models/vit.py

""" Vision Transformer (ViT) in PyTorch

A PyTorch implement of Vision Transformers as described in:

'An Image Is Worth 16 x 16 Words: Transformers for Image Recognition at Scale'
    - https://arxiv.org/abs/2010.11929

`How to train your ViT? Data, Augmentation, and Regularization in Vision Transformers`
    - https://arxiv.org/abs/2106.10270

`FlexiViT: One Model for All Patch Sizes`
    - https://arxiv.org/abs/2212.08013

The official jax code is released and available at
  * https://github.com/google-research/vision_transformer
  * https://github.com/google-research/big_vision

Acknowledgments:
  * The paper authors for releasing code and weights, thanks!
  * I fixed my class token impl based on Phil Wang's https://github.com/lucidrains/vit-pytorch
  * Simple transformer style inspired by Andrej Karpathy's https://github.com/karpathy/minGPT
  * Bert reference code checks against Huggingface Transformers and Tensorflow Bert

Hacked together by / Copyright 2020, Ross Wightman
"""
import copy
import logging
import math
from collections import OrderedDict
from functools import partial
from typing import Any, Callable, Dict, Optional, Set, Tuple, Type, Union, List
try:
    from typing import Literal
except ImportError:
    from typing_extensions import Literal

import torch
import torch.nn as nn
import torch.nn.functional as F
from torch.jit import Final

from timm.data import IMAGENET_DEFAULT_MEAN, IMAGENET_DEFAULT_STD, IMAGENET_INCEPTION_MEAN, IMAGENET_INCEPTION_STD, \
    OPENAI_CLIP_MEAN, OPENAI_CLIP_STD
from timm.layers import PatchEmbed, Mlp, DropPath, AttentionPoolLatent, RmsNorm, PatchDropout, SwiGLUPacked, SwiGLU, \
    trunc_normal_, lecun_normal_, resample_patch_embed, resample_abs_pos_embed, use_fused_attn, \
    get_act_layer, get_norm_layer, LayerType
from timm.models._builder import build_model_with_cfg
from timm.models._features import feature_take_indices
from timm.models._manipulate import named_apply, checkpoint_seq, adapt_input_conv
from timm.models._registry import generate_default_cfgs, register_model, register_model_deprecations

__all__ = ['VisionTransformer']  # model_registry will add each entrypoint fn to this


_logger = logging.getLogger(__name__)


class Attention(nn.Module):
    fused_attn: Final[bool]

    def __init__(
            self,
            dim: int,
            num_heads: int = 8,
            qkv_bias: bool = False,
            qk_norm: bool = False,
            proj_bias: bool = True,
            attn_drop: float = 0.,
            proj_drop: float = 0.,
            norm_layer: Type[nn.Module] = nn.LayerNorm,
    ) -> None:
        super().__init__()
        assert dim % num_heads == 0, 'dim should be divisible by num_heads'
        self.num_heads = num_heads
        self.head_dim = dim // num_heads
        self.scale = self.head_dim ** -0.5
        self.fused_attn = use_fused_attn()

        self.qkv = nn.Linear(dim, dim * 3, bias=qkv_bias)
        self.q_norm = norm_layer(self.head_dim) if qk_norm else nn.Identity()
        self.k_norm = norm_layer(self.head_dim) if qk_norm else nn.Identity()
        self.attn_drop = nn.Dropout(attn_drop)
        self.proj = nn.Linear(dim, dim, bias=proj_bias)
        self.proj_drop = nn.Dropout(proj_drop)

    def forward(self, x: torch.Tensor) -> torch.Tensor:
        B, N, C = x.shape
        qkv = self.qkv(x).reshape(B, N, 3, self.num_heads, self.head_dim).permute(2, 0, 3, 1, 4)
        q, k, v = qkv.unbind(0)
        q, k = self.q_norm(q), self.k_norm(k)

        if self.fused_attn:
            x = F.scaled_dot_product_attention(
                q, k, v,
                dropout_p=self.attn_drop.p if self.training else 0.,
            )
        else:
            q = q * self.scale
            attn = q @ k.transpose(-2, -1)
            attn = attn.softmax(dim=-1)
            attn = self.attn_drop(attn)
            x = attn @ v

        x = x.transpose(1, 2).reshape(B, N, C)
        x = self.proj(x)
        x = self.proj_drop(x)
        return x


class LayerScale(nn.Module):
    def __init__(
            self,
            dim: int,
            init_values: float = 1e-5,
            inplace: bool = False,
    ) -> None:
        super().__init__()
        self.inplace = inplace
        self.gamma = nn.Parameter(init_values * torch.ones(dim))

    def forward(self, x: torch.Tensor) -> torch.Tensor:
        return x.mul_(self.gamma) if self.inplace else x * self.gamma


class Block(nn.Module):
    def __init__(
            self,
            dim: int,
            num_heads: int,
            mlp_ratio: float = 4.,
            qkv_bias: bool = False,
            qk_norm: bool = False,
            proj_bias: bool = True,
            proj_drop: float = 0.,
            attn_drop: float = 0.,
            init_values: Optional[float] = None,
            drop_path: float = 0.,
            act_layer: Type[nn.Module] = nn.GELU,
            norm_layer: Type[nn.Module] = nn.LayerNorm,
            mlp_layer: Type[nn.Module] = Mlp,
    ) -> None:
        super().__init__()
        self.norm1 = norm_layer(dim)
        self.attn = Attention(
            dim,
            num_heads=num_heads,
            qkv_bias=qkv_bias,
            qk_norm=qk_norm,
            proj_bias=proj_bias,
            attn_drop=attn_drop,
            proj_drop=proj_drop,
            norm_layer=norm_layer,
        )
        self.ls1 = LayerScale(dim, init_values=init_values) if init_values else nn.Identity()
        self.drop_path1 = DropPath(drop_path) if drop_path > 0. else nn.Identity()

        self.norm2 = norm_layer(dim)
        self.mlp = mlp_layer(
            in_features=dim,
            hidden_features=int(dim * mlp_ratio),
            act_layer=act_layer,
            bias=proj_bias,
            drop=proj_drop,
        )
        self.ls2 = LayerScale(dim, init_values=init_values) if init_values else nn.Identity()
        self.drop_path2 = DropPath(drop_path) if drop_path > 0. else nn.Identity()

    def forward(self, x: torch.Tensor) -> torch.Tensor:
        x = x + self.drop_path1(self.ls1(self.attn(self.norm1(x))))
        x = x + self.drop_path2(self.ls2(self.mlp(self.norm2(x))))
        return x


class ResPostBlock(nn.Module):
    def __init__(
            self,
            dim: int,
            num_heads: int,
            mlp_ratio: float = 4.,
            qkv_bias: bool = False,
            qk_norm: bool = False,
            proj_bias: bool = True,
            proj_drop: float = 0.,
            attn_drop: float = 0.,
            init_values: Optional[float] = None,
            drop_path: float = 0.,
            act_layer: Type[nn.Module] = nn.GELU,
            norm_layer: Type[nn.Module] = nn.LayerNorm,
            mlp_layer: Type[nn.Module] = Mlp,
    ) -> None:
        super().__init__()
        self.init_values = init_values

        self.attn = Attention(
            dim,
            num_heads=num_heads,
            qkv_bias=qkv_bias,
            qk_norm=qk_norm,
            proj_bias=proj_bias,
            attn_drop=attn_drop,
            proj_drop=proj_drop,
            norm_layer=norm_layer,
        )
        self.norm1 = norm_layer(dim)
        self.drop_path1 = DropPath(drop_path) if drop_path > 0. else nn.Identity()

        self.mlp = mlp_layer(
            in_features=dim,
            hidden_features=int(dim * mlp_ratio),
            act_layer=act_layer,
            bias=proj_bias,
            drop=proj_drop,
        )
        self.norm2 = norm_layer(dim)
        self.drop_path2 = DropPath(drop_path) if drop_path > 0. else nn.Identity()

        self.init_weights()

    def init_weights(self) -> None:
        # NOTE this init overrides that base model init with specific changes for the block type
        if self.init_values is not None:
            nn.init.constant_(self.norm1.weight, self.init_values)
            nn.init.constant_(self.norm2.weight, self.init_values)

    def forward(self, x: torch.Tensor) -> torch.Tensor:
        x = x + self.drop_path1(self.norm1(self.attn(x)))
        x = x + self.drop_path2(self.norm2(self.mlp(x)))
        return x


class ParallelScalingBlock(nn.Module):
    """ Parallel ViT block (MLP & Attention in parallel)
    Based on:
      'Scaling Vision Transformers to 22 Billion Parameters` - https://arxiv.org/abs/2302.05442
    """
    fused_attn: Final[bool]

    def __init__(
            self,
            dim: int,
            num_heads: int,
            mlp_ratio: float = 4.,
            qkv_bias: bool = False,
            qk_norm: bool = False,
            proj_bias: bool = True,
            proj_drop: float = 0.,
            attn_drop: float = 0.,
            init_values: Optional[float] = None,
            drop_path: float = 0.,
            act_layer: Type[nn.Module] = nn.GELU,
            norm_layer: Type[nn.Module] = nn.LayerNorm,
            mlp_layer: Optional[Type[nn.Module]] = None,
    ) -> None:
        super().__init__()
        assert dim % num_heads == 0, 'dim should be divisible by num_heads'
        self.num_heads = num_heads
        self.head_dim = dim // num_heads
        self.scale = self.head_dim ** -0.5
        self.fused_attn = use_fused_attn()
        mlp_hidden_dim = int(mlp_ratio * dim)
        in_proj_out_dim = mlp_hidden_dim + 3 * dim

        self.in_norm = norm_layer(dim)
        self.in_proj = nn.Linear(dim, in_proj_out_dim, bias=qkv_bias)
        self.in_split = [mlp_hidden_dim] + [dim] * 3
        if qkv_bias:
            self.register_buffer('qkv_bias', None)
            self.register_parameter('mlp_bias', None)
        else:
            self.register_buffer('qkv_bias', torch.zeros(3 * dim), persistent=False)
            self.mlp_bias = nn.Parameter(torch.zeros(mlp_hidden_dim))

        self.q_norm = norm_layer(self.head_dim) if qk_norm else nn.Identity()
        self.k_norm = norm_layer(self.head_dim) if qk_norm else nn.Identity()
        self.attn_drop = nn.Dropout(attn_drop)
        self.attn_out_proj = nn.Linear(dim, dim, bias=proj_bias)

        self.mlp_drop = nn.Dropout(proj_drop)
        self.mlp_act = act_layer()
        self.mlp_out_proj = nn.Linear(mlp_hidden_dim, dim, bias=proj_bias)

        self.ls = LayerScale(dim, init_values=init_values) if init_values is not None else nn.Identity()
        self.drop_path = DropPath(drop_path) if drop_path > 0. else nn.Identity()

    def forward(self, x: torch.Tensor) -> torch.Tensor:
        B, N, C = x.shape

        # Combined MLP fc1 & qkv projections
        y = self.in_norm(x)
        if self.mlp_bias is not None:
            # Concat constant zero-bias for qkv w/ trainable mlp_bias.
            # Appears faster than adding to x_mlp separately
            y = F.linear(y, self.in_proj.weight, torch.cat((self.qkv_bias, self.mlp_bias)))
        else:
            y = self.in_proj(y)
        x_mlp, q, k, v = torch.split(y, self.in_split, dim=-1)

        # Dot product attention w/ qk norm
        q = self.q_norm(q.view(B, N, self.num_heads, self.head_dim)).transpose(1, 2)
        k = self.k_norm(k.view(B, N, self.num_heads, self.head_dim)).transpose(1, 2)
        v = v.view(B, N, self.num_heads, self.head_dim).transpose(1, 2)
        if self.fused_attn:
            x_attn = F.scaled_dot_product_attention(
                q, k, v,
                dropout_p=self.attn_drop.p if self.training else 0.,
            )
        else:
            q = q * self.scale
            attn = q @ k.transpose(-2, -1)
            attn = attn.softmax(dim=-1)
            attn = self.attn_drop(attn)
            x_attn = attn @ v
        x_attn = x_attn.transpose(1, 2).reshape(B, N, C)
        x_attn = self.attn_out_proj(x_attn)

