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""" EfficientNet, MobileNetV3, etc Blocks
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Hacked together by / Copyright 2020 Ross Wightman
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"""
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import torch
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import torch.nn as nn
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from torch.nn import functional as F
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Monster commit, activation refactor, VoVNet, norm_act improvements, more
* refactor activations into basic PyTorch, jit scripted, and memory efficient custom auto
* implement hard-mish, better grad for hard-swish
* add initial VovNet V1/V2 impl, fix #151
* VovNet and DenseNet first models to use NormAct layers (support BatchNormAct2d, EvoNorm, InplaceIABN)
* Wrap IABN for any models that use it
* make more models torchscript compatible (DPN, PNasNet, Res2Net, SelecSLS) and add tests
5 years ago
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from .layers import create_conv2d, drop_path, get_act_layer
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from .layers.activations import sigmoid
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# Defaults used for Google/Tensorflow training of mobile networks /w RMSprop as per
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# papers and TF reference implementations. PT momentum equiv for TF decay is (1 - TF decay)
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# NOTE: momentum varies btw .99 and .9997 depending on source
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# .99 in official TF TPU impl
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# .9997 (/w .999 in search space) for paper
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BN_MOMENTUM_TF_DEFAULT = 1 - 0.99
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BN_EPS_TF_DEFAULT = 1e-3
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_BN_ARGS_TF = dict(momentum=BN_MOMENTUM_TF_DEFAULT, eps=BN_EPS_TF_DEFAULT)
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def get_bn_args_tf():
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return _BN_ARGS_TF.copy()
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def resolve_bn_args(kwargs):
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bn_args = get_bn_args_tf() if kwargs.pop('bn_tf', False) else {}
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bn_momentum = kwargs.pop('bn_momentum', None)
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if bn_momentum is not None:
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bn_args['momentum'] = bn_momentum
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bn_eps = kwargs.pop('bn_eps', None)
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if bn_eps is not None:
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bn_args['eps'] = bn_eps
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return bn_args
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_SE_ARGS_DEFAULT = dict(
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gate_fn=sigmoid,
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act_layer=None,
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reduce_mid=False,
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divisor=1)
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def resolve_se_args(kwargs, in_chs, act_layer=None):
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se_kwargs = kwargs.copy() if kwargs is not None else {}
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# fill in args that aren't specified with the defaults
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for k, v in _SE_ARGS_DEFAULT.items():
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se_kwargs.setdefault(k, v)
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# some models, like MobilNetV3, calculate SE reduction chs from the containing block's mid_ch instead of in_ch
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if not se_kwargs.pop('reduce_mid'):
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se_kwargs['reduced_base_chs'] = in_chs
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# act_layer override, if it remains None, the containing block's act_layer will be used
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if se_kwargs['act_layer'] is None:
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assert act_layer is not None
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se_kwargs['act_layer'] = act_layer
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return se_kwargs
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Monster commit, activation refactor, VoVNet, norm_act improvements, more
* refactor activations into basic PyTorch, jit scripted, and memory efficient custom auto
* implement hard-mish, better grad for hard-swish
* add initial VovNet V1/V2 impl, fix #151
* VovNet and DenseNet first models to use NormAct layers (support BatchNormAct2d, EvoNorm, InplaceIABN)
* Wrap IABN for any models that use it
* make more models torchscript compatible (DPN, PNasNet, Res2Net, SelecSLS) and add tests
5 years ago
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def resolve_act_layer(kwargs, default='relu'):
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act_layer = kwargs.pop('act_layer', default)
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if isinstance(act_layer, str):
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act_layer = get_act_layer(act_layer)
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return act_layer
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def make_divisible(v, divisor=8, min_value=None):
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min_value = min_value or divisor
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new_v = max(min_value, int(v + divisor / 2) // divisor * divisor)
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# Make sure that round down does not go down by more than 10%.
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if new_v < 0.9 * v:
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new_v += divisor
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return new_v
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def round_channels(channels, multiplier=1.0, divisor=8, channel_min=None):
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"""Round number of filters based on depth multiplier."""
