pytorch-image-models/timm/models/rexnet.py

""" ReXNet

A PyTorch impl of `ReXNet: Diminishing Representational Bottleneck on Convolutional Neural Network` -
https://arxiv.org/abs/2007.00992

Adapted from original impl at https://github.com/clovaai/rexnet
Copyright (c) 2020-present NAVER Corp. MIT license

Changes for timm, feature extraction, and rounded channel variant hacked together by Ross Wightman
Copyright 2020 Ross Wightman
"""

import torch.nn as nn
from functools import partial
from math import ceil

from timm.data import IMAGENET_DEFAULT_MEAN, IMAGENET_DEFAULT_STD
from .helpers import build_model_with_cfg
from .layers import ClassifierHead, create_act_layer, ConvBnAct, DropPath, make_divisible, SEModule
from .registry import register_model
from .efficientnet_builder import efficientnet_init_weights


def _cfg(url=''):
    return {
        'url': url, 'num_classes': 1000, 'input_size': (3, 224, 224), 'pool_size': (7, 7),
        'crop_pct': 0.875, 'interpolation': 'bicubic',
        'mean': IMAGENET_DEFAULT_MEAN, 'std': IMAGENET_DEFAULT_STD,
        'first_conv': 'stem.conv', 'classifier': 'head.fc',
    }


default_cfgs = dict(
    rexnet_100=_cfg(
        url='https://github.com/rwightman/pytorch-image-models/releases/download/v0.1-rexnet/rexnetv1_100-1b4dddf4.pth'),
    rexnet_130=_cfg(
        url='https://github.com/rwightman/pytorch-image-models/releases/download/v0.1-rexnet/rexnetv1_130-590d768e.pth'),
    rexnet_150=_cfg(
        url='https://github.com/rwightman/pytorch-image-models/releases/download/v0.1-rexnet/rexnetv1_150-bd1a6aa8.pth'),
    rexnet_200=_cfg(
        url='https://github.com/rwightman/pytorch-image-models/releases/download/v0.1-rexnet/rexnetv1_200-8c0b7f2d.pth'),
    rexnetr_100=_cfg(
        url=''),
    rexnetr_130=_cfg(
        url=''),
    rexnetr_150=_cfg(
        url=''),
    rexnetr_200=_cfg(
        url=''),
)

SEWithNorm = partial(SEModule, norm_layer=nn.BatchNorm2d)


class LinearBottleneck(nn.Module):
    def __init__(self, in_chs, out_chs, stride, exp_ratio=1.0, se_ratio=0., ch_div=1,
                 act_layer='swish', dw_act_layer='relu6', drop_path=None):
        super(LinearBottleneck, self).__init__()
        self.use_shortcut = stride == 1 and in_chs <= out_chs
        self.in_channels = in_chs
        self.out_channels = out_chs

        if exp_ratio != 1.:
            dw_chs = make_divisible(round(in_chs * exp_ratio), divisor=ch_div)
            self.conv_exp = ConvBnAct(in_chs, dw_chs, act_layer=act_layer)
        else:
            dw_chs = in_chs
            self.conv_exp = None

        self.conv_dw = ConvBnAct(dw_chs, dw_chs, 3, stride=stride, groups=dw_chs, apply_act=False)
        if se_ratio > 0:
            self.se = SEWithNorm(dw_chs, rd_channels=make_divisible(int(dw_chs * se_ratio), ch_div))
        else:
            self.se = None
        self.act_dw = create_act_layer(dw_act_layer)

        self.conv_pwl = ConvBnAct(dw_chs, out_chs, 1, apply_act=False)
        self.drop_path = drop_path

    def feat_channels(self, exp=False):
        return self.conv_dw.out_channels if exp else self.out_channels

    def forward(self, x):
        shortcut = x
        if self.conv_exp is not None:
            x = self.conv_exp(x)
        x = self.conv_dw(x)
        if self.se is not None:
            x = self.se(x)
        x = self.act_dw(x)
        x = self.conv_pwl(x)
        if self.use_shortcut:
            if self.drop_path is not None:
                x = self.drop_path(x)
            