        # MLP activation, dropout, fc2
        x_mlp = self.mlp_act(x_mlp)
        x_mlp = self.mlp_drop(x_mlp)
        x_mlp = self.mlp_out_proj(x_mlp)

        # Add residual w/ drop path & layer scale applied
        y = self.drop_path(self.ls(x_attn + x_mlp))
        x = x + y
        return x


class ParallelThingsBlock(nn.Module):
    """ Parallel ViT block (N parallel attention followed by N parallel MLP)
    Based on:
      `Three things everyone should know about Vision Transformers` - https://arxiv.org/abs/2203.09795
    """
    def __init__(
            self,
            dim: int,
            num_heads: int,
            num_parallel: int = 2,
            mlp_ratio: float = 4.,
            qkv_bias: bool = False,
            qk_norm: bool = False,
            proj_bias: bool = True,
            init_values: Optional[float] = None,
            proj_drop: float = 0.,
            attn_drop: float = 0.,
            drop_path: float = 0.,
            act_layer: Type[nn.Module] = nn.GELU,
            norm_layer: Type[nn.Module] = nn.LayerNorm,
            mlp_layer: Type[nn.Module] = Mlp,
    ) -> None:
        super().__init__()
        self.num_parallel = num_parallel
        self.attns = nn.ModuleList()
        self.ffns = nn.ModuleList()
        for _ in range(num_parallel):
            self.attns.append(nn.Sequential(OrderedDict([
                ('norm', norm_layer(dim)),
                ('attn', Attention(
                    dim,
                    num_heads=num_heads,
                    qkv_bias=qkv_bias,
                    qk_norm=qk_norm,
                    proj_bias=proj_bias,
                    attn_drop=attn_drop,
                    proj_drop=proj_drop,
                    norm_layer=norm_layer,
                )),
                ('ls', LayerScale(dim, init_values=init_values) if init_values else nn.Identity()),
                ('drop_path', DropPath(drop_path) if drop_path > 0. else nn.Identity())
            ])))
            self.ffns.append(nn.Sequential(OrderedDict([
                ('norm', norm_layer(dim)),
                ('mlp', mlp_layer(
                    dim,
                    hidden_features=int(dim * mlp_ratio),
                    act_layer=act_layer,
                    bias=proj_bias,
                    drop=proj_drop,
                )),
                ('ls', LayerScale(dim, init_values=init_values) if init_values else nn.Identity()),
                ('drop_path', DropPath(drop_path) if drop_path > 0. else nn.Identity())
            ])))

    def _forward_jit(self, x: torch.Tensor) -> torch.Tensor:
        x = x + torch.stack([attn(x) for attn in self.attns]).sum(dim=0)
        x = x + torch.stack([ffn(x) for ffn in self.ffns]).sum(dim=0)
        return x

    @torch.jit.ignore
    def _forward(self, x: torch.Tensor) -> torch.Tensor:
        x = x + sum(attn(x) for attn in self.attns)
        x = x + sum(ffn(x) for ffn in self.ffns)
        return x

    def forward(self, x: torch.Tensor) -> torch.Tensor:
        if torch.jit.is_scripting() or torch.jit.is_tracing():
            return self._forward_jit(x)
        else:
            return self._forward(x)


def global_pool_nlc(
        x: torch.Tensor,
        pool_type: str = 'token',
        num_prefix_tokens: int = 1,
        reduce_include_prefix: bool = False,
):
    if not pool_type:
        return x

    if pool_type == 'token':
        x = x[:, 0]  # class token
    else:
        x = x if reduce_include_prefix else x[:, num_prefix_tokens:]
        if pool_type == 'avg':
            x = x.mean(dim=1)
        elif pool_type == 'avgmax':
            x = 0.5 * (x.amax(dim=1) + x.mean(dim=1))
        elif pool_type == 'max':
            x = x.amax(dim=1)
        else:
            assert not pool_type, f'Unknown pool type {pool_type}'

    return x


class VisionTransformer(nn.Module):
    """ Vision Transformer

    A PyTorch impl of : `An Image is Worth 16x16 Words: Transformers for Image Recognition at Scale`
        - https://arxiv.org/abs/2010.11929
    """
    dynamic_img_size: Final[bool]

    def __init__(
            self,
            img_size: Union[int, Tuple[int, int]] = 224,
            patch_size: Union[int, Tuple[int, int]] = 16,
            in_chans: int = 3,
            num_classes: int = 1000,
            global_pool: Literal['', 'avg', 'avgmax', 'max', 'token', 'map'] = 'token',
            embed_dim: int = 768,
            depth: int = 12,
            num_heads: int = 12,
            mlp_ratio: float = 4.,
            qkv_bias: bool = True,
            qk_norm: bool = False,
            proj_bias: bool = True,
            init_values: Optional[float] = None,
            class_token: bool = True,
            pos_embed: str = 'learn',
            no_embed_class: bool = False,
            reg_tokens: int = 0,
            pre_norm: bool = False,
            final_norm: bool = True,
            fc_norm: Optional[bool] = None,
            dynamic_img_size: bool = False,
            dynamic_img_pad: bool = False,
            drop_rate: float = 0.,
            pos_drop_rate: float = 0.,
            patch_drop_rate: float = 0.,
            proj_drop_rate: float = 0.,
            attn_drop_rate: float = 0.,
            drop_path_rate: float = 0.,
            weight_init: Literal['skip', 'jax', 'jax_nlhb', 'moco', ''] = '',
            fix_init: bool = False,
            embed_layer: Callable = PatchEmbed,
            embed_norm_layer: Optional[LayerType] = None,
            norm_layer: Optional[LayerType] = None,
            act_layer: Optional[LayerType] = None,
            block_fn: Type[nn.Module] = Block,
            mlp_layer: Type[nn.Module] = Mlp,
    ) -> None:
        """
        Args:
            img_size: Input image size.
            patch_size: Patch size.
            in_chans: Number of image input channels.
            num_classes: Number of classes for classification head.
            global_pool: Type of global pooling for final sequence (default: 'token').
            embed_dim: Transformer embedding dimension.
            depth: Depth of transformer.
            num_heads: Number of attention heads.
            mlp_ratio: Ratio of mlp hidden dim to embedding dim.
            qkv_bias: Enable bias for qkv projections if True.
            init_values: Layer-scale init values (layer-scale enabled if not None).
            class_token: Use class token.
            no_embed_class: Don't include position embeddings for class (or reg) tokens.
            reg_tokens: Number of register tokens.
            pre_norm: Enable norm after embeddings, before transformer blocks (standard in CLIP ViT).
            final_norm: Enable norm after transformer blocks, before head (standard in most ViT).
            fc_norm: Move final norm after pool (instead of before), if None, enabled when global_pool == 'avg'.
            drop_rate: Head dropout rate.
            pos_drop_rate: Position embedding dropout rate.
            attn_drop_rate: Attention dropout rate.
            drop_path_rate: Stochastic depth rate.
            weight_init: Weight initialization scheme.
            fix_init: Apply weight initialization fix (scaling w/ layer index).
            embed_layer: Patch embedding layer.
            embed_norm_layer: Normalization layer to use / override in patch embed module.
            norm_layer: Normalization layer.
            act_layer: MLP activation layer.
            block_fn: Transformer block layer.
        """
        super().__init__()
        assert global_pool in ('', 'avg', 'avgmax', 'max', 'token', 'map')
        assert class_token or global_pool != 'token'
        assert pos_embed in ('', 'none', 'learn')
        use_fc_norm = global_pool in ('avg', 'avgmax', 'max') if fc_norm is None else fc_norm
        norm_layer = get_norm_layer(norm_layer) or partial(nn.LayerNorm, eps=1e-6)
        embed_norm_layer = get_norm_layer(embed_norm_layer)
        act_layer = get_act_layer(act_layer) or nn.GELU

        self.num_classes = num_classes
        self.global_pool = global_pool
        self.num_features = self.head_hidden_size = self.embed_dim = embed_dim  # for consistency with other models
        self.num_prefix_tokens = 1 if class_token else 0
        self.num_prefix_tokens += reg_tokens
        self.num_reg_tokens = reg_tokens
        self.has_class_token = class_token
        self.no_embed_class = no_embed_class  # don't embed prefix positions (includes reg)
        self.dynamic_img_size = dynamic_img_size
        self.grad_checkpointing = False

        embed_args = {}
        if dynamic_img_size:
            # flatten deferred until after pos embed
            embed_args.update(dict(strict_img_size=False, output_fmt='NHWC'))
        if embed_norm_layer is not None:
            embed_args['norm_layer'] = embed_norm_layer
        self.patch_embed = embed_layer(
            img_size=img_size,
            patch_size=patch_size,
            in_chans=in_chans,
            embed_dim=embed_dim,
            bias=not pre_norm,  # disable bias if pre-norm is used (e.g. CLIP)
            dynamic_img_pad=dynamic_img_pad,
            **embed_args,
        )
        num_patches = self.patch_embed.num_patches
        reduction = self.patch_embed.feat_ratio() if hasattr(self.patch_embed, 'feat_ratio') else patch_size

        self.cls_token = nn.Parameter(torch.zeros(1, 1, embed_dim)) if class_token else None
        self.reg_token = nn.Parameter(torch.zeros(1, reg_tokens, embed_dim)) if reg_tokens else None
        embed_len = num_patches if no_embed_class else num_patches + self.num_prefix_tokens
        if not pos_embed or pos_embed == 'none':
            self.pos_embed = None
        else:
            self.pos_embed = nn.Parameter(torch.randn(1, embed_len, embed_dim) * .02)
        self.pos_drop = nn.Dropout(p=pos_drop_rate)
        if patch_drop_rate > 0:
            self.patch_drop = PatchDropout(
                patch_drop_rate,
                num_prefix_tokens=self.num_prefix_tokens,
            )
        else:
            self.patch_drop = nn.Identity()
        self.norm_pre = norm_layer(embed_dim) if pre_norm else nn.Identity()

        dpr = [x.item() for x in torch.linspace(0, drop_path_rate, depth)]  # stochastic depth decay rule
        self.blocks = nn.Sequential(*[
            block_fn(
                dim=embed_dim,
                num_heads=num_heads,
                mlp_ratio=mlp_ratio,
                qkv_bias=qkv_bias,
                qk_norm=qk_norm,
                proj_bias=proj_bias,
                init_values=init_values,
                proj_drop=proj_drop_rate,
                attn_drop=attn_drop_rate,
                drop_path=dpr[i],
                norm_layer=norm_layer,
                act_layer=act_layer,
                mlp_layer=mlp_layer,
            )
            for i in range(depth)])
        self.feature_info = [
            dict(module=f'blocks.{i}', num_chs=embed_dim, reduction=reduction) for i in range(depth)]
        self.norm = norm_layer(embed_dim) if final_norm and not use_fc_norm else nn.Identity()

        # Classifier Head
        if global_pool == 'map':
            self.attn_pool = AttentionPoolLatent(
                self.embed_dim,
                num_heads=num_heads,
                mlp_ratio=mlp_ratio,
                norm_layer=norm_layer,
                act_layer=act_layer,
            )
        else:
            self.attn_pool = None
        self.fc_norm = norm_layer(embed_dim) if final_norm and use_fc_norm else nn.Identity()
        self.head_drop = nn.Dropout(drop_rate)
        self.head = nn.Linear(self.embed_dim, num_classes) if num_classes > 0 else nn.Identity()

        if weight_init != 'skip':
            self.init_weights(weight_init)
        if fix_init:
            self.fix_init_weight()

    def fix_init_weight(self):
        def rescale(param, _layer_id):
            param.div_(math.sqrt(2.0 * _layer_id))

        for layer_id, layer in enumerate(self.blocks):
            rescale(layer.attn.proj.weight.data, layer_id + 1)
            rescale(layer.mlp.fc2.weight.data, layer_id + 1)

    def init_weights(self, mode: str = '') -> None:
        assert mode in ('jax', 'jax_nlhb', 'moco', '')
        head_bias = -math.log(self.num_classes) if 'nlhb' in mode else 0.
        if self.pos_embed is not None:
            trunc_normal_(self.pos_embed, std=.02)
        if self.cls_token is not None:
            nn.init.normal_(self.cls_token, std=1e-6)
        if self.reg_token is not None:
            nn.init.normal_(self.reg_token, std=1e-6)
        named_apply(get_init_weights_vit(mode, head_bias), self)

    def _init_weights(self, m: nn.Module) -> None:
        # this fn left here for compat with downstream users
        init_weights_vit_timm(m)

