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add a hypersphere vit, adapted from https://arxiv.org/abs/2410.01131
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Original file line number | Diff line number | Diff line change |
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import torch | ||
from torch import nn | ||
from torch.nn import Module, ModuleList | ||
import torch.nn.functional as F | ||
import torch.nn.utils.parametrize as parametrize | ||
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from einops import rearrange, reduce | ||
from einops.layers.torch import Rearrange | ||
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# functions | ||
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def exists(v): | ||
return v is not None | ||
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def default(v, d): | ||
return v if exists(v) else d | ||
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def pair(t): | ||
return t if isinstance(t, tuple) else (t, t) | ||
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def divisible_by(numer, denom): | ||
return (numer % denom) == 0 | ||
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def l2norm(t, dim = -1): | ||
return F.normalize(t, dim = dim, p = 2) | ||
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# for use with parametrize | ||
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class L2Norm(Module): | ||
def __init__(self, dim = -1): | ||
super().__init__() | ||
self.dim = dim | ||
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def forward(self, t): | ||
return l2norm(t, dim = self.dim) | ||
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class NormLinear(Module): | ||
def __init__( | ||
self, | ||
dim, | ||
dim_out, | ||
norm_dim_in = True | ||
): | ||
super().__init__() | ||
self.linear = nn.Linear(dim, dim_out, bias = False) | ||
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parametrize.register_parametrization( | ||
self.linear, | ||
'weight', | ||
L2Norm(dim = -1 if norm_dim_in else 0) | ||
) | ||
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@property | ||
def weight(self): | ||
return self.linear.weight | ||
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def forward(self, x): | ||
return self.linear(x) | ||
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# attention and feedforward | ||
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class Attention(Module): | ||
def __init__( | ||
self, | ||
dim, | ||
*, | ||
dim_head = 64, | ||
heads = 8, | ||
dropout = 0. | ||
): | ||
super().__init__() | ||
dim_inner = dim_head * heads | ||
self.to_q = NormLinear(dim, dim_inner) | ||
self.to_k = NormLinear(dim, dim_inner) | ||
self.to_v = NormLinear(dim, dim_inner) | ||
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self.dropout = dropout | ||
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self.qk_scale = nn.Parameter(torch.ones(dim_head) * (dim_head ** 0.25)) | ||
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self.split_heads = Rearrange('b n (h d) -> b h n d', h = heads) | ||
self.merge_heads = Rearrange('b h n d -> b n (h d)') | ||
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self.to_out = NormLinear(dim_inner, dim, norm_dim_in = False) | ||
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def forward( | ||
self, | ||
x | ||
): | ||
q, k, v = self.to_q(x), self.to_k(x), self.to_v(x) | ||
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q, k, v = map(self.split_heads, (q, k, v)) | ||
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# query key rmsnorm | ||
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q, k = map(l2norm, (q, k)) | ||
q, k = (q * self.qk_scale), (k * self.qk_scale) | ||
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# scale is 1., as scaling factor is moved to s_qk (dk ^ 0.25) - eq. 16 | ||
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out = F.scaled_dot_product_attention( | ||
q, k, v, | ||
dropout_p = self.dropout if self.training else 0., | ||
scale = 1. | ||
) | ||
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out = self.merge_heads(out) | ||
return self.to_out(out) | ||
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class FeedForward(Module): | ||
def __init__( | ||
self, | ||
dim, | ||
*, | ||
dim_inner, | ||
dropout = 0. | ||
): | ||
super().__init__() | ||
dim_inner = int(dim_inner * 2 / 3) | ||
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self.dim = dim | ||
self.dropout = nn.Dropout(dropout) | ||
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self.to_hidden = NormLinear(dim, dim_inner) | ||
self.to_gate = NormLinear(dim, dim_inner) | ||
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self.hidden_scale = nn.Parameter(torch.ones(dim_inner)) | ||
self.gate_scale = nn.Parameter(torch.ones(dim_inner)) | ||
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self.to_out = NormLinear(dim_inner, dim, norm_dim_in = False) | ||
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def forward(self, x): | ||
hidden, gate = self.to_hidden(x), self.to_gate(x) | ||
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hidden = hidden * self.hidden_scale | ||