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if not multiplier:
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return channels
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channels *= multiplier
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return make_divisible(channels, divisor, channel_min)
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class ChannelShuffle(nn.Module):
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# FIXME haven't used yet
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def __init__(self, groups):
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super(ChannelShuffle, self).__init__()
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self.groups = groups
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def forward(self, x):
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"""Channel shuffle: [N,C,H,W] -> [N,g,C/g,H,W] -> [N,C/g,g,H,w] -> [N,C,H,W]"""
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N, C, H, W = x.size()
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g = self.groups
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assert C % g == 0, "Incompatible group size {} for input channel {}".format(
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g, C
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)
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return (
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x.view(N, g, int(C / g), H, W)
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.permute(0, 2, 1, 3, 4)
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.contiguous()
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.view(N, C, H, W)
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)
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class SqueezeExcite(nn.Module):
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def __init__(self, in_chs, se_ratio=0.25, reduced_base_chs=None,
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act_layer=nn.ReLU, gate_fn=sigmoid, divisor=1, **_):
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super(SqueezeExcite, self).__init__()
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reduced_chs = make_divisible((reduced_base_chs or in_chs) * se_ratio, divisor)
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self.conv_reduce = nn.Conv2d(in_chs, reduced_chs, 1, bias=True)
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self.act1 = act_layer(inplace=True)
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self.conv_expand = nn.Conv2d(reduced_chs, in_chs, 1, bias=True)
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self.gate_fn = gate_fn
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def forward(self, x):
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x_se = x.mean((2, 3), keepdim=True)
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x_se = self.conv_reduce(x_se)
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x_se = self.act1(x_se)
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x_se = self.conv_expand(x_se)
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return x * self.gate_fn(x_se)
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class ConvBnAct(nn.Module):
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def __init__(self, in_chs, out_chs, kernel_size,
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stride=1, dilation=1, pad_type='', act_layer=nn.ReLU,
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norm_layer=nn.BatchNorm2d, norm_kwargs=None):
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super(ConvBnAct, self).__init__()
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norm_kwargs = norm_kwargs or {}
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self.conv = create_conv2d(in_chs, out_chs, kernel_size, stride=stride, dilation=dilation, padding=pad_type)
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self.bn1 = norm_layer(out_chs, **norm_kwargs)
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self.act1 = act_layer(inplace=True)
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def feature_info(self, location):
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if location == 'expansion': # output of conv after act, same as block coutput
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info = dict(module='act1', hook_type='forward', num_chs=self.conv.out_channels)
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else: # location == 'bottleneck', block output
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info = dict(module='', hook_type='', num_chs=self.conv.out_channels)
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return info
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def forward(self, x):
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x = self.conv(x)
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x = self.bn1(x)
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x = self.act1(x)
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return x
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class DepthwiseSeparableConv(nn.Module):
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""" DepthwiseSeparable block
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Used for DS convs in MobileNet-V1 and in the place of IR blocks that have no expansion
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(factor of 1.0). This is an alternative to having a IR with an optional first pw conv.
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"""
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def __init__(self, in_chs, out_chs, dw_kernel_size=3,
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stride=1, dilation=1, pad_type='', act_layer=nn.ReLU, noskip=False,
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pw_kernel_size=1, pw_act=False, se_ratio=0., se_kwargs=None,
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norm_layer=nn.BatchNorm2d, norm_kwargs=None, drop_path_rate=0.):
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super(DepthwiseSeparableConv, self).__init__()
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norm_kwargs = norm_kwargs or {}
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has_se = se_ratio is not None and se_ratio > 0.