	    x[:, 0:self.in_channels] += shortcut
        return x


def _block_cfg(width_mult=1.0, depth_mult=1.0, initial_chs=16, final_chs=180, se_ratio=0., ch_div=1):
    layers = [1, 2, 2, 3, 3, 5]
    strides = [1, 2, 2, 2, 1, 2]
    layers = [ceil(element * depth_mult) for element in layers]
    strides = sum([[element] + [1] * (layers[idx] - 1) for idx, element in enumerate(strides)], [])
    exp_ratios = [1] * layers[0] + [6] * sum(layers[1:])
    depth = sum(layers[:]) * 3
    base_chs = initial_chs / width_mult if width_mult < 1.0 else initial_chs

    # The following channel configuration is a simple instance to make each layer become an expand layer.
    out_chs_list = []
    for i in range(depth // 3):
        out_chs_list.append(make_divisible(round(base_chs * width_mult), divisor=ch_div))
        base_chs += final_chs / (depth // 3 * 1.0)

    se_ratios = [0.] * (layers[0] + layers[1]) + [se_ratio] * sum(layers[2:])

    return list(zip(out_chs_list, exp_ratios, strides, se_ratios))


def _build_blocks(
        block_cfg, prev_chs, width_mult, ch_div=1, act_layer='swish', dw_act_layer='relu6', drop_path_rate=0.):
    feat_chs = [prev_chs]
    feature_info = []
    curr_stride = 2
    features = []
    num_blocks = len(block_cfg)
    for block_idx, (chs, exp_ratio, stride, se_ratio) in enumerate(block_cfg):
        if stride > 1:
            fname = 'stem' if block_idx == 0 else f'features.{block_idx - 1}'
            feature_info += [dict(num_chs=feat_chs[-1], reduction=curr_stride, module=fname)]
            curr_stride *= stride
        block_dpr = drop_path_rate * block_idx / (num_blocks - 1)  # stochastic depth linear decay rule
        drop_path = DropPath(block_dpr) if block_dpr > 0. else None
        features.append(LinearBottleneck(
            in_chs=prev_chs, out_chs=chs, exp_ratio=exp_ratio, stride=stride, se_ratio=se_ratio,
            ch_div=ch_div, act_layer=act_layer, dw_act_layer=dw_act_layer, drop_path=drop_path))
        prev_chs = chs
        feat_chs += [features[-1].feat_channels()]
    pen_chs = make_divisible(1280 * width_mult, divisor=ch_div)
    feature_info += [dict(num_chs=feat_chs[-1], reduction=curr_stride, module=f'features.{len(features) - 1}')]
    features.append(ConvBnAct(prev_chs, pen_chs, act_layer=act_layer))
    return features, feature_info


class ReXNetV1(nn.Module):
    def __init__(self, in_chans=3, num_classes=1000, global_pool='avg', output_stride=32,
                 initial_chs=16, final_chs=180, width_mult=1.0, depth_mult=1.0, se_ratio=1/12.,
                 ch_div=1, act_layer='swish', dw_act_layer='relu6', drop_rate=0.2, drop_path_rate=0.):
        super(ReXNetV1, self).__init__()
        self.drop_rate = drop_rate
        self.num_classes = num_classes

        assert output_stride == 32  # FIXME support dilation
        stem_base_chs = 32 / width_mult if width_mult < 1.0 else 32
        stem_chs = make_divisible(round(stem_base_chs * width_mult), divisor=ch_div)
        self.stem = ConvBnAct(in_chans, stem_chs, 3, stride=2, act_layer=act_layer)

        block_cfg = _block_cfg(width_mult, depth_mult, initial_chs, final_chs, se_ratio, ch_div)
        features, self.feature_info = _build_blocks(
            block_cfg, stem_chs, width_mult, ch_div, act_layer, dw_act_layer, drop_path_rate)
        self.num_features = features[-1].out_channels
        self.features = nn.Sequential(*features)

        self.head = ClassifierHead(self.num_features, num_classes, global_pool, drop_rate)

        efficientnet_init_weights(self)