    @torch.jit.ignore()
    def load_pretrained(self, checkpoint_path: str, prefix: str = '') -> None:
        _load_weights(self, checkpoint_path, prefix)

    @torch.jit.ignore
    def no_weight_decay(self) -> Set:
        return {'pos_embed', 'cls_token', 'dist_token'}

    @torch.jit.ignore
    def group_matcher(self, coarse: bool = False) -> Dict:
        return dict(
            stem=r'^cls_token|pos_embed|patch_embed',  # stem and embed
            blocks=[(r'^blocks\.(\d+)', None), (r'^norm', (99999,))]
        )

    @torch.jit.ignore
    def set_grad_checkpointing(self, enable: bool = True) -> None:
        self.grad_checkpointing = enable
        if hasattr(self.patch_embed, 'set_grad_checkpointing'):
            self.patch_embed.set_grad_checkpointing(enable)

    @torch.jit.ignore
    def get_classifier(self) -> nn.Module:
        return self.head

    def reset_classifier(self, num_classes: int, global_pool: Optional[str] = None):
        self.num_classes = num_classes
        if global_pool is not None:
            assert global_pool in ('', 'avg', 'avgmax', 'max', 'token', 'map')
            if global_pool == 'map' and self.attn_pool is None:
                assert False, "Cannot currently add attention pooling in reset_classifier()."
            elif global_pool != 'map' and self.attn_pool is not None:
                self.attn_pool = None  # remove attention pooling
            self.global_pool = global_pool
        self.head = nn.Linear(self.embed_dim, num_classes) if num_classes > 0 else nn.Identity()

    def set_input_size(
            self,
            img_size: Optional[Tuple[int, int]] = None,
            patch_size: Optional[Tuple[int, int]] = None,
    ):
        """Method updates the input image resolution, patch size

        Args:
            img_size: New input resolution, if None current resolution is used
            patch_size: New patch size, if None existing patch size is used
        """
        prev_grid_size = self.patch_embed.grid_size
        self.patch_embed.set_input_size(img_size=img_size, patch_size=patch_size)
        if self.pos_embed is not None:
            num_prefix_tokens = 0 if self.no_embed_class else self.num_prefix_tokens
            num_new_tokens = self.patch_embed.num_patches + num_prefix_tokens
            if num_new_tokens != self.pos_embed.shape[1]:
                self.pos_embed = nn.Parameter(resample_abs_pos_embed(
                    self.pos_embed,
                    new_size=self.patch_embed.grid_size,
                    old_size=prev_grid_size,
                    num_prefix_tokens=num_prefix_tokens,
                    verbose=True,
                ))

    def _pos_embed(self, x: torch.Tensor) -> torch.Tensor:
        if self.pos_embed is None:
            return x.view(x.shape[0], -1, x.shape[-1])

        if self.dynamic_img_size:
            B, H, W, C = x.shape
            prev_grid_size = self.patch_embed.grid_size
            pos_embed = resample_abs_pos_embed(
                self.pos_embed,
                new_size=(H, W),
                old_size=prev_grid_size,
                num_prefix_tokens=0 if self.no_embed_class else self.num_prefix_tokens,
            )
            x = x.view(B, -1, C)
        else:
            pos_embed = self.pos_embed

        to_cat = []
        if self.cls_token is not None:
            to_cat.append(self.cls_token.expand(x.shape[0], -1, -1))
        if self.reg_token is not None:
            to_cat.append(self.reg_token.expand(x.shape[0], -1, -1))

        if self.no_embed_class:
            # deit-3, updated JAX (big vision)
            # position embedding does not overlap with class token, add then concat
            x = x + pos_embed
            if to_cat:
                x = torch.cat(to_cat + [x], dim=1)
        else:
            # original timm, JAX, and deit vit impl
            # pos_embed has entry for class token, concat then add
            if to_cat:
                x = torch.cat(to_cat + [x], dim=1)
            x = x + pos_embed

        return self.pos_drop(x)

    def forward_intermediates(
            self,
            x: torch.Tensor,
            indices: Optional[Union[int, List[int]]] = None,
            return_prefix_tokens: bool = False,
            norm: bool = False,
            stop_early: bool = False,
            output_fmt: str = 'NCHW',
            intermediates_only: bool = False,
    ) -> Union[List[torch.Tensor], Tuple[torch.Tensor, List[torch.Tensor]]]:
        """ Forward features that returns intermediates.

        Args:
            x: Input image tensor
            indices: Take last n blocks if int, all if None, select matching indices if sequence
            return_prefix_tokens: Return both prefix and spatial intermediate tokens
            norm: Apply norm layer to all intermediates
            stop_early: Stop iterating over blocks when last desired intermediate hit
            output_fmt: Shape of intermediate feature outputs
            intermediates_only: Only return intermediate features
        Returns:

        """
        assert output_fmt in ('NCHW', 'NLC'), 'Output format must be one of NCHW or NLC.'
        reshape = output_fmt == 'NCHW'
        intermediates = []
        take_indices, max_index = feature_take_indices(len(self.blocks), indices)

        # forward pass
        B, _, height, width = x.shape
        x = self.patch_embed(x)
        x = self._pos_embed(x)
        x = self.patch_drop(x)
        x = self.norm_pre(x)

        if torch.jit.is_scripting() or not stop_early:  # can't slice blocks in torchscript
            blocks = self.blocks
        else:
            blocks = self.blocks[:max_index + 1]
        for i, blk in enumerate(blocks):
            x = blk(x)
            if i in take_indices:
                # normalize intermediates with final norm layer if enabled
                intermediates.append(self.norm(x) if norm else x)

        # process intermediates
        if self.num_prefix_tokens:
            # split prefix (e.g. class, distill) and spatial feature tokens
            prefix_tokens = [y[:, 0:self.num_prefix_tokens] for y in intermediates]
            intermediates = [y[:, self.num_prefix_tokens:] for y in intermediates]
        else:
            prefix_tokens = None

        if reshape:
            # reshape to BCHW output format
            H, W = self.patch_embed.dynamic_feat_size((height, width))
            intermediates = [y.reshape(B, H, W, -1).permute(0, 3, 1, 2).contiguous() for y in intermediates]
        if not torch.jit.is_scripting() and return_prefix_tokens and prefix_tokens is not None:
            # return_prefix not support in torchscript due to poor type handling
            intermediates = list(zip(intermediates, prefix_tokens))

        if intermediates_only:
            return intermediates

        x = self.norm(x)

        return x, intermediates

    def prune_intermediate_layers(
            self,
            indices: Union[int, List[int]] = 1,
            prune_norm: bool = False,
            prune_head: bool = True,
    ):
        """ Prune layers not required for specified intermediates.
        """
        take_indices, max_index = feature_take_indices(len(self.blocks), indices)
        self.blocks = self.blocks[:max_index + 1]  # truncate blocks
        if prune_norm:
            self.norm = nn.Identity()
        if prune_head:
            self.fc_norm = nn.Identity()
            self.reset_classifier(0, '')
        return take_indices

    def get_intermediate_layers(
            self,
            x: torch.Tensor,
            n: Union[int, List[int], Tuple[int]] = 1,
            reshape: bool = False,
            return_prefix_tokens: bool = False,
            norm: bool = False,
    ) -> List[torch.Tensor]:
        """ Intermediate layer accessor inspired by DINO / DINOv2 interface.
        NOTE: This API is for backwards compat, favour using forward_intermediates() directly.
        """
        return self.forward_intermediates(
            x, n,
            return_prefix_tokens=return_prefix_tokens,
            norm=norm,
            output_fmt='NCHW' if reshape else 'NLC',
            intermediates_only=True,
        )

    def forward_features(self, x: torch.Tensor) -> torch.Tensor:
        x = self.patch_embed(x)
        x = self._pos_embed(x)
        x = self.patch_drop(x)
        x = self.norm_pre(x)
        if self.grad_checkpointing and not torch.jit.is_scripting():
            x = checkpoint_seq(self.blocks, x)
        else:
            x = self.blocks(x)
        x = self.norm(x)
        return x

    def pool(self, x: torch.Tensor, pool_type: Optional[str] = None) -> torch.Tensor:
        if self.attn_pool is not None:
            x = self.attn_pool(x)
            return x
        pool_type = self.global_pool if pool_type is None else pool_type
        x = global_pool_nlc(x, pool_type=pool_type, num_prefix_tokens=self.num_prefix_tokens)
        return x

    def forward_head(self, x: torch.Tensor, pre_logits: bool = False) -> torch.Tensor:
        x = self.pool(x)
        x = self.fc_norm(x)
        x = self.head_drop(x)
        return x if pre_logits else self.head(x)

    def forward(self, x: torch.Tensor) -> torch.Tensor:
        x = self.forward_features(x)
        x = self.forward_head(x)
        return x

class VisionTransformer_attn(nn.Module):
    """ Vision Transformer attention blocks for testing 

    A PyTorch impl of : `An Image is Worth 16x16 Words: Transformers for Image Recognition at Scale`
        - https://arxiv.org/abs/2010.11929
    """
    dynamic_img_size: Final[bool]

    def __init__(
            self,
            img_size: Union[int, Tuple[int, int]] = 224,
            patch_size: Union[int, Tuple[int, int]] = 16,
            in_chans: int = 3,
            num_classes: int = 1000,
            global_pool: Literal['', 'avg', 'avgmax', 'max', 'token', 'map'] = 'token',
            embed_dim: int = 768,
            depth: int = 12,
            num_heads: int = 12,
            mlp_ratio: float = 4.,
            qkv_bias: bool = True,
            qk_norm: bool = False,
            proj_bias: bool = True,
            init_values: Optional[float] = None,
            class_token: bool = True,
            pos_embed: str = 'learn',
            no_embed_class: bool = False,
            reg_tokens: int = 0,
            pre_norm: bool = False,
            final_norm: bool = True,
            fc_norm: Optional[bool] = None,
            dynamic_img_size: bool = False,
            dynamic_img_pad: bool = False,
            drop_rate: float = 0.,
            pos_drop_rate: float = 0.,
            patch_drop_rate: float = 0.,
            proj_drop_rate: float = 0.,
            attn_drop_rate: float = 0.,
            drop_path_rate: float = 0.,
            weight_init: Literal['skip', 'jax', 'jax_nlhb', 'moco', ''] = '',
            fix_init: bool = False,
            embed_layer: Callable = PatchEmbed,
            embed_norm_layer: Optional[LayerType] = None,
            norm_layer: Optional[LayerType] = None,
            act_layer: Optional[LayerType] = None,
            block_fn: Type[nn.Module] = Block,
            mlp_layer: Type[nn.Module] = Mlp,
    ) -> None:
        """
        Args:
            img_size: Input image size.
            patch_size: Patch size.
            in_chans: Number of image input channels.
            num_classes: Number of classes for classification head.
            global_pool: Type of global pooling for final sequence (default: 'token').
            embed_dim: Transformer embedding dimension.
            depth: Depth of transformer.
            num_heads: Number of attention heads.
            mlp_ratio: Ratio of mlp hidden dim to embedding dim.
            qkv_bias: Enable bias for qkv projections if True.
            init_values: Layer-scale init values (layer-scale enabled if not None).
            class_token: Use class token.
            no_embed_class: Don't include position embeddings for class (or reg) tokens.
            reg_tokens: Number of register tokens.
            pre_norm: Enable norm after embeddings, before transformer blocks (standard in CLIP ViT).
            final_norm: Enable norm after transformer blocks, before head (standard in most ViT).
            fc_norm: Move final norm after pool (instead of before), if None, enabled when global_pool == 'avg'.
            drop_rate: Head dropout rate.
            pos_drop_rate: Position embedding dropout rate.
            attn_drop_rate: Attention dropout rate.
            drop_path_rate: Stochastic depth rate.
            weight_init: Weight initialization scheme.
            fix_init: Apply weight initialization fix (scaling w/ layer index).
            embed_layer: Patch embedding layer.
            embed_norm_layer: Normalization layer to use / override in patch embed module.
            norm_layer: Normalization layer.
            act_layer: MLP activation layer.
            block_fn: Transformer block layer.
        """
        super().__init__()
        assert global_pool in ('', 'avg', 'avgmax', 'max', 'token', 'map')
        assert class_token or global_pool != 'token'
        assert pos_embed in ('', 'none', 'learn')
        use_fc_norm = global_pool in ('avg', 'avgmax', 'max') if fc_norm is None else fc_norm
        norm_layer = get_norm_layer(norm_layer) or partial(nn.LayerNorm, eps=1e-6)
        embed_norm_layer = get_norm_layer(embed_norm_layer)
        act_layer = get_act_layer(act_layer) or nn.GELU

