Add EfficientFormer-V2, refactor EfficientFormer and Levit for more uniformity across the 3 related arch. Add features_out support to levit conv models and efficientformer_v2. All weights on hub.
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""" EfficientFormer-V2
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@article{
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li2022rethinking,
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title={Rethinking Vision Transformers for MobileNet Size and Speed},
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author={Li, Yanyu and Hu, Ju and Wen, Yang and Evangelidis, Georgios and Salahi, Kamyar and Wang, Yanzhi and Tulyakov, Sergey and Ren, Jian},
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journal={arXiv preprint arXiv:2212.08059},
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year={2022}
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}
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Significantly refactored and cleaned up for timm from original at: https://github.com/snap-research/EfficientFormer
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Original code licensed Apache 2.0, Copyright (c) 2022 Snap Inc.
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Modifications and timm support by / Copyright 2023, Ross Wightman
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"""
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import math
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from functools import partial
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from typing import Dict
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import torch
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import torch.nn as nn
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from timm.data import IMAGENET_DEFAULT_MEAN, IMAGENET_DEFAULT_STD
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from timm.layers import create_conv2d, create_norm_layer, get_act_layer, get_norm_layer, ConvNormAct
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from timm.layers import DropPath, trunc_normal_, to_2tuple, to_ntuple
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from ._builder import build_model_with_cfg
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from ._pretrained import generate_default_cfgs
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from ._registry import register_model
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EfficientFormer_width = {
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'L': (40, 80, 192, 384), # 26m 83.3% 6attn
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'S2': (32, 64, 144, 288), # 12m 81.6% 4attn dp0.02
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'S1': (32, 48, 120, 224), # 6.1m 79.0
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'S0': (32, 48, 96, 176), # 75.0 75.7
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}
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EfficientFormer_depth = {
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'L': (5, 5, 15, 10), # 26m 83.3%
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'S2': (4, 4, 12, 8), # 12m
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'S1': (3, 3, 9, 6), # 79.0
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'S0': (2, 2, 6, 4), # 75.7
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}
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EfficientFormer_expansion_ratios = {
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'L': (4, 4, (4, 4, 4, 4, 3, 3, 3, 3, 3, 3, 3, 4, 4, 4, 4), (4, 4, 4, 3, 3, 3, 3, 4, 4, 4)),
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'S2': (4, 4, (4, 4, 3, 3, 3, 3, 3, 3, 4, 4, 4, 4), (4, 4, 3, 3, 3, 3, 4, 4)),
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'S1': (4, 4, (4, 4, 3, 3, 3, 3, 4, 4, 4), (4, 4, 3, 3, 4, 4)),
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'S0': (4, 4, (4, 3, 3, 3, 4, 4), (4, 3, 3, 4)),
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}
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class ConvNorm(nn.Module):
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def __init__(
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self,
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in_channels,
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out_channels,
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kernel_size=1,
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stride=1,
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padding='',
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dilation=1,
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groups=1,
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bias=True,
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norm_layer='batchnorm2d',
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norm_kwargs=None,
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):
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norm_kwargs = norm_kwargs or {}
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super(ConvNorm, self).__init__()
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self.conv = create_conv2d(
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in_channels,
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out_channels,
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kernel_size,
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stride=stride,
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padding=padding,
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dilation=dilation,
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groups=groups,
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bias=bias,
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)
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self.bn = create_norm_layer(norm_layer, out_channels, **norm_kwargs)
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def forward(self, x):
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x = self.conv(x)
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x = self.bn(x)
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return x
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class Attention2d(torch.nn.Module):
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attention_bias_cache: Dict[str, torch.Tensor]
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def __init__(
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self,
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dim=384,
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key_dim=32,
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num_heads=8,
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attn_ratio=4,
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resolution=7,
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act_layer=nn.GELU,
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stride=None,
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):
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super().__init__()
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self.num_heads = num_heads
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self.scale = key_dim ** -0.5
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self.key_dim = key_dim
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resolution = to_2tuple(resolution)
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if stride is not None:
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resolution = tuple([math.ceil(r / stride) for r in resolution])
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self.stride_conv = ConvNorm(dim, dim, kernel_size=3, stride=stride, groups=dim)
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self.upsample = nn.Upsample(scale_factor=stride, mode='bilinear')