    def get_classifier(self):
        return self.head.fc

    def reset_classifier(self, num_classes, global_pool='avg'):
        self.head = ClassifierHead(self.num_features, num_classes, pool_type=global_pool, drop_rate=self.drop_rate)

    def forward_features(self, x):
        x = self.stem(x)
        x = self.features(x)
        return x

    def forward(self, x):
        x = self.forward_features(x)
        x = self.head(x)
        return x


def _create_rexnet(variant, pretrained, **kwargs):
    feature_cfg = dict(flatten_sequential=True)
    return build_model_with_cfg(
        ReXNetV1, variant, pretrained,
        default_cfg=default_cfgs[variant],
        feature_cfg=feature_cfg,
        **kwargs)


@register_model
def rexnet_100(pretrained=False, **kwargs):
    """ReXNet V1 1.0x"""
    return _create_rexnet('rexnet_100', pretrained, **kwargs)


@register_model
def rexnet_130(pretrained=False, **kwargs):
    """ReXNet V1 1.3x"""
    return _create_rexnet('rexnet_130', pretrained, width_mult=1.3, **kwargs)


@register_model
def rexnet_150(pretrained=False, **kwargs):
    """ReXNet V1 1.5x"""
    return _create_rexnet('rexnet_150', pretrained, width_mult=1.5, **kwargs)


@register_model
def rexnet_200(pretrained=False, **kwargs):
    """ReXNet V1 2.0x"""
    return _create_rexnet('rexnet_200', pretrained, width_mult=2.0, **kwargs)


@register_model
def rexnetr_100(pretrained=False, **kwargs):
    """ReXNet V1 1.0x w/ rounded (mod 8) channels"""
    return _create_rexnet('rexnetr_100', pretrained, ch_div=8, **kwargs)


@register_model
def rexnetr_130(pretrained=False, **kwargs):
    """ReXNet V1 1.3x w/ rounded (mod 8) channels"""
    return _create_rexnet('rexnetr_130', pretrained, width_mult=1.3, ch_div=8, **kwargs)


@register_model
def rexnetr_150(pretrained=False, **kwargs):
    """ReXNet V1 1.5x w/ rounded (mod 8) channels"""
    return _create_rexnet('rexnetr_150', pretrained, width_mult=1.5, ch_div=8, **kwargs)


@register_model
def rexnetr_200(pretrained=False, **kwargs):
    """ReXNet V1 2.0x w/ rounded (mod 8) channels"""
    return _create_rexnet('rexnetr_200', pretrained, width_mult=2.0, ch_div=8, **kwargs)
Add ReXNet w/ remapped weights, feature support 4 years ago			`""" ReXNet`

			A PyTorch impl of `ReXNet: Diminishing Representational Bottleneck on Convolutional Neural Network` -
			`https://arxiv.org/abs/2007.00992`

			`Adapted from original impl at https://github.com/clovaai/rexnet`
			`Copyright (c) 2020-present NAVER Corp. MIT license`

			`Changes for timm, feature extraction, and rounded channel variant hacked together by Ross Wightman`
Fix some attributions, add copyrights to some file docstrings 4 years ago			`Copyright 2020 Ross Wightman`
Add ReXNet w/ remapped weights, feature support 4 years ago			`"""`

			`import torch.nn as nn`
Add Gather-Excite and Global Context attn modules. Refactor existing SE-like attn for consistency and refactor byob/byoanet for less redundancy. 3 years ago			`from functools import partial`
Add ReXNet w/ remapped weights, feature support 4 years ago			`from math import ceil`

			`from timm.data import IMAGENET_DEFAULT_MEAN, IMAGENET_DEFAULT_STD`
			`from .helpers import build_model_with_cfg`
Add Gather-Excite and Global Context attn modules. Refactor existing SE-like attn for consistency and refactor byob/byoanet for less redundancy. 3 years ago			`from .layers import ClassifierHead, create_act_layer, ConvBnAct, DropPath, make_divisible, SEModule`
Add ReXNet w/ remapped weights, feature support 4 years ago			`from .registry import register_model`
Initial Vision Transformer impl w/ patch and hybrid variants. Refactor tuple helpers. 4 years ago			`from .efficientnet_builder import efficientnet_init_weights`
Add ReXNet w/ remapped weights, feature support 4 years ago