        self.num_classes = num_classes
        self.global_pool = global_pool
        self.num_features = self.head_hidden_size = self.embed_dim = embed_dim  # for consistency with other models
        self.num_prefix_tokens = 1 if class_token else 0
        self.num_prefix_tokens += reg_tokens
        self.num_reg_tokens = reg_tokens
        self.has_class_token = class_token
        self.no_embed_class = no_embed_class  # don't embed prefix positions (includes reg)
        self.dynamic_img_size = dynamic_img_size
        self.grad_checkpointing = False

        embed_args = {}
        if dynamic_img_size:
            # flatten deferred until after pos embed
            embed_args.update(dict(strict_img_size=False, output_fmt='NHWC'))
        if embed_norm_layer is not None:
            embed_args['norm_layer'] = embed_norm_layer
        self.patch_embed = embed_layer(
            img_size=img_size,
            patch_size=patch_size,
            in_chans=in_chans,
            embed_dim=embed_dim,
            bias=not pre_norm,  # disable bias if pre-norm is used (e.g. CLIP)
            dynamic_img_pad=dynamic_img_pad,
            **embed_args,
        )
        num_patches = self.patch_embed.num_patches
        reduction = self.patch_embed.feat_ratio() if hasattr(self.patch_embed, 'feat_ratio') else patch_size

        self.cls_token = nn.Parameter(torch.zeros(1, 1, embed_dim)) if class_token else None
        self.reg_token = nn.Parameter(torch.zeros(1, reg_tokens, embed_dim)) if reg_tokens else None
        embed_len = num_patches if no_embed_class else num_patches + self.num_prefix_tokens
        if not pos_embed or pos_embed == 'none':
            self.pos_embed = None
        else:
            self.pos_embed = nn.Parameter(torch.randn(1, embed_len, embed_dim) * .02)
        self.pos_drop = nn.Dropout(p=pos_drop_rate)
        if patch_drop_rate > 0:
            self.patch_drop = PatchDropout(
                patch_drop_rate,
                num_prefix_tokens=self.num_prefix_tokens,
            )
        else:
            self.patch_drop = nn.Identity()
        self.norm_pre = norm_layer(embed_dim) if pre_norm else nn.Identity()

        dpr = [x.item() for x in torch.linspace(0, drop_path_rate, depth)]  # stochastic depth decay rule
        self.blocks = nn.Sequential(*[
            block_fn(
                dim=embed_dim,
                num_heads=num_heads,
                mlp_ratio=mlp_ratio,
                qkv_bias=qkv_bias,
                qk_norm=qk_norm,
                proj_bias=proj_bias,
                init_values=init_values,
                proj_drop=proj_drop_rate,
                attn_drop=attn_drop_rate,
                drop_path=dpr[i],
                norm_layer=norm_layer,
                act_layer=act_layer,
                mlp_layer=mlp_layer,
            )
            for i in range(depth)])
        self.feature_info = [
            dict(module=f'blocks.{i}', num_chs=embed_dim, reduction=reduction) for i in range(depth)]
        self.norm = norm_layer(embed_dim) if final_norm and not use_fc_norm else nn.Identity()

        # Classifier Head
        if global_pool == 'map':
            self.attn_pool = AttentionPoolLatent(
                self.embed_dim,
                num_heads=num_heads,
                mlp_ratio=mlp_ratio,
                norm_layer=norm_layer,
                act_layer=act_layer,
            )
        else:
            self.attn_pool = None
        self.fc_norm = norm_layer(embed_dim) if final_norm and use_fc_norm else nn.Identity()
        self.head_drop = nn.Dropout(drop_rate)
        self.head = nn.Linear(self.embed_dim, num_classes) if num_classes > 0 else nn.Identity()

        if weight_init != 'skip':
            self.init_weights(weight_init)
        if fix_init:
            self.fix_init_weight()

    def fix_init_weight(self):
        def rescale(param, _layer_id):
            param.div_(math.sqrt(2.0 * _layer_id))

        for layer_id, layer in enumerate(self.blocks):
            rescale(layer.attn.proj.weight.data, layer_id + 1)
            rescale(layer.mlp.fc2.weight.data, layer_id + 1)

    def init_weights(self, mode: str = '') -> None:
        assert mode in ('jax', 'jax_nlhb', 'moco', '')
        head_bias = -math.log(self.num_classes) if 'nlhb' in mode else 0.
        if self.pos_embed is not None:
            trunc_normal_(self.pos_embed, std=.02)
        if self.cls_token is not None:
            nn.init.normal_(self.cls_token, std=1e-6)
        if self.reg_token is not None:
            nn.init.normal_(self.reg_token, std=1e-6)
        named_apply(get_init_weights_vit(mode, head_bias), self)

    def _init_weights(self, m: nn.Module) -> None:
        # this fn left here for compat with downstream users
        init_weights_vit_timm(m)

    @torch.jit.ignore()
    def load_pretrained(self, checkpoint_path: str, prefix: str = '') -> None:
        _load_weights(self, checkpoint_path, prefix)

    @torch.jit.ignore
    def no_weight_decay(self) -> Set:
        return {'pos_embed', 'cls_token', 'dist_token'}

    @torch.jit.ignore
    def group_matcher(self, coarse: bool = False) -> Dict:
        return dict(
            stem=r'^cls_token|pos_embed|patch_embed',  # stem and embed
            blocks=[(r'^blocks\.(\d+)', None), (r'^norm', (99999,))]
        )

    @torch.jit.ignore
    def set_grad_checkpointing(self, enable: bool = True) -> None:
        self.grad_checkpointing = enable
        if hasattr(self.patch_embed, 'set_grad_checkpointing'):
            self.patch_embed.set_grad_checkpointing(enable)

    @torch.jit.ignore
    def get_classifier(self) -> nn.Module:
        return self.head

    def reset_classifier(self, num_classes: int, global_pool: Optional[str] = None):
        self.num_classes = num_classes
        if global_pool is not None:
            assert global_pool in ('', 'avg', 'avgmax', 'max', 'token', 'map')
            if global_pool == 'map' and self.attn_pool is None:
                assert False, "Cannot currently add attention pooling in reset_classifier()."
            elif global_pool != 'map' and self.attn_pool is not None:
                self.attn_pool = None  # remove attention pooling
            self.global_pool = global_pool
        self.head = nn.Linear(self.embed_dim, num_classes) if num_classes > 0 else nn.Identity()

    def set_input_size(
            self,
            img_size: Optional[Tuple[int, int]] = None,
            patch_size: Optional[Tuple[int, int]] = None,
    ):
        """Method updates the input image resolution, patch size

        Args:
            img_size: New input resolution, if None current resolution is used
            patch_size: New patch size, if None existing patch size is used
        """
        prev_grid_size = self.patch_embed.grid_size
        self.patch_embed.set_input_size(img_size=img_size, patch_size=patch_size)
        if self.pos_embed is not None:
            num_prefix_tokens = 0 if self.no_embed_class else self.num_prefix_tokens
            num_new_tokens = self.patch_embed.num_patches + num_prefix_tokens
            if num_new_tokens != self.pos_embed.shape[1]:
                self.pos_embed = nn.Parameter(resample_abs_pos_embed(
                    self.pos_embed,
                    new_size=self.patch_embed.grid_size,
                    old_size=prev_grid_size,
                    num_prefix_tokens=num_prefix_tokens,
                    verbose=True,
                ))

    def _pos_embed(self, x: torch.Tensor) -> torch.Tensor:
        if self.pos_embed is None:
            return x.view(x.shape[0], -1, x.shape[-1])

        if self.dynamic_img_size:
            B, H, W, C = x.shape
            prev_grid_size = self.patch_embed.grid_size
            pos_embed = resample_abs_pos_embed(
                self.pos_embed,
                new_size=(H, W),
                old_size=prev_grid_size,
                num_prefix_tokens=0 if self.no_embed_class else self.num_prefix_tokens,
            )
            x = x.view(B, -1, C)
        else:
            pos_embed = self.pos_embed

        to_cat = []
        if self.cls_token is not None:
            to_cat.append(self.cls_token.expand(x.shape[0], -1, -1))
        if self.reg_token is not None:
            to_cat.append(self.reg_token.expand(x.shape[0], -1, -1))

        if self.no_embed_class:
            # deit-3, updated JAX (big vision)
            # position embedding does not overlap with class token, add then concat
            x = x + pos_embed
            if to_cat:
                x = torch.cat(to_cat + [x], dim=1)
        else:
            # original timm, JAX, and deit vit impl
            # pos_embed has entry for class token, concat then add
            if to_cat:
                x = torch.cat(to_cat + [x], dim=1)
            x = x + pos_embed

        return self.pos_drop(x)

    def forward_intermediates(
            self,
            x: torch.Tensor,
            indices: Optional[Union[int, List[int]]] = None,
            return_prefix_tokens: bool = False,
            norm: bool = False,
            stop_early: bool = False,
            output_fmt: str = 'NCHW',
            intermediates_only: bool = False,
    ) -> Union[List[torch.Tensor], Tuple[torch.Tensor, List[torch.Tensor]]]:
        """ Forward features that returns intermediates.