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else:
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self.stride_conv = None
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self.upsample = None
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self.resolution = resolution
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self.N = self.resolution[0] * self.resolution[1]
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self.d = int(attn_ratio * key_dim)
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self.dh = int(attn_ratio * key_dim) * num_heads
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self.attn_ratio = attn_ratio
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kh = self.key_dim * self.num_heads
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self.q = ConvNorm(dim, kh)
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self.k = ConvNorm(dim, kh)
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self.v = ConvNorm(dim, self.dh)
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self.v_local = ConvNorm(self.dh, self.dh, kernel_size=3, groups=self.dh)
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self.talking_head1 = nn.Conv2d(self.num_heads, self.num_heads, kernel_size=1)
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self.talking_head2 = nn.Conv2d(self.num_heads, self.num_heads, kernel_size=1)
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self.act = act_layer()
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self.proj = ConvNorm(self.dh, dim, 1)
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pos = torch.stack(torch.meshgrid(torch.arange(self.resolution[0]), torch.arange(self.resolution[1]))).flatten(1)
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rel_pos = (pos[..., :, None] - pos[..., None, :]).abs()
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rel_pos = (rel_pos[0] * self.resolution[1]) + rel_pos[1]
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self.attention_biases = torch.nn.Parameter(torch.zeros(num_heads, self.N))
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self.register_buffer('attention_bias_idxs', torch.LongTensor(rel_pos), persistent=False)
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self.attention_bias_cache = {} # per-device attention_biases cache (data-parallel compat)
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@torch.no_grad()
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def train(self, mode=True):
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super().train(mode)
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if mode and self.attention_bias_cache:
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self.attention_bias_cache = {} # clear ab cache
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def get_attention_biases(self, device: torch.device) -> torch.Tensor:
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if torch.jit.is_tracing() or self.training:
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return self.attention_biases[:, self.attention_bias_idxs]
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else:
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device_key = str(device)
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if device_key not in self.attention_bias_cache:
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self.attention_bias_cache[device_key] = self.attention_biases[:, self.attention_bias_idxs]
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return self.attention_bias_cache[device_key]
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def forward(self, x):
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B, C, H, W = x.shape
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if self.stride_conv is not None:
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x = self.stride_conv(x)
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q = self.q(x).reshape(B, self.num_heads, -1, self.N).permute(0, 1, 3, 2)
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k = self.k(x).reshape(B, self.num_heads, -1, self.N).permute(0, 1, 2, 3)
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v = self.v(x)
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v_local = self.v_local(v)
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v = v.reshape(B, self.num_heads, -1, self.N).permute(0, 1, 3, 2)
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attn = (q @ k) * self.scale
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attn = attn + self.get_attention_biases(x.device)
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attn = self.talking_head1(attn)
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attn = attn.softmax(dim=-1)
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attn = self.talking_head2(attn)
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x = (attn @ v).transpose(2, 3)
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x = x.reshape(B, self.dh, self.resolution[0], self.resolution[1]) + v_local
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if self.upsample is not None:
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x = self.upsample(x)
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x = self.act(x)
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x = self.proj(x)
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return x
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class LocalGlobalQuery(torch.nn.Module):
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def __init__(self, in_dim, out_dim):
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super().__init__()
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self.pool = nn.AvgPool2d(1, 2, 0)
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self.local = nn.Conv2d(in_dim, in_dim, kernel_size=3, stride=2, padding=1, groups=in_dim)
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self.proj = ConvNorm(in_dim, out_dim, 1)
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def forward(self, x):
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local_q = self.local(x)
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pool_q = self.pool(x)
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q = local_q + pool_q
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q = self.proj(q)
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return q
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class Attention2dDownsample(torch.nn.Module):
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attention_bias_cache: Dict[str, torch.Tensor]
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def __init__(
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self,
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dim=384,
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key_dim=16,
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num_heads=8,
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attn_ratio=4,
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resolution=7,
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out_dim=None,
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act_layer=nn.GELU,
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):
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super().__init__()
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self.num_heads = num_heads
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self.scale = key_dim ** -0.5
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self.key_dim = key_dim
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self.resolution = to_2tuple(resolution)
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self.resolution2 = tuple([math.ceil(r / 2) for r in self.resolution])
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self.N = self.resolution[0] * self.resolution[1]