			`def _cfg(url=''):`
			`return {`
			`'url': url, 'num_classes': 1000, 'input_size': (3, 224, 224), 'pool_size': (7, 7),`
			`'crop_pct': 0.875, 'interpolation': 'bicubic',`
			`'mean': IMAGENET_DEFAULT_MEAN, 'std': IMAGENET_DEFAULT_STD,`
			`'first_conv': 'stem.conv', 'classifier': 'head.fc',`
			`}`


			`default_cfgs = dict(`
			`rexnet_100=_cfg(`
			`url='https://github.com/rwightman/pytorch-image-models/releases/download/v0.1-rexnet/rexnetv1_100-1b4dddf4.pth'),`
			`rexnet_130=_cfg(`
			`url='https://github.com/rwightman/pytorch-image-models/releases/download/v0.1-rexnet/rexnetv1_130-590d768e.pth'),`
			`rexnet_150=_cfg(`
			`url='https://github.com/rwightman/pytorch-image-models/releases/download/v0.1-rexnet/rexnetv1_150-bd1a6aa8.pth'),`
			`rexnet_200=_cfg(`
			`url='https://github.com/rwightman/pytorch-image-models/releases/download/v0.1-rexnet/rexnetv1_200-8c0b7f2d.pth'),`
			`rexnetr_100=_cfg(`
			`url=''),`
			`rexnetr_130=_cfg(`
			`url=''),`
			`rexnetr_150=_cfg(`
			`url=''),`
			`rexnetr_200=_cfg(`
			`url=''),`
			`)`

Add Gather-Excite and Global Context attn modules. Refactor existing SE-like attn for consistency and refactor byob/byoanet for less redundancy. 3 years ago			`SEWithNorm = partial(SEModule, norm_layer=nn.BatchNorm2d)`
Add ReXNet w/ remapped weights, feature support 4 years ago

			`class LinearBottleneck(nn.Module):`
Tweak NFNet, ResNetV2, RexNet feature extraction, use pre-act features for simplicty. Update tests for pytorch 1.8. 0.4.5 version bump. 4 years ago			`def __init__(self, in_chs, out_chs, stride, exp_ratio=1.0, se_ratio=0., ch_div=1,`
			`act_layer='swish', dw_act_layer='relu6', drop_path=None):`
Add ReXNet w/ remapped weights, feature support 4 years ago			`super(LinearBottleneck, self).__init__()`
			`self.use_shortcut = stride == 1 and in_chs <= out_chs`
			`self.in_channels = in_chs`
			`self.out_channels = out_chs`

			`if exp_ratio != 1.:`
			`dw_chs = make_divisible(round(in_chs * exp_ratio), divisor=ch_div)`
Tweak NFNet, ResNetV2, RexNet feature extraction, use pre-act features for simplicty. Update tests for pytorch 1.8. 0.4.5 version bump. 4 years ago			`self.conv_exp = ConvBnAct(in_chs, dw_chs, act_layer=act_layer)`
Add ReXNet w/ remapped weights, feature support 4 years ago			`else:`
			`dw_chs = in_chs`
			`self.conv_exp = None`

			`self.conv_dw = ConvBnAct(dw_chs, dw_chs, 3, stride=stride, groups=dw_chs, apply_act=False)`
Add Gather-Excite and Global Context attn modules. Refactor existing SE-like attn for consistency and refactor byob/byoanet for less redundancy. 3 years ago			`if se_ratio > 0:`
			`self.se = SEWithNorm(dw_chs, rd_channels=make_divisible(int(dw_chs * se_ratio), ch_div))`
			`else:`
			`self.se = None`
Tweak NFNet, ResNetV2, RexNet feature extraction, use pre-act features for simplicty. Update tests for pytorch 1.8. 0.4.5 version bump. 4 years ago			`self.act_dw = create_act_layer(dw_act_layer)`
Add ReXNet w/ remapped weights, feature support 4 years ago
			`self.conv_pwl = ConvBnAct(dw_chs, out_chs, 1, apply_act=False)`
Add DropPath (stochastic depth) to ReXNet and VoVNet. RegNet DropPath impl tweak and dedupe se args. 4 years ago			`self.drop_path = drop_path`
Add ReXNet w/ remapped weights, feature support 4 years ago
			`def feat_channels(self, exp=False):`
			`return self.conv_dw.out_channels if exp else self.out_channels`