        Args:
            x: Input image tensor
            indices: Take last n blocks if int, all if None, select matching indices if sequence
            return_prefix_tokens: Return both prefix and spatial intermediate tokens
            norm: Apply norm layer to all intermediates
            stop_early: Stop iterating over blocks when last desired intermediate hit
            output_fmt: Shape of intermediate feature outputs
            intermediates_only: Only return intermediate features
        Returns:

        """
        assert output_fmt in ('NCHW', 'NLC'), 'Output format must be one of NCHW or NLC.'
        reshape = output_fmt == 'NCHW'
        intermediates = []
        take_indices, max_index = feature_take_indices(len(self.blocks), indices)

        # forward pass
        B, _, height, width = x.shape
        x = self.patch_embed(x)
        x = self._pos_embed(x)
        x = self.patch_drop(x)
        x = self.norm_pre(x)

        if torch.jit.is_scripting() or not stop_early:  # can't slice blocks in torchscript
            blocks = self.blocks
        else:
            blocks = self.blocks[:max_index + 1]
        for i, blk in enumerate(blocks):
            x = blk(x)
            if i in take_indices:
                # normalize intermediates with final norm layer if enabled
                intermediates.append(self.norm(x) if norm else x)

        # process intermediates
        if self.num_prefix_tokens:
            # split prefix (e.g. class, distill) and spatial feature tokens
            prefix_tokens = [y[:, 0:self.num_prefix_tokens] for y in intermediates]
            intermediates = [y[:, self.num_prefix_tokens:] for y in intermediates]
        else:
            prefix_tokens = None

        if reshape:
            # reshape to BCHW output format
            H, W = self.patch_embed.dynamic_feat_size((height, width))
            intermediates = [y.reshape(B, H, W, -1).permute(0, 3, 1, 2).contiguous() for y in intermediates]
        if not torch.jit.is_scripting() and return_prefix_tokens and prefix_tokens is not None:
            # return_prefix not support in torchscript due to poor type handling
            intermediates = list(zip(intermediates, prefix_tokens))

        if intermediates_only:
            return intermediates

        x = self.norm(x)

        return x, intermediates

    def prune_intermediate_layers(
            self,
            indices: Union[int, List[int]] = 1,
            prune_norm: bool = False,
            prune_head: bool = True,
    ):
        """ Prune layers not required for specified intermediates.
        """
        take_indices, max_index = feature_take_indices(len(self.blocks), indices)
        self.blocks = self.blocks[:max_index + 1]  # truncate blocks
        if prune_norm:
            self.norm = nn.Identity()
        if prune_head:
            self.fc_norm = nn.Identity()
            self.reset_classifier(0, '')
        return take_indices

    def get_intermediate_layers(
            self,
            x: torch.Tensor,
            n: Union[int, List[int], Tuple[int]] = 1,
            reshape: bool = False,
            return_prefix_tokens: bool = False,
            norm: bool = False,
    ) -> List[torch.Tensor]:
        """ Intermediate layer accessor inspired by DINO / DINOv2 interface.
        NOTE: This API is for backwards compat, favour using forward_intermediates() directly.
        """
        return self.forward_intermediates(
            x, n,
            return_prefix_tokens=return_prefix_tokens,
            norm=norm,
            output_fmt='NCHW' if reshape else 'NLC',
            intermediates_only=True,
        )

    def forward_features(self, x: torch.Tensor) -> torch.Tensor:
        x = self.patch_embed(x)
        x = self._pos_embed(x)
        x = self.patch_drop(x)
        x = self.norm_pre(x)
        if self.grad_checkpointing and not torch.jit.is_scripting():
            x = checkpoint_seq(self.blocks, x)
        else:
            x = self.blocks(x)
        x = self.norm(x)
        return x

    def pool(self, x: torch.Tensor, pool_type: Optional[str] = None) -> torch.Tensor:
        if self.attn_pool is not None:
            x = self.attn_pool(x)
            return x
        pool_type = self.global_pool if pool_type is None else pool_type
        x = global_pool_nlc(x, pool_type=pool_type, num_prefix_tokens=self.num_prefix_tokens)
        return x

    def forward_head(self, x: torch.Tensor, pre_logits: bool = False) -> torch.Tensor:
        x = self.pool(x)
        x = self.fc_norm(x)
        x = self.head_drop(x)
        return x if pre_logits else self.head(x)

    def forward(self, x: torch.Tensor) -> torch.Tensor:
        x = self.forward_features(x)
        # x = self.forward_head(x)
        return x

def init_weights_vit_timm(module: nn.Module, name: str = '') -> None:
    """ ViT weight initialization, original timm impl (for reproducibility) """
    if isinstance(module, nn.Linear):
        trunc_normal_(module.weight, std=.02)
        if module.bias is not None:
            nn.init.zeros_(module.bias)
    elif hasattr(module, 'init_weights'):
        module.init_weights()


def init_weights_vit_jax(module: nn.Module, name: str = '', head_bias: float = 0.0) -> None:
    """ ViT weight initialization, matching JAX (Flax) impl """
    if isinstance(module, nn.Linear):
        if name.startswith('head'):
            nn.init.zeros_(module.weight)
            nn.init.constant_(module.bias, head_bias)
        else:
            nn.init.xavier_uniform_(module.weight)
            if module.bias is not None:
                nn.init.normal_(module.bias, std=1e-6) if 'mlp' in name else nn.init.zeros_(module.bias)
    elif isinstance(module, nn.Conv2d):
        lecun_normal_(module.weight)
        if module.bias is not None:
            nn.init.zeros_(module.bias)
    elif hasattr(module, 'init_weights'):
        module.init_weights()


def init_weights_vit_moco(module: nn.Module, name: str = '') -> None:
    """ ViT weight initialization, matching moco-v3 impl minus fixed PatchEmbed """
    if isinstance(module, nn.Linear):
        if 'qkv' in name:
            # treat the weights of Q, K, V separately
            val = math.sqrt(6. / float(module.weight.shape[0] // 3 + module.weight.shape[1]))
            nn.init.uniform_(module.weight, -val, val)
        else:
            nn.init.xavier_uniform_(module.weight)
        if module.bias is not None:
            nn.init.zeros_(module.bias)
    elif hasattr(module, 'init_weights'):
        module.init_weights()


def get_init_weights_vit(mode: str = 'jax', head_bias: float = 0.0) -> Callable:
    if 'jax' in mode:
        return partial(init_weights_vit_jax, head_bias=head_bias)
    elif 'moco' in mode:
        return init_weights_vit_moco
    else:
        return init_weights_vit_timm


def resize_pos_embed(
        posemb: torch.Tensor,
        posemb_new: torch.Tensor,
        num_prefix_tokens: int = 1,
        gs_new: Tuple[int, int] = (),
        interpolation: str = 'bicubic',
        antialias: bool = False,
) -> torch.Tensor:
    """ Rescale the grid of position embeddings when loading from state_dict.
    *DEPRECATED* This function is being deprecated in favour of using resample_abs_pos_embed
    """
    ntok_new = posemb_new.shape[1] - num_prefix_tokens
    ntok_old = posemb.shape[1] - num_prefix_tokens
    gs_old = [int(math.sqrt(ntok_old))] * 2
    if not len(gs_new):  # backwards compatibility
        gs_new = [int(math.sqrt(ntok_new))] * 2
    return resample_abs_pos_embed(
        posemb, gs_new, gs_old,
        num_prefix_tokens=num_prefix_tokens,
        interpolation=interpolation,
        antialias=antialias,
        verbose=True,
    )


@torch.no_grad()
def _load_weights(model: VisionTransformer, checkpoint_path: str, prefix: str = '', load_bfloat16: bool = False) -> None:
    """ Load weights from .npz checkpoints for official Google Brain Flax implementation
    """
    import numpy as np
    if load_bfloat16:
        import jax.numpy as jnp
        import ml_dtypes

    def _n2p(_w, t=True, idx=None):
        if idx is not None:
            _w = _w[idx]

        if load_bfloat16:
            _w = _w.view(ml_dtypes.bfloat16).astype(jnp.float32)
            _w = np.array(_w)

        if _w.ndim == 4 and _w.shape[0] == _w.shape[1] == _w.shape[2] == 1:
            _w = _w.flatten()
        if t:
            if _w.ndim == 4:
                _w = _w.transpose([3, 2, 0, 1])
            elif _w.ndim == 3:
                _w = _w.transpose([2, 0, 1])
            elif _w.ndim == 2:
                _w = _w.transpose([1, 0])

        _w = torch.from_numpy(_w)
        return _w

    if load_bfloat16:
        w = jnp.load(checkpoint_path)
    else:
        w = np.load(checkpoint_path)

    interpolation = 'bilinear'
    antialias = False
    big_vision = False
    if not prefix:
        if 'opt/target/embedding/kernel' in w:
            prefix = 'opt/target/'
        elif 'params/embedding/kernel' in w:
            prefix = 'params/'
            big_vision = True
        elif 'params/img/embedding/kernel' in w:
            prefix = 'params/img/'
            big_vision = True

    if hasattr(model.patch_embed, 'backbone'):
        # hybrid
        backbone = model.patch_embed.backbone
        stem_only = not hasattr(backbone, 'stem')
        stem = backbone if stem_only else backbone.stem
        stem.conv.weight.copy_(adapt_input_conv(stem.conv.weight.shape[1], _n2p(w[f'{prefix}conv_root/kernel'])))
        stem.norm.weight.copy_(_n2p(w[f'{prefix}gn_root/scale']))
        stem.norm.bias.copy_(_n2p(w[f'{prefix}gn_root/bias']))
        if not stem_only:
            for i, stage in enumerate(backbone.stages):
                for j, block in enumerate(stage.blocks):
                    bp = f'{prefix}block{i + 1}/unit{j + 1}/'
                    for r in range(3):
                        getattr(block, f'conv{r + 1}').weight.copy_(_n2p(w[f'{bp}conv{r + 1}/kernel']))
                        getattr(block, f'norm{r + 1}').weight.copy_(_n2p(w[f'{bp}gn{r + 1}/scale']))
                        getattr(block, f'norm{r + 1}').bias.copy_(_n2p(w[f'{bp}gn{r + 1}/bias']))
                    if block.downsample is not None:
                        block.downsample.conv.weight.copy_(_n2p(w[f'{bp}conv_proj/kernel']))
                        block.downsample.norm.weight.copy_(_n2p(w[f'{bp}gn_proj/scale']))
                        block.downsample.norm.bias.copy_(_n2p(w[f'{bp}gn_proj/bias']))
        embed_conv_w = _n2p(w[f'{prefix}embedding/kernel'])
    else:
        embed_conv_w = adapt_input_conv(
            model.patch_embed.proj.weight.shape[1], _n2p(w[f'{prefix}embedding/kernel']))
    if embed_conv_w.shape[-2:] != model.patch_embed.proj.weight.shape[-2:]:
        embed_conv_w = resample_patch_embed(
            embed_conv_w,
            model.patch_embed.proj.weight.shape[-2:],
            interpolation=interpolation,
            antialias=antialias,
            verbose=True,
        )

    model.patch_embed.proj.weight.copy_(embed_conv_w)
    model.patch_embed.proj.bias.copy_(_n2p(w[f'{prefix}embedding/bias']))
    if model.cls_token is not None:
        model.cls_token.copy_(_n2p(w[f'{prefix}cls'], t=False))
    if big_vision:
        pos_embed_w = _n2p(w[f'{prefix}pos_embedding'], t=False)
    else:
        pos_embed_w = _n2p(w[f'{prefix}Transformer/posembed_input/pos_embedding'], t=False)
    if pos_embed_w.shape != model.pos_embed.shape:
        num_prefix_tokens = 0 if getattr(model, 'no_embed_class', False) else getattr(model, 'num_prefix_tokens', 1)
        pos_embed_w = resample_abs_pos_embed(  # resize pos embedding when different size from pretrained weights
            pos_embed_w,
            new_size=model.patch_embed.grid_size,
            num_prefix_tokens=num_prefix_tokens,
            interpolation=interpolation,
            antialias=antialias,
            verbose=True,
        )
    model.pos_embed.copy_(pos_embed_w)
    model.norm.weight.copy_(_n2p(w[f'{prefix}Transformer/encoder_norm/scale']))
    model.norm.bias.copy_(_n2p(w[f'{prefix}Transformer/encoder_norm/bias']))
    if (isinstance(model.head, nn.Linear) and
            f'{prefix}head/bias' in w and
            model.head.bias.shape[0] == w[f'{prefix}head/bias'].shape[-1]):
        model.head.weight.copy_(_n2p(w[f'{prefix}head/kernel']))
        model.head.bias.copy_(_n2p(w[f'{prefix}head/bias']))
    # NOTE representation layer has been removed, not used in latest 21k/1k pretrained weights
    # if isinstance(getattr(model.pre_logits, 'fc', None), nn.Linear) and f'{prefix}pre_logits/bias' in w:
    #     model.pre_logits.fc.weight.copy_(_n2p(w[f'{prefix}pre_logits/kernel']))
    #     model.pre_logits.fc.bias.copy_(_n2p(w[f'{prefix}pre_logits/bias']))
    if model.attn_pool is not None:
        block_prefix = f'{prefix}MAPHead_0/'
        mha_prefix = block_prefix + f'MultiHeadDotProductAttention_0/'
        model.attn_pool.latent.copy_(_n2p(w[f'{block_prefix}probe'], t=False))
        model.attn_pool.kv.weight.copy_(torch.cat([
            _n2p(w[f'{mha_prefix}{n}/kernel'], t=False).flatten(1).T for n in ('key', 'value')]))
        model.attn_pool.kv.bias.copy_(torch.cat([
            _n2p(w[f'{mha_prefix}{n}/bias'], t=False).reshape(-1) for n in ('key', 'value')]))
        model.attn_pool.q.weight.copy_(_n2p(w[f'{mha_prefix}query/kernel'], t=False).flatten(1).T)
        model.attn_pool.q.bias.copy_(_n2p(w[f'{mha_prefix}query/bias'], t=False).reshape(-1))
        model.attn_pool.proj.weight.copy_(_n2p(w[f'{mha_prefix}out/kernel']).flatten(1))
        model.attn_pool.proj.bias.copy_(_n2p(w[f'{mha_prefix}out/bias']))
        model.attn_pool.norm.weight.copy_(_n2p(w[f'{block_prefix}LayerNorm_0/scale']))
        model.attn_pool.norm.bias.copy_(_n2p(w[f'{block_prefix}LayerNorm_0/bias']))
        for r in range(2):
            getattr(model.attn_pool.mlp, f'fc{r + 1}').weight.copy_(_n2p(w[f'{block_prefix}MlpBlock_0/Dense_{r}/kernel']))
            getattr(model.attn_pool.mlp, f'fc{r + 1}').bias.copy_(_n2p(w[f'{block_prefix}MlpBlock_0/Dense_{r}/bias']))