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self.N2 = self.resolution2[0] * self.resolution2[1]
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self.d = int(attn_ratio * key_dim)
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self.dh = int(attn_ratio * key_dim) * num_heads
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self.attn_ratio = attn_ratio
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self.out_dim = out_dim or dim
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kh = self.key_dim * self.num_heads
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self.q = LocalGlobalQuery(dim, kh)
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self.k = ConvNorm(dim, kh, 1)
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self.v = ConvNorm(dim, self.dh, 1)
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self.v_local = ConvNorm(self.dh, self.dh, kernel_size=3, stride=2, groups=self.dh)
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self.act = act_layer()
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self.proj = ConvNorm(self.dh, self.out_dim, 1)
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self.attention_biases = nn.Parameter(torch.zeros(num_heads, self.N))
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k_pos = torch.stack(torch.meshgrid(torch.arange(
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self.resolution[1]),
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torch.arange(self.resolution[1]))).flatten(1)
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q_pos = torch.stack(torch.meshgrid(
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torch.arange(0, self.resolution[0], step=2),
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torch.arange(0, self.resolution[1], step=2))).flatten(1)
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rel_pos = (q_pos[..., :, None] - k_pos[..., None, :]).abs()
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rel_pos = (rel_pos[0] * self.resolution[1]) + rel_pos[1]
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self.register_buffer('attention_bias_idxs', rel_pos, persistent=False)
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self.attention_bias_cache = {} # per-device attention_biases cache (data-parallel compat)
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@torch.no_grad()
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def train(self, mode=True):
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super().train(mode)
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if mode and self.attention_bias_cache:
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self.attention_bias_cache = {} # clear ab cache
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def get_attention_biases(self, device: torch.device) -> torch.Tensor:
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if torch.jit.is_tracing() or self.training:
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return self.attention_biases[:, self.attention_bias_idxs]
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else:
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device_key = str(device)
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if device_key not in self.attention_bias_cache:
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self.attention_bias_cache[device_key] = self.attention_biases[:, self.attention_bias_idxs]
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return self.attention_bias_cache[device_key]
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def forward(self, x):
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B, C, H, W = x.shape
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q = self.q(x).reshape(B, self.num_heads, -1, self.N2).permute(0, 1, 3, 2)
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k = self.k(x).reshape(B, self.num_heads, -1, self.N).permute(0, 1, 2, 3)
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v = self.v(x)
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v_local = self.v_local(v)
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v = v.reshape(B, self.num_heads, -1, self.N).permute(0, 1, 3, 2)
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attn = (q @ k) * self.scale
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attn = attn + self.get_attention_biases(x.device)
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attn = attn.softmax(dim=-1)
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x = (attn @ v).transpose(2, 3)
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x = x.reshape(B, self.dh, self.resolution2[0], self.resolution2[1]) + v_local
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x = self.act(x)
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x = self.proj(x)
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return x
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class Downsample(nn.Module):
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def __init__(
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self,
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in_chs,
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out_chs,
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kernel_size=3,
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stride=2,
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padding=1,
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resolution=7,
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use_attn=False,
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act_layer=nn.GELU,
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norm_layer=nn.BatchNorm2d,
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):
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super().__init__()
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kernel_size = to_2tuple(kernel_size)
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stride = to_2tuple(stride)
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padding = to_2tuple(padding)
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norm_layer = norm_layer or nn.Identity()
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self.conv = ConvNorm(
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in_chs,
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out_chs,
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kernel_size=kernel_size,
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stride=stride,
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padding=padding,
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norm_layer=norm_layer,
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)
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if use_attn:
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self.attn = Attention2dDownsample(
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dim=in_chs,
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out_dim=out_chs,
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resolution=resolution,
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act_layer=act_layer,
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)
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else:
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self.attn = None
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def forward(self, x):
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out = self.conv(x)
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if self.attn is not None:
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return self.attn(x) + out
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return out
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class ConvMlpWithNorm(nn.Module):
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"""
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Implementation of MLP with 1*1 convolutions.