			`def forward(self, x):`
			`shortcut = x`
			`if self.conv_exp is not None:`
			`x = self.conv_exp(x)`
			`x = self.conv_dw(x)`
			`if self.se is not None:`
			`x = self.se(x)`
			`x = self.act_dw(x)`
			`x = self.conv_pwl(x)`
			`if self.use_shortcut:`
Fix stochastic depth working only with a shortcut 3 years ago			`if self.drop_path is not None:`
			`x = self.drop_path(x)`

			`x[:, 0:self.in_channels] += shortcut`
Add ReXNet w/ remapped weights, feature support 4 years ago			`return x`


Add DropPath (stochastic depth) to ReXNet and VoVNet. RegNet DropPath impl tweak and dedupe se args. 4 years ago			`def _block_cfg(width_mult=1.0, depth_mult=1.0, initial_chs=16, final_chs=180, se_ratio=0., ch_div=1):`
Add ReXNet w/ remapped weights, feature support 4 years ago			`layers = [1, 2, 2, 3, 3, 5]`
			`strides = [1, 2, 2, 2, 1, 2]`
			`layers = [ceil(element * depth_mult) for element in layers]`
			`strides = sum([[element] + [1] * (layers[idx] - 1) for idx, element in enumerate(strides)], [])`
			`exp_ratios = [1] * layers[0] + [6] * sum(layers[1:])`
			`depth = sum(layers[:]) * 3`
			`base_chs = initial_chs / width_mult if width_mult < 1.0 else initial_chs`

			`# The following channel configuration is a simple instance to make each layer become an expand layer.`
			`out_chs_list = []`
			`for i in range(depth // 3):`
			`out_chs_list.append(make_divisible(round(base_chs * width_mult), divisor=ch_div))`
			`base_chs += final_chs / (depth // 3 * 1.0)`

Add DropPath (stochastic depth) to ReXNet and VoVNet. RegNet DropPath impl tweak and dedupe se args. 4 years ago			`se_ratios = [0.] * (layers[0] + layers[1]) + [se_ratio] * sum(layers[2:])`
Add ReXNet w/ remapped weights, feature support 4 years ago
Add DropPath (stochastic depth) to ReXNet and VoVNet. RegNet DropPath impl tweak and dedupe se args. 4 years ago			`return list(zip(out_chs_list, exp_ratios, strides, se_ratios))`
Add ReXNet w/ remapped weights, feature support 4 years ago