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self.has_residual = (stride == 1 and in_chs == out_chs) and not noskip
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self.has_pw_act = pw_act # activation after point-wise conv
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self.drop_path_rate = drop_path_rate
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self.conv_dw = create_conv2d(
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in_chs, in_chs, dw_kernel_size, stride=stride, dilation=dilation, padding=pad_type, depthwise=True)
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self.bn1 = norm_layer(in_chs, **norm_kwargs)
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self.act1 = act_layer(inplace=True)
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# Squeeze-and-excitation
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if has_se:
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se_kwargs = resolve_se_args(se_kwargs, in_chs, act_layer)
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self.se = SqueezeExcite(in_chs, se_ratio=se_ratio, **se_kwargs)
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else:
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self.se = None
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self.conv_pw = create_conv2d(in_chs, out_chs, pw_kernel_size, padding=pad_type)
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self.bn2 = norm_layer(out_chs, **norm_kwargs)
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self.act2 = act_layer(inplace=True) if self.has_pw_act else nn.Identity()
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def feature_info(self, location):
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if location == 'expansion': # after SE, input to PW
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info = dict(module='conv_pw', hook_type='forward_pre', num_chs=self.conv_pw.in_channels)
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else: # location == 'bottleneck', block output
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info = dict(module='', hook_type='', num_chs=self.conv_pw.out_channels)
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return info
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def forward(self, x):
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residual = x
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x = self.conv_dw(x)
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x = self.bn1(x)
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x = self.act1(x)
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if self.se is not None:
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x = self.se(x)
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x = self.conv_pw(x)
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x = self.bn2(x)
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x = self.act2(x)
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if self.has_residual:
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if self.drop_path_rate > 0.:
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x = drop_path(x, self.drop_path_rate, self.training)
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x += residual
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return x
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class InvertedResidual(nn.Module):
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""" Inverted residual block w/ optional SE and CondConv routing"""
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def __init__(self, in_chs, out_chs, dw_kernel_size=3,
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stride=1, dilation=1, pad_type='', act_layer=nn.ReLU, noskip=False,
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exp_ratio=1.0, exp_kernel_size=1, pw_kernel_size=1,
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se_ratio=0., se_kwargs=None, norm_layer=nn.BatchNorm2d, norm_kwargs=None,
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conv_kwargs=None, drop_path_rate=0.):
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super(InvertedResidual, self).__init__()
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norm_kwargs = norm_kwargs or {}
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conv_kwargs = conv_kwargs or {}
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mid_chs = make_divisible(in_chs * exp_ratio)
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has_se = se_ratio is not None and se_ratio > 0.
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self.has_residual = (in_chs == out_chs and stride == 1) and not noskip
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self.drop_path_rate = drop_path_rate
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# Point-wise expansion
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self.conv_pw = create_conv2d(in_chs, mid_chs, exp_kernel_size, padding=pad_type, **conv_kwargs)
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self.bn1 = norm_layer(mid_chs, **norm_kwargs)
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self.act1 = act_layer(inplace=True)
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# Depth-wise convolution
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self.conv_dw = create_conv2d(
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mid_chs, mid_chs, dw_kernel_size, stride=stride, dilation=dilation,
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padding=pad_type, depthwise=True, **conv_kwargs)
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self.bn2 = norm_layer(mid_chs, **norm_kwargs)
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self.act2 = act_layer(inplace=True)
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# Squeeze-and-excitation
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if has_se:
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se_kwargs = resolve_se_args(se_kwargs, in_chs, act_layer)
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self.se = SqueezeExcite(mid_chs, se_ratio=se_ratio, **se_kwargs)
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else:
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self.se = None
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# Point-wise linear projection
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self.conv_pwl = create_conv2d(mid_chs, out_chs, pw_kernel_size, padding=pad_type, **conv_kwargs)
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self.bn3 = norm_layer(out_chs, **norm_kwargs)
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def feature_info(self, location):
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if location == 'expansion': # after SE, input to PWL
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info = dict(module='conv_pwl', hook_type='forward_pre', num_chs=self.conv_pwl.in_channels)
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else: # location == 'bottleneck', block output
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info = dict(module='', hook_type='', num_chs=self.conv_pwl.out_channels)
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return info
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def forward(self, x):
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residual = x
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# Point-wise expansion
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x = self.conv_pw(x)
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x = self.bn1(x)
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x = self.act1(x)
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# Depth-wise convolution
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x = self.conv_dw(x)
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x = self.bn2(x)
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x = self.act2(x)
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# Squeeze-and-excitation
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if self.se is not None:
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x = self.se(x)
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# Point-wise linear projection
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x = self.conv_pwl(x)
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x = self.bn3(x)
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if self.has_residual:
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if self.drop_path_rate > 0.:
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x = drop_path(x, self.drop_path_rate, self.training)