    mha_sub, b_sub, ln1_sub = (0, 0, 1) if big_vision else (1, 3, 2)
    for i, block in enumerate(model.blocks.children()):
        if f'{prefix}Transformer/encoderblock/LayerNorm_0/scale' in w:
            block_prefix = f'{prefix}Transformer/encoderblock/'
            idx = i
        else:
            block_prefix = f'{prefix}Transformer/encoderblock_{i}/'
            idx = None
        mha_prefix = block_prefix + f'MultiHeadDotProductAttention_{mha_sub}/'
        block.norm1.weight.copy_(_n2p(w[f'{block_prefix}LayerNorm_0/scale'], idx=idx))
        block.norm1.bias.copy_(_n2p(w[f'{block_prefix}LayerNorm_0/bias'], idx=idx))
        block.attn.qkv.weight.copy_(torch.cat([
            _n2p(w[f'{mha_prefix}{n}/kernel'], t=False, idx=idx).flatten(1).T for n in ('query', 'key', 'value')]))
        block.attn.qkv.bias.copy_(torch.cat([
            _n2p(w[f'{mha_prefix}{n}/bias'], t=False, idx=idx).reshape(-1) for n in ('query', 'key', 'value')]))
        block.attn.proj.weight.copy_(_n2p(w[f'{mha_prefix}out/kernel'], idx=idx).flatten(1))
        block.attn.proj.bias.copy_(_n2p(w[f'{mha_prefix}out/bias'], idx=idx))
        block.norm2.weight.copy_(_n2p(w[f'{block_prefix}LayerNorm_{ln1_sub}/scale'], idx=idx))
        block.norm2.bias.copy_(_n2p(w[f'{block_prefix}LayerNorm_{ln1_sub}/bias'], idx=idx))
        for r in range(2):
            getattr(block.mlp, f'fc{r + 1}').weight.copy_(
                _n2p(w[f'{block_prefix}MlpBlock_{b_sub}/Dense_{r}/kernel'], idx=idx))
            getattr(block.mlp, f'fc{r + 1}').bias.copy_(
                _n2p(w[f'{block_prefix}MlpBlock_{b_sub}/Dense_{r}/bias'], idx=idx))


def _convert_openai_clip(
        state_dict: Dict[str, torch.Tensor],
        model: VisionTransformer,
        prefix: str = 'visual.',
) -> Dict[str, torch.Tensor]:
    out_dict = {}
    swaps = [
        ('conv1', 'patch_embed.proj'),
        ('positional_embedding', 'pos_embed'),
        ('transformer.resblocks.', 'blocks.'),
        ('ln_pre', 'norm_pre'),
        ('ln_post', 'norm'),
        ('ln_', 'norm'),
        ('in_proj_', 'qkv.'),
        ('out_proj', 'proj'),
        ('mlp.c_fc', 'mlp.fc1'),
        ('mlp.c_proj', 'mlp.fc2'),
    ]
    for k, v in state_dict.items():
        if not k.startswith(prefix):
            continue
        k = k.replace(prefix, '')
        for sp in swaps:
            k = k.replace(sp[0], sp[1])

        if k == 'proj':
            k = 'head.weight'
            v = v.transpose(0, 1)
            out_dict['head.bias'] = torch.zeros(v.shape[0])
        elif k == 'class_embedding':
            k = 'cls_token'
            v = v.unsqueeze(0).unsqueeze(1)
        elif k == 'pos_embed':
            v = v.unsqueeze(0)
        out_dict[k] = v
    return out_dict


def _convert_dinov2(
        state_dict: Dict[str, torch.Tensor],
        model: VisionTransformer,
) -> Dict[str, torch.Tensor]:
    import re
    out_dict = {}
    state_dict.pop("mask_token", None)
    if 'register_tokens' in state_dict:
        # convert dinov2 w/ registers to no_embed_class timm model (neither cls or reg tokens overlap pos embed)
        out_dict['reg_token'] = state_dict.pop('register_tokens')
        out_dict['cls_token'] = state_dict.pop('cls_token') + state_dict['pos_embed'][:, 0]
        out_dict['pos_embed'] = state_dict.pop('pos_embed')[:, 1:]
    for k, v in state_dict.items():
        if re.match(r"blocks\.(\d+)\.mlp\.w12\.(?:weight|bias)", k):
            out_dict[k.replace("w12", "fc1")] = v
            continue
        elif re.match(r"blocks\.(\d+)\.mlp\.w3\.(?:weight|bias)", k):
            out_dict[k.replace("w3", "fc2")] = v
            continue
        out_dict[k] = v
    return out_dict


def _convert_aimv2(
        state_dict: Dict[str, torch.Tensor],
        model: VisionTransformer,
) -> Dict[str, torch.Tensor]:
    out_dict = {}
    for k, v in state_dict.items():
        k = k.replace('norm_1', 'norm1')
        k = k.replace('norm_2', 'norm2')
        k = k.replace('preprocessor.patchifier.', 'patch_embed.')
        k = k.replace('preprocessor.pos_embed', 'pos_embed')
        k = k.replace('trunk.', '')
        k = k.replace('post_trunk_norm.', 'norm.')
        k = k.replace('mlp.fc1', 'mlp.fc1_g')
        k = k.replace('mlp.fc3', 'mlp.fc1_x')
        out_dict[k] = v
    return out_dict


def checkpoint_filter_fn(
        state_dict: Dict[str, torch.Tensor],
        model: VisionTransformer,
        adapt_layer_scale: bool = False,
        interpolation: str = 'bicubic',
        antialias: bool = True,
) -> Dict[str, torch.Tensor]:
    """ convert patch embedding weight from manual patchify + linear proj to conv"""
    import re
    out_dict = {}
    state_dict = state_dict.get('model', state_dict)
    state_dict = state_dict.get('state_dict', state_dict)
    prefix = ''

    if 'visual.class_embedding' in state_dict:
        state_dict = _convert_openai_clip(state_dict, model)
    elif 'module.visual.class_embedding' in state_dict:
        state_dict = _convert_openai_clip(state_dict, model, prefix='module.visual.')
    elif "mask_token" in state_dict:
        state_dict = _convert_dinov2(state_dict, model)
    elif "encoder" in state_dict:
        # IJEPA, vit in an 'encoder' submodule
        state_dict = state_dict['encoder']
        prefix = 'module.'
    elif 'visual.trunk.pos_embed' in state_dict or 'visual.trunk.blocks.0.norm1.weight' in state_dict:
        # OpenCLIP model with timm vision encoder
        prefix = 'visual.trunk.'
        if 'visual.head.proj.weight' in state_dict and isinstance(model.head, nn.Linear):
            # remap final nn.Linear if it exists outside of the timm .trunk (ie in visual.head.proj)
            out_dict['head.weight'] = state_dict['visual.head.proj.weight']
            out_dict['head.bias'] = torch.zeros(state_dict['visual.head.proj.weight'].shape[0])
    elif 'preprocessor.patchifier.proj.weight' in state_dict:
        state_dict = _convert_aimv2(state_dict, model)

    if prefix:
        # filter on & remove prefix string from keys
        state_dict = {k[len(prefix):]: v for k, v in state_dict.items() if k.startswith(prefix)}

    for k, v in state_dict.items():
        if 'patch_embed.proj.weight' in k:
            O, I, H, W = model.patch_embed.proj.weight.shape
            if len(v.shape) < 4:
                # For old models that I trained prior to conv based patchification
                O, I, H, W = model.patch_embed.proj.weight.shape
                v = v.reshape(O, -1, H, W)
            if v.shape[-1] != W or v.shape[-2] != H:
                v = resample_patch_embed(
                    v,
                    (H, W),
                    interpolation=interpolation,
                    antialias=antialias,
                    verbose=True,
                )
        elif k == 'pos_embed' and v.shape[1] != model.pos_embed.shape[1]:
            # To resize pos embedding when using model at different size from pretrained weights
            num_prefix_tokens = 0 if getattr(model, 'no_embed_class', False) else getattr(model, 'num_prefix_tokens', 1)
            v = resample_abs_pos_embed(
                v,
                new_size=model.patch_embed.grid_size,
                num_prefix_tokens=num_prefix_tokens,
                interpolation=interpolation,
                antialias=antialias,
                verbose=True,
            )
        elif adapt_layer_scale and 'gamma_' in k:
            # remap layer-scale gamma into sub-module (deit3 models)
            k = re.sub(r'gamma_([0-9])', r'ls\1.gamma', k)
        elif 'pre_logits' in k:
            # NOTE representation layer removed as not used in latest 21k/1k pretrained weights
            continue
        out_dict[k] = v
    return out_dict


def _cfg(url: str = '', **kwargs) -> Dict[str, Any]:
    return {
        'url': url,
        'num_classes': 1000,
        'input_size': (3, 224, 224),
        'pool_size': None,
        'crop_pct': 0.9,
        'interpolation': 'bicubic',
        'fixed_input_size': True,
        'mean': IMAGENET_INCEPTION_MEAN,
        'std': IMAGENET_INCEPTION_STD,
        'first_conv': 'patch_embed.proj',
        'classifier': 'head',
        **kwargs,
    }

default_cfgs = {

    # re-finetuned augreg 21k FT on in1k weights
    'vit_base_patch16_224.augreg2_in21k_ft_in1k': _cfg(
        hf_hub_id='timm/'),
    'vit_base_patch16_384.augreg2_in21k_ft_in1k': _cfg(),
    'vit_base_patch8_224.augreg2_in21k_ft_in1k': _cfg(
        hf_hub_id='timm/'),