gate = gate * self.gate_scale * (self.dim ** 0.5) | ||
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hidden = F.silu(gate) * hidden | ||
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hidden = self.dropout(hidden) | ||
return self.to_out(hidden) | ||
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# classes | ||
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class nViT(Module): | ||
""" https://arxiv.org/abs/2410.01131 """ | ||
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def __init__( | ||
self, | ||
*, | ||
image_size, | ||
patch_size, | ||
num_classes, | ||
dim, | ||
depth, | ||
heads, | ||
mlp_dim, | ||
dropout = 0., | ||
channels = 3, | ||
dim_head = 64, | ||
residual_lerp_scale_init = None | ||
): | ||
super().__init__() | ||
image_height, image_width = pair(image_size) | ||
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# calculate patching related stuff | ||
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assert divisible_by(image_height, patch_size) and divisible_by(image_width, patch_size), 'Image dimensions must be divisible by the patch size.' | ||
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patch_height_dim, patch_width_dim = (image_height // patch_size), (image_width // patch_size) | ||
patch_dim = channels * (patch_size ** 2) | ||
num_patches = patch_height_dim * patch_width_dim | ||
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self.channels = channels | ||
self.patch_size = patch_size | ||
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self.to_patch_embedding = nn.Sequential( | ||
Rearrange('b c (h p1) (w p2) -> b (h w) (c p1 p2)', p1 = patch_size, p2 = patch_size), | ||
nn.LayerNorm(patch_dim), | ||
nn.Linear(patch_dim, dim), | ||
nn.LayerNorm(dim), | ||
) | ||
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self.abs_pos_emb = nn.Embedding(num_patches, dim) | ||
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residual_lerp_scale_init = default(residual_lerp_scale_init, 1. / depth) | ||
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# layers | ||
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self.dim = dim | ||
self.layers = ModuleList([]) | ||
self.residual_lerp_scales = nn.ParameterList([]) | ||
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for _ in range(depth): | ||
self.layers.append(ModuleList([ | ||
Attention(dim, dim_head = dim_head, heads = heads, dropout = dropout), | ||
FeedForward(dim, dim_inner = mlp_dim, dropout = dropout), | ||
])) | ||
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self.residual_lerp_scales.append(nn.ParameterList([ | ||
nn.Parameter(torch.ones(dim) * residual_lerp_scale_init), | ||
nn.Parameter(torch.ones(dim) * residual_lerp_scale_init), | ||
])) | ||
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self.logit_scale = nn.Parameter(torch.ones(num_classes)) | ||
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self.to_pred = NormLinear(dim, num_classes) | ||
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@torch.no_grad() | ||
def norm_weights_(self): | ||
for module in self.modules(): | ||
if not isinstance(module, NormLinear): | ||
continue | ||
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normed = module.weight | ||
original = module.linear.parametrizations.weight.original | ||
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original.copy_(normed) | ||
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def forward(self, images): | ||
device = images.device | ||
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tokens = self.to_patch_embedding(images) | ||
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pos_emb = self.abs_pos_emb(torch.arange(tokens.shape[-2], device = device)) | ||
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tokens = l2norm(tokens + pos_emb) | ||
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for (attn, ff), (attn_alpha, ff_alpha) in zip(self.layers, self.residual_lerp_scales): | ||
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attn_out = l2norm(attn(tokens)) | ||
tokens = l2norm(tokens.lerp(attn_out, attn_alpha)) | ||
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ff_out = l2norm(ff(tokens)) | ||
tokens = l2norm(tokens.lerp(ff_out, ff_alpha)) | ||
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pooled = reduce(tokens, 'b n d -> b d', 'mean') | ||
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logits = self.to_pred(pooled) | ||
logits = logits * self.logit_scale * (self.dim ** 0.5) | ||
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return logits | ||
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# quick test | ||
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if __name__ == '__main__': | ||
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v = nViT( | ||
image_size = 256, | ||
patch_size = 16, | ||
num_classes = 1000, | ||
dim = 1024, | ||
depth = 6, | ||
heads = 8, | ||
mlp_dim = 2048, | ||
) | ||
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img = torch.randn(4, 3, 256, 256) | ||
logits = v(img) # (4, 1000) | ||
assert logits.shape == (4, 1000) |
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