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Input: tensor with shape [B, C, H, W]
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"""
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def __init__(
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self,
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in_features,
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hidden_features=None,
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out_features=None,
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act_layer=nn.GELU,
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norm_layer=nn.BatchNorm2d,
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drop=0.,
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mid_conv=False,
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):
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super().__init__()
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out_features = out_features or in_features
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hidden_features = hidden_features or in_features
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self.fc1 = ConvNormAct(
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in_features, hidden_features, 1, bias=True, norm_layer=norm_layer, act_layer=act_layer)
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if mid_conv:
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self.mid = ConvNormAct(
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hidden_features, hidden_features, 3,
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groups=hidden_features, bias=True, norm_layer=norm_layer, act_layer=act_layer)
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else:
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self.mid = nn.Identity()
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self.drop1 = nn.Dropout(drop)
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self.fc2 = ConvNorm(hidden_features, out_features, 1, norm_layer=norm_layer)
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self.drop2 = nn.Dropout(drop)
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|
|
||||||
|
def forward(self, x):
|
||||||
|
x = self.fc1(x)
|
||||||
|
x = self.mid(x)
|
||||||
|
x = self.drop1(x)
|
||||||
|
x = self.fc2(x)
|
||||||
|
x = self.drop2(x)
|
||||||
|
return x
|
||||||
|
|
||||||
|
|
||||||
|
class LayerScale2d(nn.Module):
|
||||||
|
def __init__(self, dim, init_values=1e-5, inplace=False):
|
||||||
|
super().__init__()
|
||||||
|
self.inplace = inplace
|
||||||
|
self.gamma = nn.Parameter(init_values * torch.ones(dim))
|
||||||
|
|
||||||
|
def forward(self, x):
|
||||||
|
gamma = self.gamma.view(1, -1, 1, 1)
|
||||||
|
return x.mul_(gamma) if self.inplace else x * gamma
|
||||||
|
|
||||||
|
|
||||||
|
class EfficientFormerV2Block(nn.Module):
|
||||||
|
def __init__(
|
||||||
|
self,
|
||||||
|
dim,
|
||||||
|
mlp_ratio=4.,
|
||||||
|
act_layer=nn.GELU,
|
||||||
|
norm_layer=nn.BatchNorm2d,
|
||||||
|
drop=0.,
|
||||||
|
drop_path=0.,
|
||||||
|
layer_scale_init_value=1e-5,
|
||||||
|
resolution=7,
|
||||||
|
stride=None,
|
||||||
|
use_attn=True,
|
||||||
|
):
|
||||||
|
super().__init__()
|
||||||
|
|
||||||
|
if use_attn:
|
||||||
|
self.token_mixer = Attention2d(
|
||||||
|
dim,
|
||||||
|
resolution=resolution,
|
||||||
|
act_layer=act_layer,
|
||||||
|
stride=stride,
|
||||||
|
)
|
||||||
|
self.ls1 = LayerScale2d(
|
||||||
|