    # How to train your ViT (augreg) weights, pretrained on 21k FT on in1k
    'vit_tiny_patch16_224.augreg_in21k_ft_in1k': _cfg(
        url='https://storage.googleapis.com/vit_models/augreg/Ti_16-i21k-300ep-lr_0.001-aug_none-wd_0.03-do_0.0-sd_0.0--imagenet2012-steps_20k-lr_0.03-res_224.npz',
        hf_hub_id='timm/',
        custom_load=True),
    'vit_tiny_patch16_384.augreg_in21k_ft_in1k': _cfg(
        url='https://storage.googleapis.com/vit_models/augreg/Ti_16-i21k-300ep-lr_0.001-aug_none-wd_0.03-do_0.0-sd_0.0--imagenet2012-steps_20k-lr_0.03-res_384.npz',
        hf_hub_id='timm/',
        custom_load=True, input_size=(3, 384, 384), crop_pct=1.0),
    'vit_small_patch32_224.augreg_in21k_ft_in1k': _cfg(
        url='https://storage.googleapis.com/vit_models/augreg/S_32-i21k-300ep-lr_0.001-aug_light1-wd_0.03-do_0.0-sd_0.0--imagenet2012-steps_20k-lr_0.03-res_224.npz',
        hf_hub_id='timm/',
        custom_load=True),
    'vit_small_patch32_384.augreg_in21k_ft_in1k': _cfg(
        url='https://storage.googleapis.com/vit_models/augreg/S_32-i21k-300ep-lr_0.001-aug_light1-wd_0.03-do_0.0-sd_0.0--imagenet2012-steps_20k-lr_0.03-res_384.npz',
        hf_hub_id='timm/',
        custom_load=True, input_size=(3, 384, 384), crop_pct=1.0),
    'vit_small_patch16_224.augreg_in21k_ft_in1k': _cfg(
        url='https://storage.googleapis.com/vit_models/augreg/S_16-i21k-300ep-lr_0.001-aug_light1-wd_0.03-do_0.0-sd_0.0--imagenet2012-steps_20k-lr_0.03-res_224.npz',
        hf_hub_id='timm/',
        custom_load=True),
    'vit_small_patch16_384.augreg_in21k_ft_in1k': _cfg(
        url='https://storage.googleapis.com/vit_models/augreg/S_16-i21k-300ep-lr_0.001-aug_light1-wd_0.03-do_0.0-sd_0.0--imagenet2012-steps_20k-lr_0.03-res_384.npz',
        hf_hub_id='timm/',
        custom_load=True, input_size=(3, 384, 384), crop_pct=1.0),
    'vit_base_patch32_224.augreg_in21k_ft_in1k': _cfg(
        url='https://storage.googleapis.com/vit_models/augreg/B_32-i21k-300ep-lr_0.001-aug_medium1-wd_0.03-do_0.0-sd_0.0--imagenet2012-steps_20k-lr_0.03-res_224.npz',
        hf_hub_id='timm/',
        custom_load=True),
    'vit_base_patch32_384.augreg_in21k_ft_in1k': _cfg(
        url='https://storage.googleapis.com/vit_models/augreg/B_32-i21k-300ep-lr_0.001-aug_light1-wd_0.1-do_0.0-sd_0.0--imagenet2012-steps_20k-lr_0.03-res_384.npz',
        hf_hub_id='timm/',
        custom_load=True, input_size=(3, 384, 384), crop_pct=1.0),
    'vit_base_patch16_224.augreg_in21k_ft_in1k': _cfg(
        url='https://storage.googleapis.com/vit_models/augreg/B_16-i21k-300ep-lr_0.001-aug_medium1-wd_0.1-do_0.0-sd_0.0--imagenet2012-steps_20k-lr_0.01-res_224.npz',
        hf_hub_id='timm/',
        custom_load=True),
    'vit_base_patch16_384.augreg_in21k_ft_in1k': _cfg(
        url='https://storage.googleapis.com/vit_models/augreg/B_16-i21k-300ep-lr_0.001-aug_medium1-wd_0.1-do_0.0-sd_0.0--imagenet2012-steps_20k-lr_0.01-res_384.npz',
        hf_hub_id='timm/',
        custom_load=True, input_size=(3, 384, 384), crop_pct=1.0),
    'vit_base_patch8_224.augreg_in21k_ft_in1k': _cfg(
        url='https://storage.googleapis.com/vit_models/augreg/B_8-i21k-300ep-lr_0.001-aug_medium1-wd_0.1-do_0.0-sd_0.0--imagenet2012-steps_20k-lr_0.01-res_224.npz',
        hf_hub_id='timm/',
        custom_load=True),
    'vit_large_patch16_224.augreg_in21k_ft_in1k': _cfg(
        url='https://storage.googleapis.com/vit_models/augreg/L_16-i21k-300ep-lr_0.001-aug_medium1-wd_0.1-do_0.1-sd_0.1--imagenet2012-steps_20k-lr_0.01-res_224.npz',
        hf_hub_id='timm/',
        custom_load=True),
    'vit_large_patch16_384.augreg_in21k_ft_in1k': _cfg(
        url='https://storage.googleapis.com/vit_models/augreg/L_16-i21k-300ep-lr_0.001-aug_medium1-wd_0.1-do_0.1-sd_0.1--imagenet2012-steps_20k-lr_0.01-res_384.npz',
        hf_hub_id='timm/',
        custom_load=True, input_size=(3, 384, 384), crop_pct=1.0),

    # patch models (weights from official Google JAX impl) pretrained on in21k FT on in1k
    'vit_base_patch16_224.orig_in21k_ft_in1k': _cfg(
        url='https://github.com/rwightman/pytorch-image-models/releases/download/v0.1-vitjx/jx_vit_base_p16_224-80ecf9dd.pth',
        hf_hub_id='timm/'),
    'vit_base_patch16_384.orig_in21k_ft_in1k': _cfg(
        url='https://github.com/rwightman/pytorch-image-models/releases/download/v0.1-vitjx/jx_vit_base_p16_384-83fb41ba.pth',
        hf_hub_id='timm/',
        input_size=(3, 384, 384), crop_pct=1.0),
    'vit_large_patch32_384.orig_in21k_ft_in1k': _cfg(
        url='https://github.com/rwightman/pytorch-image-models/releases/download/v0.1-vitjx/jx_vit_large_p32_384-9b920ba8.pth',
        hf_hub_id='timm/',
        input_size=(3, 384, 384), crop_pct=1.0),

    # How to train your ViT (augreg) weights trained on in1k only
    'vit_small_patch16_224.augreg_in1k': _cfg(
        url='https://storage.googleapis.com/vit_models/augreg/S_16-i1k-300ep-lr_0.001-aug_medium2-wd_0.1-do_0.0-sd_0.0--imagenet2012-steps_20k-lr_0.01-res_224.npz',
        hf_hub_id='timm/',
        custom_load=True),
    'vit_small_patch16_384.augreg_in1k': _cfg(
        url='https://storage.googleapis.com/vit_models/augreg/S_16-i1k-300ep-lr_0.001-aug_medium2-wd_0.1-do_0.0-sd_0.0--imagenet2012-steps_20k-lr_0.01-res_384.npz',
        hf_hub_id='timm/',
        custom_load=True, input_size=(3, 384, 384), crop_pct=1.0),
    'vit_base_patch32_224.augreg_in1k': _cfg(
        url='https://storage.googleapis.com/vit_models/augreg/B_32-i1k-300ep-lr_0.001-aug_medium2-wd_0.1-do_0.1-sd_0.1--imagenet2012-steps_20k-lr_0.01-res_224.npz',
        hf_hub_id='timm/',
        custom_load=True),
    'vit_base_patch32_384.augreg_in1k': _cfg(
        url='https://storage.googleapis.com/vit_models/augreg/B_32-i1k-300ep-lr_0.001-aug_medium2-wd_0.1-do_0.1-sd_0.1--imagenet2012-steps_20k-lr_0.01-res_384.npz',
        hf_hub_id='timm/',
        custom_load=True, input_size=(3, 384, 384), crop_pct=1.0),
    'vit_base_patch16_224.augreg_in1k': _cfg(
        url='https://storage.googleapis.com/vit_models/augreg/B_16-i1k-300ep-lr_0.001-aug_strong2-wd_0.1-do_0.1-sd_0.1--imagenet2012-steps_20k-lr_0.01-res_224.npz',
        hf_hub_id='timm/',
        custom_load=True),
    'vit_base_patch16_384.augreg_in1k': _cfg(
        url='https://storage.googleapis.com/vit_models/augreg/B_16-i1k-300ep-lr_0.001-aug_strong2-wd_0.1-do_0.1-sd_0.1--imagenet2012-steps_20k-lr_0.01-res_384.npz',
        hf_hub_id='timm/',
        custom_load=True, input_size=(3, 384, 384), crop_pct=1.0),

    'vit_large_patch14_224.untrained': _cfg(url=''),
    'vit_huge_patch14_224.untrained': _cfg(url=''),
    'vit_giant_patch14_224.untrained': _cfg(url=''),
    'vit_gigantic_patch14_224.untrained': _cfg(url=''),

    # patch models, imagenet21k (weights from official Google JAX impl), classifier not valid
    'vit_base_patch32_224.orig_in21k': _cfg(
        #url='https://github.com/huggingface/pytorch-image-models/releases/download/v0.1-vitjx/jx_vit_base_patch32_224_in21k-8db57226.pth',
        hf_hub_id='timm/',
        num_classes=0),
    'vit_base_patch16_224.orig_in21k': _cfg(
        #url='https://github.com/huggingface/pytorch-image-models/releases/download/v0.1-vitjx/jx_vit_base_patch16_224_in21k-e5005f0a.pth',
        hf_hub_id='timm/',
        num_classes=0),
    'vit_large_patch32_224.orig_in21k': _cfg(
        #url='https://github.com/rwightman/pytorch-image-models/releases/download/v0.1-vitjx/jx_vit_large_patch32_224_in21k-9046d2e7.pth',
        hf_hub_id='timm/',
        num_classes=0),
    'vit_large_patch16_224.orig_in21k': _cfg(
        #url='https://github.com/huggingface/pytorch-image-models/releases/download/v0.1-vitjx/jx_vit_large_patch16_224_in21k-606da67d.pth',
        hf_hub_id='timm/',
        num_classes=0),
    'vit_huge_patch14_224.orig_in21k': _cfg(
        hf_hub_id='timm/',
        num_classes=0),

    # How to train your ViT (augreg) weights, pretrained on in21k
    'vit_tiny_patch16_224.augreg_in21k': _cfg(
        url='https://storage.googleapis.com/vit_models/augreg/Ti_16-i21k-300ep-lr_0.001-aug_none-wd_0.03-do_0.0-sd_0.0.npz',
        hf_hub_id='timm/',
        custom_load=True, num_classes=21843),
    'vit_small_patch32_224.augreg_in21k': _cfg(
        url='https://storage.googleapis.com/vit_models/augreg/S_32-i21k-300ep-lr_0.001-aug_light1-wd_0.03-do_0.0-sd_0.0.npz',
        hf_hub_id='timm/',
        custom_load=True, num_classes=21843),
    'vit_small_patch16_224.augreg_in21k': _cfg(
        url='https://storage.googleapis.com/vit_models/augreg/S_16-i21k-300ep-lr_0.001-aug_light1-wd_0.03-do_0.0-sd_0.0.npz',
        hf_hub_id='timm/',
        custom_load=True, num_classes=21843),
    'vit_base_patch32_224.augreg_in21k': _cfg(
        url='https://storage.googleapis.com/vit_models/augreg/B_32-i21k-300ep-lr_0.001-aug_medium1-wd_0.03-do_0.0-sd_0.0.npz',
        hf_hub_id='timm/',
        custom_load=True, num_classes=21843),
    'vit_base_patch16_224.augreg_in21k': _cfg(
        url='https://storage.googleapis.com/vit_models/augreg/B_16-i21k-300ep-lr_0.001-aug_medium1-wd_0.1-do_0.0-sd_0.0.npz',
        hf_hub_id='timm/',
        custom_load=True, num_classes=21843),
    'vit_base_patch8_224.augreg_in21k': _cfg(
        url='https://storage.googleapis.com/vit_models/augreg/B_8-i21k-300ep-lr_0.001-aug_medium1-wd_0.1-do_0.0-sd_0.0.npz',
        hf_hub_id='timm/',
        custom_load=True, num_classes=21843),
    'vit_large_patch16_224.augreg_in21k': _cfg(
        url='https://storage.googleapis.com/vit_models/augreg/L_16-i21k-300ep-lr_0.001-aug_medium1-wd_0.1-do_0.1-sd_0.1.npz',
        hf_hub_id='timm/',
        custom_load=True, num_classes=21843),

