=[dim_in],
initializer=ScaleInitializer,
tags=ParameterTags.WEIGHT
)
bias = model.create_param(
param_name=blob_out + '_b',
shape=[dim_in],
initializer=BiasInitializer,
tags=ParameterTags.BIAS
)
running_mean = model.create_param(
param_name=blob_out + '_rm',
shape=[dim_in],
initializer=RunningMeanInitializer,
tags=ParameterTags.COMPUTED_PARAM
)
running_inv_var = model.create_param(
param_name=blob_out + '_riv',
shape=[dim_in],
initializer=RunningVarianceInitializer,
tags=ParameterTags.COMPUTED_PARAM
)
blob_outs = [blob_out, running_mean, running_inv_var,
blob_out + "_sm", blob_out + "_siv"]
if 'is_test' in kwargs and kwargs['is_test']:
blob_outputs = model.net.SpatialBN(
[blob_in, scale, bias, blob_outs[1], blob_outs[2]], [blob_out],
order=order, **kwargs)
return blob_outputs
else:
blob_outputs = model.net.SpatialBN(
[blob_in, scale, bias, blob_outs[1], blob_outs[2]], blob_outs,
order=order, **kwargs)
# Return the output
return blob_outputs[0]
def spatial_gn(model, blob_in, blob_out, dim_in,
init_scale=1., init_bias=0.,
ScaleInitializer=None, BiasInitializer=None,
RunningMeanInitializer=None, RunningVarianceInitializer=None,
order="NCHW", **kwargs):
'''
Group normalizes the input, cf. https://arxiv.org/abs/1803.08494.
'''
blob_out = blob_out or model.net.NextName()
# Input: input, scale, bias
# Output: output, group_mean, group_inv_std
# scale: initialize with init_scale (default 1.)
# [recommendation: set init_scale = 0. in the last layer for each res block]
# bias: initialize with init_bias (default 0.)
if model.init_params:
scale_init = ("ConstantFill", {'value': init_scale})
bias_init = ("ConstantFill", {'value': init_bias})
ScaleInitializer = initializers.update_initializer(
ScaleInitializer, scale_init, ("ConstantFill", {})
)
BiasInitializer = initializers.update_initializer(
BiasInitializer, bias_init, ("ConstantFill", {})
)
else:
ScaleInitializer = initializers.ExternalInitializer()
BiasInitializer = initializers.ExternalInitializer()
scale = model.create_param(
param_name=blob_out + '_s',
shape=[dim_in],
initializer=ScaleInitializer,
tags=ParameterTags.WEIGHT
)
bias = model.create_param(
param_name=blob_out + '_b',
shape=[dim_in],
initializer=BiasInitializer,
tags=ParameterTags.BIAS
)
blob_outs = [blob_out,
blob_out + "_mean", blob_out + "_std"]
blob_outputs = model.net.GroupNorm(
[blob_in, scale, bias],
blob_outs,
**kwargs)
# Return the output
return blob_outputs[0]
def layer_norm(
model,
blob_in,
blob_out,
dim_in,
axis=1,
epsilon=1e-4,
initial_scale=1.0,
initial_bias=0.0,
):
'''
Layer normalizes the input, cf. https://arxiv.org/pdf/1607.06450.pdf.
Args:
blob_in: The input blob to layer normalize.
blob_out: The layer normalized output blob.
dim_in: The dimension of the scale and bias. For example, if blob_in is
a 2D design matrix and axis is 1, this would be the number of
columns.
axis: (optional) The axis to normalize. Typically the feature axis.
Defaults to 1.
epsilon: (optional) A small value used for numerical stability in
calculation. Defaults to 1e-4.
initial_scale: (optional) The initial value for the learned scale
parameter. Defaults to 1.0
initial_bias: (optional) The initial value for the learned bias
parameter of the layerwise standard deviation. Defaults to 0.0.
Returns:
A 3-tuple consisting of:
- The layer normalized input blob.
- The mean of the input blob across the given axis.
- The standard deviation of the input blob acress the given axis.
'''
# The LayerNorm operator only performs the layerwise z-shift, without
# scaling and shifting by the learned scale and bias parameters. We have
# to do that separately below.
normalized, mean, stdev = model.net.LayerNorm(
[blob_in],
[blob_out, blob_out + "_mean", blob_out + "_stdev"],
axis=axis,
epsilon=epsilon,
)
# The learned multiplicative scale or "gain".
scale = model.create_param(
param_name='{}_scale'.format(blob_out),
shape=[dim_in],
initializer=initializers.Initializer(
'ConstantFill',
value=initial_scale,
),
tags=ParameterTags.WEIGHT,
)
# The learned additive bias or "shift".
bias = model.create_param(
param_name='{}_bias'.format(blob_out),
shape=[dim_in],
initializer=initializers.Initializer(
'ConstantFill',
value=initial_bias,
),
tags=ParameterTags.BIAS,
)
scaled = model.net.Mul(
[normalized, scale],
['{}_scaled'.format(blob_out)],
broadcast=1,
axis=axis,
)
biased = model.net.Add(
[scaled, bias],
['{}_biased'.format(blob_out)],
broadcast=1,
axis=axis,
)
return biased, mean, stdev