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"""
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An implementation of GhostNet Model as defined in:
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GhostNet: More Features from Cheap Operations. https://arxiv.org/abs/1911.11907
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The train script of the model is similar to that of MobileNetV3
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Original model: https://github.com/huawei-noah/CV-backbones/tree/master/ghostnet_pytorch
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"""
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import math
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from functools import partial
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import torch
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import torch.nn as nn
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import torch.nn.functional as F
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from timm.data import IMAGENET_DEFAULT_MEAN, IMAGENET_DEFAULT_STD
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from .layers import SelectAdaptivePool2d, Linear, hard_sigmoid
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from .efficientnet_blocks import SqueezeExcite, ConvBnAct, make_divisible
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from .helpers import build_model_with_cfg
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from .registry import register_model
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__all__ = ['GhostNet']
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def _cfg(url='', **kwargs):
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return {
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'url': url, 'num_classes': 1000, 'input_size': (3, 224, 224), 'pool_size': (1, 1),
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'crop_pct': 0.875, 'interpolation': 'bilinear',
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'mean': IMAGENET_DEFAULT_MEAN, 'std': IMAGENET_DEFAULT_STD,
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'first_conv': 'conv_stem', 'classifier': 'classifier',
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**kwargs
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}
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default_cfgs = {
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'ghostnet_050': _cfg(url=''),
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'ghostnet_100': _cfg(
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url='https://github.com/huawei-noah/CV-backbones/releases/download/ghostnet_pth/ghostnet_1x.pth'),
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'ghostnet_130': _cfg(url=''),
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}
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_SE_LAYER = partial(SqueezeExcite, gate_fn=hard_sigmoid, divisor=4)
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class GhostModule(nn.Module):
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def __init__(self, inp, oup, kernel_size=1, ratio=2, dw_size=3, stride=1, relu=True):
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super(GhostModule, self).__init__()
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self.oup = oup
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init_channels = math.ceil(oup / ratio)
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new_channels = init_channels * (ratio - 1)
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self.primary_conv = nn.Sequential(
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nn.Conv2d(inp, init_channels, kernel_size, stride, kernel_size//2, bias=False),
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nn.BatchNorm2d(init_channels),
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nn.ReLU(inplace=True) if relu else nn.Sequential(),
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)
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self.cheap_operation = nn.Sequential(
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nn.Conv2d(init_channels, new_channels, dw_size, 1, dw_size//2, groups=init_channels, bias=False),
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nn.BatchNorm2d(new_channels),
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nn.ReLU(inplace=True) if relu else nn.Sequential(),
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)
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def forward(self, x):
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x1 = self.primary_conv(x)
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x2 = self.cheap_operation(x1)
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out = torch.cat([x1, x2], dim=1)
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return out[:, :self.oup, :, :]
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class GhostBottleneck(nn.Module):
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""" Ghost bottleneck w/ optional SE"""
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def __init__(self, in_chs, mid_chs, out_chs, dw_kernel_size=3,
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stride=1, act_layer=nn.ReLU, se_ratio=0.):
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super(GhostBottleneck, self).__init__()
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has_se = se_ratio is not None and se_ratio > 0.
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self.stride = stride
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# Point-wise expansion
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self.ghost1 = GhostModule(in_chs, mid_chs, relu=True)
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# Depth-wise convolution
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if self.stride > 1:
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self.conv_dw = nn.Conv2d(
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mid_chs, mid_chs, dw_kernel_size, stride=stride,
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padding=(dw_kernel_size-1)//2, groups=mid_chs, bias=False)
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self.bn_dw = nn.BatchNorm2d(mid_chs)
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else:
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self.conv_dw = None
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self.bn_dw = None
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# Squeeze-and-excitation
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self.se = _SE_LAYER(mid_chs, se_ratio=se_ratio) if has_se else None
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# Point-wise linear projection
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self.ghost2 = GhostModule(mid_chs, out_chs, relu=False)
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# shortcut
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if in_chs == out_chs and self.stride == 1:
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self.shortcut = nn.Sequential()
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else:
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self.shortcut = nn.Sequential(
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nn.Conv2d(
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in_chs, in_chs, dw_kernel_size, stride=stride,
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padding=(dw_kernel_size-1)//2, groups=in_chs, bias=False),
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nn.BatchNorm2d(in_chs),
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nn.Conv2d(in_chs, out_chs, 1, stride=1, padding=0, bias=False),
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nn.BatchNorm2d(out_chs),
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)
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def forward(self, x):
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residual = x
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# 1st ghost bottleneck
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x = self.ghost1(x)
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# Depth-wise convolution
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if self.conv_dw is not None:
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x = self.conv_dw(x)
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x = self.bn_dw(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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# 2nd ghost bottleneck
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x = self.ghost2(x)
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x += self.shortcut(residual)
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return x
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class GhostNet(nn.Module):
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def __init__(self, cfgs, num_classes=1000, width=1.0, dropout=0.2, in_chans=3, output_stride=32):
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super(GhostNet, self).__init__()
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# setting of inverted residual blocks
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assert output_stride == 32, 'only output_stride==32 is valid, dilation not supported'
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self.cfgs = cfgs
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self.num_classes = num_classes
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self.dropout = dropout