dim, layer_scale_init_value) if layer_scale_init_value is not None else nn.Identity()
|
||||||
|
self.drop_path1 = DropPath(drop_path) if drop_path > 0. else nn.Identity()
|
||||||
|
else:
|
||||||
|
self.token_mixer = None
|
||||||
|
self.ls1 = None
|
||||||
|
self.drop_path1 = None
|
||||||
|
|
||||||
|
self.mlp = ConvMlpWithNorm(
|
||||||
|
in_features=dim,
|
||||||
|
hidden_features=int(dim * mlp_ratio),
|
||||||
|
act_layer=act_layer,
|
||||||
|
norm_layer=norm_layer,
|
||||||
|
drop=drop,
|
||||||
|
mid_conv=True,
|
||||||
|
)
|
||||||
|
self.ls2 = LayerScale2d(
|
||||||
|
dim, layer_scale_init_value) if layer_scale_init_value is not None else nn.Identity()
|
||||||
|
self.drop_path2 = DropPath(drop_path) if drop_path > 0. else nn.Identity()
|
||||||
|
|
||||||
|
def forward(self, x):
|
||||||
|
if self.token_mixer is not None:
|
||||||
|
x = x + self.drop_path1(self.ls1(self.token_mixer(x)))
|
||||||
|
x = x + self.drop_path2(self.ls2(self.mlp(x)))
|
||||||
|
return x
|
||||||
|
|
||||||
|
|
||||||
|
class Stem4(nn.Sequential):
|
||||||
|
def __init__(self, in_chs, out_chs, act_layer=nn.GELU, norm_layer=nn.BatchNorm2d):
|
||||||
|
super().__init__()
|
||||||
|
self.stride = 4
|
||||||
|
self.conv1 = ConvNormAct(
|
||||||
|
in_chs, out_chs // 2, kernel_size=3, stride=2, padding=1, bias=True,
|
||||||
|
norm_layer=norm_layer, act_layer=act_layer
|
||||||
|
)
|
||||||
|
self.conv2 = ConvNormAct(
|
||||||
|
out_chs // 2, out_chs, kernel_size=3, stride=2, padding=1, bias=True,
|
||||||
|
norm_layer=norm_layer, act_layer=act_layer
|
||||||
|
)
|
||||||
|
|
||||||
|
|
||||||
|
class EfficientFormerV2Stage(nn.Module):
|
||||||
|
|
||||||
|
def __init__(
|
||||||
|
self,
|
||||||
|
dim,
|
||||||
|
dim_out,
|
||||||
|
depth,
|
||||||
|
resolution=7,
|
||||||
|
downsample=True,
|
||||||
|
block_stride=None,
|
||||||
|
downsample_use_attn=False,
|
||||||
|
block_use_attn=False,
|
||||||
|
num_vit=1,
|
||||||
|
mlp_ratio=4.,
|
||||||
|
drop=.0,
|
||||||
|
drop_path=0.,
|
||||||
|
layer_scale_init_value=1e-5,
|
||||||
|
act_layer=nn.GELU,
|
||||||
|
norm_layer=nn.BatchNorm2d,
|
||||||
|
|
||||||
|
):
|
||||||
|
super().__init__()
|
||||||
|
self.grad_checkpointing = False
|
||||||
|
mlp_ratio = to_ntuple(depth)(mlp_ratio)
|
||||||
|
resolution = to_2tuple(resolution)
|
||||||
|
|
||||||
|
if downsample:
|
||||||
|
self.downsample = Downsample(
|
||||||
|
dim,
|
||||||
|
dim_out,
|
||||||
|
use_attn=downsample_use_attn,
|
||||||
|
resolution=resolution,
|
||||||
|
norm_layer=norm_layer,
|
||||||
|
act_layer=act_layer,
|
||||||
|
)
|
||||||
|
dim = dim_out
|
||||||
|
resolution = tuple([math.ceil(r / 2) for r in resolution])
|
||||||
|
else:
|
||||||
|
assert dim == dim_out
|
||||||
|
self.downsample = nn.Identity()
|
||||||
|
|
||||||
|
blocks = []
|
||||||
|
for block_idx in range(depth):
|
||||||
|
remain_idx = depth - num_vit - 1
|
||||||
|
b = EfficientFormerV2Block(
|
||||||
|
dim,
|
||||||
|
resolution=resolution,
|
||||||
|
stride=block_stride,
|
||||||
|
mlp_ratio=mlp_ratio[block_idx],
|
||||||
|
use_attn=block_use_attn and block_idx > remain_idx,
|
||||||
|
drop=drop,
|
||||||
|
drop_path=drop_path[block_idx],
|
||||||
|
layer_scale_init_value=layer_scale_init_value,
|
||||||
|
act_layer=act_layer,
|
||||||
|
norm_layer=norm_layer,
|
||||||
|
)
|
||||||
|
blocks += [b]
|
||||||
|
self.blocks = nn.Sequential(*blocks)
|
||||||
|
|
||||||
|
def forward(self, x):
|
||||||
|
x = self.downsample(x)
|
||||||
|
x = self.blocks(x)
|
||||||