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x += residual
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return x
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class CondConvResidual(InvertedResidual):
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""" Inverted residual block w/ CondConv routing"""
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def __init__(self, in_chs, out_chs, dw_kernel_size=3,
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stride=1, dilation=1, pad_type='', act_layer=nn.ReLU, noskip=False,
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exp_ratio=1.0, exp_kernel_size=1, pw_kernel_size=1,
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se_ratio=0., se_kwargs=None, norm_layer=nn.BatchNorm2d, norm_kwargs=None,
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num_experts=0, drop_path_rate=0.):
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self.num_experts = num_experts
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conv_kwargs = dict(num_experts=self.num_experts)
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super(CondConvResidual, self).__init__(
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in_chs, out_chs, dw_kernel_size=dw_kernel_size, stride=stride, dilation=dilation, pad_type=pad_type,
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act_layer=act_layer, noskip=noskip, exp_ratio=exp_ratio, exp_kernel_size=exp_kernel_size,
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pw_kernel_size=pw_kernel_size, se_ratio=se_ratio, se_kwargs=se_kwargs,
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norm_layer=norm_layer, norm_kwargs=norm_kwargs, conv_kwargs=conv_kwargs,
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drop_path_rate=drop_path_rate)
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self.routing_fn = nn.Linear(in_chs, self.num_experts)
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def forward(self, x):
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residual = x
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# CondConv routing
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pooled_inputs = F.adaptive_avg_pool2d(x, 1).flatten(1)
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routing_weights = torch.sigmoid(self.routing_fn(pooled_inputs))
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# Point-wise expansion
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x = self.conv_pw(x, routing_weights)
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x = self.bn1(x)
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x = self.act1(x)
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# Depth-wise convolution
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x = self.conv_dw(x, routing_weights)
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x = self.bn2(x)
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x = self.act2(x)
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# Squeeze-and-excitation
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if self.se is not None:
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x = self.se(x)
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# Point-wise linear projection
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x = self.conv_pwl(x, routing_weights)
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x = self.bn3(x)
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if self.has_residual:
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if self.drop_path_rate > 0.:
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x = drop_path(x, self.drop_path_rate, self.training)
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x += residual
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return x
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class EdgeResidual(nn.Module):
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""" Residual block with expansion convolution followed by pointwise-linear w/ stride"""
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def __init__(self, in_chs, out_chs, exp_kernel_size=3, exp_ratio=1.0, fake_in_chs=0,
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stride=1, dilation=1, pad_type='', act_layer=nn.ReLU, noskip=False, pw_kernel_size=1,
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se_ratio=0., se_kwargs=None, norm_layer=nn.BatchNorm2d, norm_kwargs=None,
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drop_path_rate=0.):
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super(EdgeResidual, self).__init__()
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norm_kwargs = norm_kwargs or {}
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if fake_in_chs > 0:
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mid_chs = make_divisible(fake_in_chs * exp_ratio)
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else:
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mid_chs = make_divisible(in_chs * exp_ratio)
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has_se = se_ratio is not None and se_ratio > 0.
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self.has_residual = (in_chs == out_chs and stride == 1) and not noskip
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self.drop_path_rate = drop_path_rate
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# Expansion convolution
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self.conv_exp = create_conv2d(in_chs, mid_chs, exp_kernel_size, padding=pad_type)
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self.bn1 = norm_layer(mid_chs, **norm_kwargs)
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self.act1 = act_layer(inplace=True)
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# Squeeze-and-excitation
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if has_se:
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se_kwargs = resolve_se_args(se_kwargs, in_chs, act_layer)
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self.se = SqueezeExcite(mid_chs, se_ratio=se_ratio, **se_kwargs)
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else:
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self.se = None
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# Point-wise linear projection
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self.conv_pwl = create_conv2d(
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mid_chs, out_chs, pw_kernel_size, stride=stride, dilation=dilation, padding=pad_type)
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self.bn2 = norm_layer(out_chs, **norm_kwargs)
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def feature_info(self, location):
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if location == 'expansion': # after SE, before PWL
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info = dict(module='conv_pwl', hook_type='forward_pre', num_chs=self.conv_pwl.in_channels)
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else: # location == 'bottleneck', block output
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info = dict(module='', hook_type='', num_chs=self.conv_pwl.out_channels)
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return info
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def forward(self, x):
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residual = x
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# Expansion convolution
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x = self.conv_exp(x)
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x = self.bn1(x)
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x = self.act1(x)
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# Squeeze-and-excitation
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if self.se is not None:
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x = self.se(x)
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# Point-wise linear projection
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x = self.conv_pwl(x)
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x = self.bn2(x)
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if self.has_residual:
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if self.drop_path_rate > 0.:
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x = drop_path(x, self.drop_path_rate, self.training)
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x += residual
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return x
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