Add DropPath (stochastic depth) to ReXNet and VoVNet. RegNet DropPath impl tweak and dedupe se args. 4 years ago			`def _build_blocks(`
Tweak NFNet, ResNetV2, RexNet feature extraction, use pre-act features for simplicty. Update tests for pytorch 1.8. 0.4.5 version bump. 4 years ago			`block_cfg, prev_chs, width_mult, ch_div=1, act_layer='swish', dw_act_layer='relu6', drop_path_rate=0.):`
Add ReXNet w/ remapped weights, feature support 4 years ago			`feat_chs = [prev_chs]`
			`feature_info = []`
			`curr_stride = 2`
			`features = []`
Add DropPath (stochastic depth) to ReXNet and VoVNet. RegNet DropPath impl tweak and dedupe se args. 4 years ago			`num_blocks = len(block_cfg)`
			`for block_idx, (chs, exp_ratio, stride, se_ratio) in enumerate(block_cfg):`
Add ReXNet w/ remapped weights, feature support 4 years ago			`if stride > 1:`
			`fname = 'stem' if block_idx == 0 else f'features.{block_idx - 1}'`
			`feature_info += [dict(num_chs=feat_chs[-1], reduction=curr_stride, module=fname)]`
			`curr_stride *= stride`
Add DropPath (stochastic depth) to ReXNet and VoVNet. RegNet DropPath impl tweak and dedupe se args. 4 years ago			`block_dpr = drop_path_rate * block_idx / (num_blocks - 1) # stochastic depth linear decay rule`
			`drop_path = DropPath(block_dpr) if block_dpr > 0. else None`
Add ReXNet w/ remapped weights, feature support 4 years ago			`features.append(LinearBottleneck(`
Add DropPath (stochastic depth) to ReXNet and VoVNet. RegNet DropPath impl tweak and dedupe se args. 4 years ago			`in_chs=prev_chs, out_chs=chs, exp_ratio=exp_ratio, stride=stride, se_ratio=se_ratio,`
Tweak NFNet, ResNetV2, RexNet feature extraction, use pre-act features for simplicty. Update tests for pytorch 1.8. 0.4.5 version bump. 4 years ago			`ch_div=ch_div, act_layer=act_layer, dw_act_layer=dw_act_layer, drop_path=drop_path))`
Add ReXNet w/ remapped weights, feature support 4 years ago			`prev_chs = chs`
Tweak NFNet, ResNetV2, RexNet feature extraction, use pre-act features for simplicty. Update tests for pytorch 1.8. 0.4.5 version bump. 4 years ago			`feat_chs += [features[-1].feat_channels()]`
Add ReXNet w/ remapped weights, feature support 4 years ago			`pen_chs = make_divisible(1280 * width_mult, divisor=ch_div)`
Tweak NFNet, ResNetV2, RexNet feature extraction, use pre-act features for simplicty. Update tests for pytorch 1.8. 0.4.5 version bump. 4 years ago			`feature_info += [dict(num_chs=feat_chs[-1], reduction=curr_stride, module=f'features.{len(features) - 1}')]`
			`features.append(ConvBnAct(prev_chs, pen_chs, act_layer=act_layer))`
Add ReXNet w/ remapped weights, feature support 4 years ago			`return features, feature_info`


			`class ReXNetV1(nn.Module):`
			`def __init__(self, in_chans=3, num_classes=1000, global_pool='avg', output_stride=32,`
Add DropPath (stochastic depth) to ReXNet and VoVNet. RegNet DropPath impl tweak and dedupe se args. 4 years ago			`initial_chs=16, final_chs=180, width_mult=1.0, depth_mult=1.0, se_ratio=1/12.,`
Tweak NFNet, ResNetV2, RexNet feature extraction, use pre-act features for simplicty. Update tests for pytorch 1.8. 0.4.5 version bump. 4 years ago			`ch_div=1, act_layer='swish', dw_act_layer='relu6', drop_rate=0.2, drop_path_rate=0.):`
Add ReXNet w/ remapped weights, feature support 4 years ago			`super(ReXNetV1, self).__init__()`
More uniform treatment of classifiers across all models, reduce code duplication. 4 years ago			`self.drop_rate = drop_rate`
More models in sotabench, more control over sotabench run, dataset filename extraction consistency 4 years ago			`self.num_classes = num_classes`
Add ReXNet w/ remapped weights, feature support 4 years ago
			`assert output_stride == 32 # FIXME support dilation`
			`stem_base_chs = 32 / width_mult if width_mult < 1.0 else 32`
			`stem_chs = make_divisible(round(stem_base_chs * width_mult), divisor=ch_div)`
Tweak NFNet, ResNetV2, RexNet feature extraction, use pre-act features for simplicty. Update tests for pytorch 1.8. 0.4.5 version bump. 4 years ago			`self.stem = ConvBnAct(in_chans, stem_chs, 3, stride=2, act_layer=act_layer)`
Add ReXNet w/ remapped weights, feature support 4 years ago
Add DropPath (stochastic depth) to ReXNet and VoVNet. RegNet DropPath impl tweak and dedupe se args. 4 years ago			`block_cfg = _block_cfg(width_mult, depth_mult, initial_chs, final_chs, se_ratio, ch_div)`
Add ReXNet w/ remapped weights, feature support 4 years ago			`features, self.feature_info = _build_blocks(`
Tweak NFNet, ResNetV2, RexNet feature extraction, use pre-act features for simplicty. Update tests for pytorch 1.8. 0.4.5 version bump. 4 years ago			`block_cfg, stem_chs, width_mult, ch_div, act_layer, dw_act_layer, drop_path_rate)`
Add ReXNet w/ remapped weights, feature support 4 years ago			`self.num_features = features[-1].out_channels`
			`self.features = nn.Sequential(*features)`