|
return x
|
||||||
|
|
||||||
|
|
||||||
|
class EfficientFormerV2(nn.Module):
|
||||||
|
def __init__(
|
||||||
|
self,
|
||||||
|
depths,
|
||||||
|
in_chans=3,
|
||||||
|
img_size=224,
|
||||||
|
embed_dims=None,
|
||||||
|
downsamples=None,
|
||||||
|
mlp_ratios=4,
|
||||||
|
norm_layer='batchnorm2d',
|
||||||
|
norm_eps=1e-5,
|
||||||
|
act_layer='gelu',
|
||||||
|
num_classes=1000,
|
||||||
|
drop_rate=0.,
|
||||||
|
drop_path_rate=0.,
|
||||||
|
layer_scale_init_value=1e-5,
|
||||||
|
num_vit=0,
|
||||||
|
distillation=True,
|
||||||
|
):
|
||||||
|
super().__init__()
|
||||||
|
self.num_classes = num_classes
|
||||||
|
self.feature_info = []
|
||||||
|
img_size = to_2tuple(img_size)
|
||||||
|
norm_layer = partial(get_norm_layer(norm_layer), eps=norm_eps)
|
||||||
|
act_layer = get_act_layer(act_layer)
|
||||||
|
|
||||||
|
self.stem = Stem4(in_chans, embed_dims[0], act_layer=act_layer, norm_layer=norm_layer)
|
||||||
|
prev_dim = embed_dims[0]
|
||||||
|
stride = 4
|
||||||
|
|
||||||
|
num_stages = len(depths)
|
||||||
|
dpr = [x.tolist() for x in torch.linspace(0, drop_path_rate, sum(depths)).split(depths)]
|
||||||
|
downsamples = downsamples or (False,) + (True,) * (len(depths) - 1)
|
||||||
|
mlp_ratios = to_ntuple(num_stages)(mlp_ratios)
|
||||||
|
stages = []
|
||||||
|
for i in range(num_stages):
|
||||||
|
curr_resolution = tuple([math.ceil(s / stride) for s in img_size])
|
||||||
|
stage = EfficientFormerV2Stage(
|
||||||
|
prev_dim,
|
||||||
|
embed_dims[i],
|
||||||
|
depth=depths[i],
|
||||||
|
resolution=curr_resolution,
|
||||||
|
downsample=downsamples[i],
|
||||||
|
block_stride=2 if i == 2 else None,
|
||||||
|
downsample_use_attn=i >= 3,
|
||||||
|
block_use_attn=i >= 2,
|
||||||
|
num_vit=num_vit,
|
||||||
|
mlp_ratio=mlp_ratios[i],
|
||||||
|
drop=drop_rate,
|
||||||
|
drop_path=dpr[i],
|
||||||
|
layer_scale_init_value=layer_scale_init_value,
|
||||||
|
act_layer=act_layer,
|
||||||
|
norm_layer=norm_layer,
|
||||||
|
)
|
||||||
|
if downsamples[i]:
|
||||||
|
stride *= 2
|
||||||
|
prev_dim = embed_dims[i]
|
||||||
|
self.feature_info += [dict(num_chs=prev_dim, reduction=stride, module=f'stages.{i}')]
|
||||||
|
stages.append(stage)
|
||||||
|
self.stages = nn.Sequential(*stages)
|
||||||
|
|
||||||
|
# Classifier head
|
||||||
|
self.num_features = embed_dims[-1]
|
||||||
|
self.norm = norm_layer(embed_dims[-1])
|
||||||
|
self.head = nn.Linear(embed_dims[-1], num_classes) if num_classes > 0 else nn.Identity()
|
||||||
|
self.dist = distillation
|
||||||
|
if self.dist:
|
||||||
|
self.head_dist = nn.Linear(embed_dims[-1], num_classes) if num_classes > 0 else nn.Identity()
|
||||||
|
else:
|
||||||
|
self.head_dist = None
|
||||||
|
|
||||||
|
self.apply(self.init_weights)
|
||||||
|
self.distilled_training = False
|
||||||
|
|
||||||
|
# init for classification
|
||||||
|
def init_weights(self, m):
|
||||||
|
if isinstance(m, nn.Linear):
|
||||||
|
trunc_normal_(m.weight, std=.02)
|
||||||
|
if m.bias is not None:
|
||||||
|
nn.init.constant_(m.bias, 0)
|
||||||
|
|
||||||
|
def forward(self, x):
|
||||||
|
x = self.stem(x)
|
||||||
|
x = self.stages(x)
|
||||||
|
x = self.norm(x)
|
||||||
|
x = x.mean(dim=(2, 3))
|
||||||
|
x, x_dist = self.head(x), self.head_dist(x)
|
||||||
|
if self.distilled_training and self.training and not torch.jit.is_scripting():
|
||||||
|
# only return separate classification predictions when training in distilled mode
|
||||||
|
return x, x_dist
