From 7eb7e73216c69b87f32973965ae61dd43f8ac7ec Mon Sep 17 00:00:00 2001 From: Ross Wightman Date: Fri, 17 Dec 2021 09:46:46 -0800 Subject: [PATCH] File will not stay deleted --- timm/models/layers/pooled_attn.py | 143 ------------------------------ 1 file changed, 143 deletions(-) delete mode 100644 timm/models/layers/pooled_attn.py diff --git a/timm/models/layers/pooled_attn.py b/timm/models/layers/pooled_attn.py deleted file mode 100644 index 40cf2b34..00000000 --- a/timm/models/layers/pooled_attn.py +++ /dev/null @@ -1,143 +0,0 @@ -from typing import List - -import torch -import torch.nn as nn -import torch.nn.functional as F - -from .helpers import to_2tuple -from .weight_init import trunc_normal_ - - -def rel_logits_1d(q, rel_k, permute_mask: List[int]): - """ Compute relative logits along one dimension - - As per: https://gist.github.com/aravindsrinivas/56359b79f0ce4449bcb04ab4b56a57a2 - Originally from: `Attention Augmented Convolutional Networks` - https://arxiv.org/abs/1904.09925 - - Args: - q: (batch, heads, height, width, dim) - rel_k: (2 * width - 1, dim) - permute_mask: permute output dim according to this - """ - B, H, W, dim = q.shape - x = (q @ rel_k.transpose(-1, -2)) - x = x.reshape(-1, W, 2 * W -1) - - # pad to shift from relative to absolute indexing - x_pad = F.pad(x, [0, 1]).flatten(1) - x_pad = F.pad(x_pad, [0, W - 1]) - - # reshape and slice out the padded elements - x_pad = x_pad.reshape(-1, W + 1, 2 * W - 1) - x = x_pad[:, :W, W - 1:] - - # reshape and tile - x = x.reshape(B, H, 1, W, W).expand(-1, -1, H, -1, -1) - return x.permute(permute_mask) - - -class PosEmbedRel(nn.Module): - """ Relative Position Embedding - As per: https://gist.github.com/aravindsrinivas/56359b79f0ce4449bcb04ab4b56a57a2 - Originally from: `Attention Augmented Convolutional Networks` - https://arxiv.org/abs/1904.09925 - """ - def __init__(self, feat_size, dim_head, scale): - super().__init__() - self.height, self.width = to_2tuple(feat_size) - self.dim_head = dim_head - self.scale = scale - self.height_rel = nn.Parameter(torch.randn(self.height * 2 - 1, dim_head) * self.scale) - self.width_rel = nn.Parameter(torch.randn(self.width * 2 - 1, dim_head) * self.scale) - - def forward(self, q): - B, num_heads, HW, _ = q.shape - - # relative logits in width dimension. - q = q.reshape(B * num_heads, self.height, self.width, -1) - rel_logits_w = rel_logits_1d(q, self.width_rel, permute_mask=(0, 1, 3, 2, 4)) - - # relative logits in height dimension. - q = q.transpose(1, 2) - rel_logits_h = rel_logits_1d(q, self.height_rel, permute_mask=(0, 3, 1, 4, 2)) - - rel_logits = rel_logits_h + rel_logits_w - rel_logits = rel_logits.reshape(B, num_heads, HW, HW) - return rel_logits - - -class BottleneckAttn(nn.Module): - """ Bottleneck Attention - Paper: `Bottleneck Transformers for Visual Recognition` - https://arxiv.org/abs/2101.11605 - """ - def __init__(self, dim, dim_out=None, feat_size=None, stride=1, num_heads=4, qkv_bias=False): - super().__init__() - assert feat_size is not None, 'A concrete feature size matching expected input (H, W) is required' - dim_out = dim_out or dim - assert dim_out % num_heads == 0 - self.num_heads = num_heads - self.dim_out = dim_out - self.dim_head = dim_out // num_heads - self.scale = self.dim_head ** -0.5 - - self.qkv = nn.Conv2d(dim, self.dim_out * 3, 1, bias=qkv_bias) - - # NOTE I'm only supporting relative pos embedding for now - self.pos_embed = PosEmbedRel(feat_size, dim_head=self.dim_head, scale=self.scale) - - self.pool = nn.AvgPool2d(2, 2) if stride == 2 else nn.Identity() - - self.reset_parameters() - - def reset_parameters(self): - trunc_normal_(self.qkv.weight, std=self.qkv.weight.shape[1] ** -0.5) - trunc_normal_(self.pos_embed.height_rel, std=self.scale) - trunc_normal_(self.pos_embed.width_rel, std=self.scale) - - def forward(self, x): - B, C, H, W = x.shape - assert H == self.pos_embed.height - assert W == self.pos_embed.width - - x = self.qkv(x) # B, 3 * num_heads * dim_head, H, W - x = x.reshape(B, -1, self.dim_head, H * W).transpose(-1, -2) - q, k, v = torch.split(x, self.num_heads, dim=1) - - attn_logits = (q @ k.transpose(-1, -2)) * self.scale - attn_logits = attn_logits + self.pos_embed(q) # B, num_heads, H * W, H * W - - attn_out = attn_logits.softmax(dim=-1) - attn_out = (attn_out @ v).transpose(-1, -2).reshape(B, self.dim_out, H, W) # B, dim_out, H, W - attn_out = self.pool(attn_out) - return attn_out - - -class PoolingAttention(nn.Module): - def __init__(self, in_features: int, attention_features: int, segments: int, max_pool_kernel: int): - super(PoolingAttention, self).__init__() - self.attn = nn.Linear(in_features, attention_features * 5) - self.segments = segments - self.max_pool_kernel = max_pool_kernel - - def forward(self, inp: torch.Tensor): # Shape: [Batch, Sequence, Features] - batch, sequence, features = inp.size() - assert sequence % self.segments == 0 - - qry, key, val, seg, loc = self.attn(inp).chunk(5, 2) # 5x Shape: [Batch, Sequence, AttentionFeatures] - - aggregated = qry.mean(1, keepdim=True) # Shape: [Batch, AttentionFeatures] - aggregated = torch.einsum("ba,bsa->bs", aggregated, key) # Shape: [Batch, Sequence] - aggregated = F.softmax(aggregated, 1) - aggregated = torch.einsum("bs,bsa,bza->bza", aggregated, val, - qry) # Shape: [Batch, Sequence, AttentionFeatures] - - pooled_sequence = sequence // self.segments - segment_max_pooled = seg.view(batch, pooled_sequence, self.segments, -1) - segment_max_pooled = segment_max_pooled.max(2, keepdim=True) # Shape: [Batch, PooledSequence, 1, AttentionFeatures] - segment_max_pooled = segment_max_pooled * qry.view(batch, pooled_sequence, self.segments, -1) # Shape: [Batch, PooledSequence, PoolSize, AttentionFeatures] - segment_max_pooled = segment_max_pooled.view(batch, sequence, -1) # Shape: [Batch, Sequence, AttentionFeatures] - - loc = loc.transpose(1, 2) # Shape: [Batch, AttentionFeatures, Sequence] - local_max_pooled = F.max_pool1d(loc, self.max_pool_kernel, 1, self.max_pool_kernel // 2) - local_max_pooled = local_max_pooled.transpose(1, 2) # Shape: [Batch, Sequence, AttentionFeatures] - - return aggregated + segment_max_pooled + local_max_pooled \ No newline at end of file