			`self.head = ClassifierHead(self.num_features, num_classes, global_pool, drop_rate)`

Initial Vision Transformer impl w/ patch and hybrid variants. Refactor tuple helpers. 4 years ago			`efficientnet_init_weights(self)`
Add ReXNet w/ remapped weights, feature support 4 years ago
			`def get_classifier(self):`
			`return self.head.fc`

			`def reset_classifier(self, num_classes, global_pool='avg'):`
			`self.head = ClassifierHead(self.num_features, num_classes, pool_type=global_pool, drop_rate=self.drop_rate)`

			`def forward_features(self, x):`
			`x = self.stem(x)`
			`x = self.features(x)`
			`return x`

			`def forward(self, x):`
			`x = self.forward_features(x)`
			`x = self.head(x)`
			`return x`


			`def _create_rexnet(variant, pretrained, **kwargs):`
			`feature_cfg = dict(flatten_sequential=True)`
			`return build_model_with_cfg(`
Support for huggingface hub via create_model and default_cfgs. * improve consistency of model creation helper fns * add comments to some of the model helpers * support passing external default_cfgs so they can be sourced from hub 4 years ago			`ReXNetV1, variant, pretrained,`
			`default_cfg=default_cfgs[variant],`
			`feature_cfg=feature_cfg,`
			`**kwargs)`
Add ReXNet w/ remapped weights, feature support 4 years ago

			`@register_model`
			`def rexnet_100(pretrained=False, **kwargs):`
			`"""ReXNet V1 1.0x"""`
			`return _create_rexnet('rexnet_100', pretrained, **kwargs)`


			`@register_model`
			`def rexnet_130(pretrained=False, **kwargs):`
			`"""ReXNet V1 1.3x"""`
			`return _create_rexnet('rexnet_130', pretrained, width_mult=1.3, **kwargs)`


			`@register_model`
			`def rexnet_150(pretrained=False, **kwargs):`
			`"""ReXNet V1 1.5x"""`
			`return _create_rexnet('rexnet_150', pretrained, width_mult=1.5, **kwargs)`


			`@register_model`
			`def rexnet_200(pretrained=False, **kwargs):`
			`"""ReXNet V1 2.0x"""`
			`return _create_rexnet('rexnet_200', pretrained, width_mult=2.0, **kwargs)`


			`@register_model`
			`def rexnetr_100(pretrained=False, **kwargs):`
			`"""ReXNet V1 1.0x w/ rounded (mod 8) channels"""`
			`return _create_rexnet('rexnetr_100', pretrained, ch_div=8, **kwargs)`


			`@register_model`
			`def rexnetr_130(pretrained=False, **kwargs):`
			`"""ReXNet V1 1.3x w/ rounded (mod 8) channels"""`
			`return _create_rexnet('rexnetr_130', pretrained, width_mult=1.3, ch_div=8, **kwargs)`


			`@register_model`
			`def rexnetr_150(pretrained=False, **kwargs):`
			`"""ReXNet V1 1.5x w/ rounded (mod 8) channels"""`
			`return _create_rexnet('rexnetr_150', pretrained, width_mult=1.5, ch_div=8, **kwargs)`


			`@register_model`
			`def rexnetr_200(pretrained=False, **kwargs):`
			`"""ReXNet V1 2.0x w/ rounded (mod 8) channels"""`
			`return _create_rexnet('rexnetr_200', pretrained, width_mult=2.0, ch_div=8, **kwargs)`