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self.feature_info = []
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# building first layer
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stem_chs = make_divisible(16 * width, 4)
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self.conv_stem = nn.Conv2d(in_chans, stem_chs, 3, 2, 1, bias=False)
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self.feature_info.append(dict(num_chs=stem_chs, reduction=2, module=f'conv_stem'))
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self.bn1 = nn.BatchNorm2d(stem_chs)
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self.act1 = nn.ReLU(inplace=True)
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prev_chs = stem_chs
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# building inverted residual blocks
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stages = nn.ModuleList([])
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block = GhostBottleneck
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stage_idx = 0
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net_stride = 2
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for cfg in self.cfgs:
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layers = []
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s = 1
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for k, exp_size, c, se_ratio, s in cfg:
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out_chs = make_divisible(c * width, 4)
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mid_chs = make_divisible(exp_size * width, 4)
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layers.append(block(prev_chs, mid_chs, out_chs, k, s, se_ratio=se_ratio))
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prev_chs = out_chs
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if s > 1:
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net_stride *= 2
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self.feature_info.append(dict(
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num_chs=prev_chs, reduction=net_stride, module=f'blocks.{stage_idx}'))
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stages.append(nn.Sequential(*layers))
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stage_idx += 1
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out_chs = make_divisible(exp_size * width, 4)
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stages.append(nn.Sequential(ConvBnAct(prev_chs, out_chs, 1)))
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self.pool_dim = prev_chs = out_chs
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self.blocks = nn.Sequential(*stages)
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# building last several layers
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self.num_features = out_chs = 1280
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self.global_pool = SelectAdaptivePool2d(pool_type='avg')
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self.conv_head = nn.Conv2d(prev_chs, out_chs, 1, 1, 0, bias=True)
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self.act2 = nn.ReLU(inplace=True)
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self.classifier = Linear(out_chs, num_classes)
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def get_classifier(self):
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return self.classifier
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def reset_classifier(self, num_classes, global_pool='avg'):
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self.num_classes = num_classes
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# cannot meaningfully change pooling of efficient head after creation
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self.global_pool = SelectAdaptivePool2d(pool_type=global_pool)
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self.classifier = Linear(self.pool_dim, num_classes) if num_classes > 0 else nn.Identity()
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def forward_features(self, x):
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x = self.conv_stem(x)
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x = self.bn1(x)
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x = self.act1(x)
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x = self.blocks(x)
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x = self.global_pool(x)
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x = self.conv_head(x)
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x = self.act2(x)
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return x
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def forward(self, x):
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x = self.forward_features(x)
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if not self.global_pool.is_identity():
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x = x.view(x.size(0), -1)
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if self.dropout > 0.:
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x = F.dropout(x, p=self.dropout, training=self.training)
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x = self.classifier(x)
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return x
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def _create_ghostnet(variant, width=1.0, pretrained=False, **kwargs):
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"""
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Constructs a GhostNet model
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"""
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cfgs = [
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# k, t, c, SE, s
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# stage1
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[[3, 16, 16, 0, 1]],
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# stage2
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[[3, 48, 24, 0, 2]],
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[[3, 72, 24, 0, 1]],
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# stage3
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[[5, 72, 40, 0.25, 2]],
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[[5, 120, 40, 0.25, 1]],
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# stage4
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[[3, 240, 80, 0, 2]],
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[[3, 200, 80, 0, 1],
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[3, 184, 80, 0, 1],
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[3, 184, 80, 0, 1],
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[3, 480, 112, 0.25, 1],
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[3, 672, 112, 0.25, 1]
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],
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# stage5
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[[5, 672, 160, 0.25, 2]],
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[[5, 960, 160, 0, 1],
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[5, 960, 160, 0.25, 1],
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[5, 960, 160, 0, 1],
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[5, 960, 160, 0.25, 1]
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]
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]
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model_kwargs = dict(
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cfgs=cfgs,
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width=width,
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**kwargs,
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)
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return build_model_with_cfg(
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GhostNet, variant, pretrained,
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default_cfg=default_cfgs[variant],
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feature_cfg=dict(flatten_sequential=True),
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**model_kwargs)
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@register_model
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def ghostnet_050(pretrained=False, **kwargs):
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""" GhostNet-0.5x """
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model = _create_ghostnet('ghostnet_050', width=0.5, pretrained=pretrained, **kwargs)
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return model
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@register_model
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def ghostnet_100(pretrained=False, **kwargs):
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""" GhostNet-1.0x """
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model = _create_ghostnet('ghostnet_100', width=1.0, pretrained=pretrained, **kwargs)
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return model
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@register_model
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def ghostnet_130(pretrained=False, **kwargs):
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""" GhostNet-1.3x """
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model = _create_ghostnet('ghostnet_130', width=1.3, pretrained=pretrained, **kwargs)
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return model
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Reference in new issue