|
||||||
|
else:
|
||||||
|
# during standard train/finetune, inference average the classifier predictions
|
||||||
|
return (x + x_dist) / 2
|
||||||
|
|
||||||
|
|
||||||
|
def _cfg(url='', **kwargs):
|
||||||
|
return {
|
||||||
|
'url': url,
|
||||||
|
'num_classes': 1000, 'input_size': (3, 224, 224), 'pool_size': None, 'fixed_input_size': True,
|
||||||
|
'crop_pct': .95, 'interpolation': 'bicubic',
|
||||||
|
'mean': IMAGENET_DEFAULT_MEAN, 'std': IMAGENET_DEFAULT_STD,
|
||||||
|
'classifier': 'head',
|
||||||
|
**kwargs
|
||||||
|
}
|
||||||
|
|
||||||
|
|
||||||
|
default_cfgs = generate_default_cfgs({
|
||||||
|
'efficientformerv2_s0.snap_dist_in1k': _cfg(
|
||||||
|
hf_hub_id='timm/',
|
||||||
|
),
|
||||||
|
'efficientformerv2_s1.snap_dist_in1k': _cfg(
|
||||||
|
hf_hub_id='timm/',
|
||||||
|
),
|
||||||
|
'efficientformerv2_s2.snap_dist_in1k': _cfg(
|
||||||
|
hf_hub_id='timm/',
|
||||||
|
),
|
||||||
|
'efficientformerv2_l.snap_dist_in1k': _cfg(
|
||||||
|
hf_hub_id='timm/',
|
||||||
|
),
|
||||||
|
})
|
||||||
|
|
||||||
|
|
||||||
|
def _create_efficientformerv2(variant, pretrained=False, **kwargs):
|
||||||
|
out_indices = kwargs.pop('out_indices', (0, 1, 2, 3))
|
||||||
|
model = build_model_with_cfg(
|
||||||
|
EfficientFormerV2, variant, pretrained,
|
||||||
|
feature_cfg=dict(flatten_sequential=True, out_indices=out_indices),
|
||||||
|
**kwargs)
|
||||||
|
return model
|
||||||
|
|
||||||
|
|
||||||
|
@register_model
|
||||||
|
def efficientformerv2_s0(pretrained=False, **kwargs):
|
||||||
|
model_args = dict(
|
||||||
|
depths=EfficientFormer_depth['S0'],
|
||||||
|
embed_dims=EfficientFormer_width['S0'],
|
||||||
|
num_vit=2,
|
||||||
|
drop_path_rate=0.0,
|
||||||
|
mlp_ratios=EfficientFormer_expansion_ratios['S0'],
|
||||||
|
)
|
||||||
|
return _create_efficientformerv2('efficientformerv2_s0', pretrained=pretrained, **dict(model_args, **kwargs))
|
||||||
|
|
||||||
|
|
||||||
|
@register_model
|
||||||
|
def efficientformerv2_s1(pretrained=False, **kwargs):
|
||||||
|
model_args = dict(
|
||||||
|
depths=EfficientFormer_depth['S1'],
|
||||||
|
embed_dims=EfficientFormer_width['S1'],
|
||||||
|
num_vit=2,
|
||||||
|
drop_path_rate=0.0,
|
||||||
|
mlp_ratios=EfficientFormer_expansion_ratios['S1'],
|
||||||
|
)
|
||||||
|
return _create_efficientformerv2('efficientformerv2_s1', pretrained=pretrained, **dict(model_args, **kwargs))
|
||||||
|
|
||||||
|
|
||||||
|
@register_model
|
||||||
|
def efficientformerv2_s2(pretrained=False, **kwargs):
|
||||||
|
model_args = dict(
|
||||||
|
depths=EfficientFormer_depth['S2'],
|
||||||
|
embed_dims=EfficientFormer_width['S2'],
|
||||||
|
num_vit=4,
|
||||||
|
drop_path_rate=0.02,
|
||||||
|
mlp_ratios=EfficientFormer_expansion_ratios['S2'],
|
||||||
|
)
|
||||||
|
return _create_efficientformerv2('efficientformerv2_s2', pretrained=pretrained, **dict(model_args, **kwargs))
|
||||||
|
|
||||||
|
|
||||||
|
@register_model
|
||||||
|
def efficientformerv2_l(pretrained=False, **kwargs):
|
||||||
|
model_args = dict(
|
||||||
|
depths=EfficientFormer_depth['L'],
|
||||||
|
embed_dims=EfficientFormer_width['L'],
|
||||||
|
num_vit=6,
|
||||||
|
drop_path_rate=0.1,
|
||||||
|
mlp_ratios=EfficientFormer_expansion_ratios['L'],
|
||||||
|
)
|
||||||
|
return _create_efficientformerv2('efficientformerv2_l', pretrained=pretrained, **dict(model_args, **kwargs))
|
||||||
|
|
File diff suppressed because it is too large
Load Diff
Loading…
Reference in new issue