    # SAM trained models (https://arxiv.org/abs/2106.01548)
    'vit_base_patch32_224.sam_in1k': _cfg(
        url='https://storage.googleapis.com/vit_models/sam/ViT-B_32.npz', custom_load=True,
        hf_hub_id='timm/'),
    'vit_base_patch16_224.sam_in1k': _cfg(
        url='https://storage.googleapis.com/vit_models/sam/ViT-B_16.npz', custom_load=True,
        hf_hub_id='timm/'),

    # DINO pretrained - https://arxiv.org/abs/2104.14294 (no classifier head, for fine-tune only)
    'vit_small_patch16_224.dino': _cfg(
        url='https://dl.fbaipublicfiles.com/dino/dino_deitsmall16_pretrain/dino_deitsmall16_pretrain.pth',
        hf_hub_id='timm/',
        mean=IMAGENET_DEFAULT_MEAN, std=IMAGENET_DEFAULT_STD, num_classes=0),
    'vit_small_patch8_224.dino': _cfg(
        url='https://dl.fbaipublicfiles.com/dino/dino_deitsmall8_pretrain/dino_deitsmall8_pretrain.pth',
        hf_hub_id='timm/',
        mean=IMAGENET_DEFAULT_MEAN, std=IMAGENET_DEFAULT_STD, num_classes=0),
    'vit_base_patch16_224.dino': _cfg(
        url='https://dl.fbaipublicfiles.com/dino/dino_vitbase16_pretrain/dino_vitbase16_pretrain.pth',
        hf_hub_id='timm/',
        mean=IMAGENET_DEFAULT_MEAN, std=IMAGENET_DEFAULT_STD, num_classes=0),
    'vit_base_patch8_224.dino': _cfg(
        url='https://dl.fbaipublicfiles.com/dino/dino_vitbase8_pretrain/dino_vitbase8_pretrain.pth',
        hf_hub_id='timm/',
        mean=IMAGENET_DEFAULT_MEAN, std=IMAGENET_DEFAULT_STD, num_classes=0),

    # DINOv2 pretrained - https://arxiv.org/abs/2304.07193 (no classifier head, for fine-tune/features only)
    'vit_small_patch14_dinov2.lvd142m': _cfg(
        url='https://dl.fbaipublicfiles.com/dinov2/dinov2_vits14/dinov2_vits14_pretrain.pth',
        hf_hub_id='timm/',
        license='apache-2.0',
        mean=IMAGENET_DEFAULT_MEAN, std=IMAGENET_DEFAULT_STD, num_classes=0,
        input_size=(3, 518, 518), crop_pct=1.0),
    'vit_base_patch14_dinov2.lvd142m': _cfg(
        url='https://dl.fbaipublicfiles.com/dinov2/dinov2_vitb14/dinov2_vitb14_pretrain.pth',
        hf_hub_id='timm/',
        license='apache-2.0',
        mean=IMAGENET_DEFAULT_MEAN, std=IMAGENET_DEFAULT_STD, num_classes=0,
        input_size=(3, 518, 518), crop_pct=1.0),
    'vit_large_patch14_dinov2.lvd142m': _cfg(
        url='https://dl.fbaipublicfiles.com/dinov2/dinov2_vitl14/dinov2_vitl14_pretrain.pth',
        hf_hub_id='timm/',
        license='apache-2.0',
        mean=IMAGENET_DEFAULT_MEAN, std=IMAGENET_DEFAULT_STD, num_classes=0,
        input_size=(3, 518, 518), crop_pct=1.0),
    'vit_giant_patch14_dinov2.lvd142m': _cfg(
        url='https://dl.fbaipublicfiles.com/dinov2/dinov2_vitg14/dinov2_vitg14_pretrain.pth',
        hf_hub_id='timm/',
        license='apache-2.0',
        mean=IMAGENET_DEFAULT_MEAN, std=IMAGENET_DEFAULT_STD, num_classes=0,
        input_size=(3, 518, 518), crop_pct=1.0),

    # DINOv2 pretrained w/ registers - https://arxiv.org/abs/2309.16588 (no classifier head, for fine-tune/features only)
    'vit_small_patch14_reg4_dinov2.lvd142m': _cfg(
        url='https://dl.fbaipublicfiles.com/dinov2/dinov2_vits14/dinov2_vits14_reg4_pretrain.pth',
        hf_hub_id='timm/',
        license='apache-2.0',
        mean=IMAGENET_DEFAULT_MEAN, std=IMAGENET_DEFAULT_STD, num_classes=0,
        input_size=(3, 518, 518), crop_pct=1.0),
    'vit_base_patch14_reg4_dinov2.lvd142m': _cfg(
        url='https://dl.fbaipublicfiles.com/dinov2/dinov2_vitb14/dinov2_vitb14_reg4_pretrain.pth',
        hf_hub_id='timm/',
        license='apache-2.0',
        mean=IMAGENET_DEFAULT_MEAN, std=IMAGENET_DEFAULT_STD, num_classes=0,
        input_size=(3, 518, 518), crop_pct=1.0),
    'vit_large_patch14_reg4_dinov2.lvd142m': _cfg(
        url='https://dl.fbaipublicfiles.com/dinov2/dinov2_vitl14/dinov2_vitl14_reg4_pretrain.pth',
        hf_hub_id='timm/',
        license='apache-2.0',
        mean=IMAGENET_DEFAULT_MEAN, std=IMAGENET_DEFAULT_STD, num_classes=0,
        input_size=(3, 518, 518), crop_pct=1.0),
    'vit_giant_patch14_reg4_dinov2.lvd142m': _cfg(
        url='https://dl.fbaipublicfiles.com/dinov2/dinov2_vitg14/dinov2_vitg14_reg4_pretrain.pth',
        hf_hub_id='timm/',
        license='apache-2.0',
        mean=IMAGENET_DEFAULT_MEAN, std=IMAGENET_DEFAULT_STD, num_classes=0,
        input_size=(3, 518, 518), crop_pct=1.0),

    # ViT ImageNet-21K-P pretraining by MILL
    'vit_base_patch16_224_miil.in21k': _cfg(
        url='https://github.com/rwightman/pytorch-image-models/releases/download/v0.1-tresnet/vit_base_patch16_224_in21k_miil-887286df.pth',
        hf_hub_id='timm/',
        mean=(0., 0., 0.), std=(1., 1., 1.), crop_pct=0.875, interpolation='bilinear', num_classes=11221),
    'vit_base_patch16_224_miil.in21k_ft_in1k': _cfg(
        url='https://github.com/rwightman/pytorch-image-models/releases/download/v0.1-tresnet/vit_base_patch16_224_1k_miil_84_4-2deb18e3.pth',
        hf_hub_id='timm/',
        mean=(0., 0., 0.), std=(1., 1., 1.), crop_pct=0.875, interpolation='bilinear'),

    # Custom timm variants
    'vit_base_patch16_rpn_224.sw_in1k': _cfg(
        url='https://github.com/rwightman/pytorch-image-models/releases/download/v0.1-tpu-weights/vit_base_patch16_rpn_224-sw-3b07e89d.pth',
        hf_hub_id='timm/'),
    'vit_medium_patch16_gap_240.sw_in12k': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 240, 240), crop_pct=0.95, num_classes=11821),
    'vit_medium_patch16_gap_256.sw_in12k_ft_in1k': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 256, 256), crop_pct=0.95),
    'vit_medium_patch16_gap_384.sw_in12k_ft_in1k': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 384, 384), crop_pct=0.95, crop_mode='squash'),
    'vit_base_patch16_gap_224': _cfg(),

    # CLIP pretrained image tower and related fine-tuned weights
    'vit_base_patch32_clip_224.laion2b_ft_in12k_in1k': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD),
    'vit_base_patch32_clip_384.laion2b_ft_in12k_in1k': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, crop_pct=1.0, input_size=(3, 384, 384)),
    'vit_base_patch32_clip_448.laion2b_ft_in12k_in1k': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, crop_pct=1.0, input_size=(3, 448, 448)),
    'vit_base_patch16_clip_224.laion2b_ft_in12k_in1k': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, crop_pct=0.95),
    'vit_base_patch16_clip_384.laion2b_ft_in12k_in1k': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD,
        crop_pct=1.0, input_size=(3, 384, 384), crop_mode='squash'),
    'vit_large_patch14_clip_224.laion2b_ft_in12k_in1k': _cfg(
        hf_hub_id='timm/',
        mean=IMAGENET_INCEPTION_MEAN, std=IMAGENET_INCEPTION_STD, crop_pct=1.0),
    'vit_large_patch14_clip_336.laion2b_ft_in12k_in1k': _cfg(
        hf_hub_id='timm/',
        mean=IMAGENET_INCEPTION_MEAN, std=IMAGENET_INCEPTION_STD,
        crop_pct=1.0, input_size=(3, 336, 336), crop_mode='squash'),
    'vit_huge_patch14_clip_224.laion2b_ft_in12k_in1k': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, crop_pct=1.0),
    'vit_huge_patch14_clip_336.laion2b_ft_in12k_in1k': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD,
        crop_pct=1.0, input_size=(3, 336, 336), crop_mode='squash'),

    'vit_base_patch32_clip_224.openai_ft_in12k_in1k': _cfg(
        # hf_hub_id='timm/vit_base_patch32_clip_224.openai_ft_in12k_in1k',  # FIXME weight exists, need to push
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD),
    'vit_base_patch32_clip_384.openai_ft_in12k_in1k': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD,
        crop_pct=0.95, input_size=(3, 384, 384), crop_mode='squash'),
    'vit_base_patch16_clip_224.openai_ft_in12k_in1k': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, crop_pct=0.95),
    'vit_base_patch16_clip_384.openai_ft_in12k_in1k': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD,
        crop_pct=0.95, input_size=(3, 384, 384), crop_mode='squash'),
    'vit_large_patch14_clip_224.openai_ft_in12k_in1k': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, crop_pct=1.0),
    'vit_large_patch14_clip_336.openai_ft_in12k_in1k': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD,
        crop_pct=1.0, input_size=(3, 336, 336), crop_mode='squash'),

    'vit_base_patch32_clip_224.laion2b_ft_in1k': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD),
    'vit_base_patch16_clip_224.laion2b_ft_in1k': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, crop_pct=1.0),
    'vit_base_patch16_clip_384.laion2b_ft_in1k': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD,
        crop_pct=1.0, input_size=(3, 384, 384), crop_mode='squash'),
    'vit_large_patch14_clip_224.laion2b_ft_in1k': _cfg(
        hf_hub_id='timm/',
        mean=IMAGENET_INCEPTION_MEAN, std=IMAGENET_INCEPTION_STD, crop_pct=1.0),
    'vit_large_patch14_clip_336.laion2b_ft_in1k': _cfg(
        hf_hub_id='timm/',
        mean=IMAGENET_INCEPTION_MEAN, std=IMAGENET_INCEPTION_STD,
        crop_pct=1.0, input_size=(3, 336, 336), crop_mode='squash'),
    'vit_huge_patch14_clip_224.laion2b_ft_in1k': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, crop_pct=1.0),
    'vit_huge_patch14_clip_336.laion2b_ft_in1k': _cfg(
        hf_hub_id='',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD,
        crop_pct=1.0, input_size=(3, 336, 336), crop_mode='squash'),

    'vit_base_patch32_clip_224.openai_ft_in1k': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD),
    'vit_base_patch16_clip_224.openai_ft_in1k': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD),
    'vit_base_patch16_clip_384.openai_ft_in1k': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD,
        crop_pct=1.0, input_size=(3, 384, 384), crop_mode='squash'),
    'vit_large_patch14_clip_224.openai_ft_in1k': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, crop_pct=1.0),

    'vit_base_patch16_clip_224.laion2b_ft_in12k': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, num_classes=11821),
    'vit_large_patch14_clip_224.laion2b_ft_in12k': _cfg(
        hf_hub_id='timm/',
        mean=IMAGENET_INCEPTION_MEAN, std=IMAGENET_INCEPTION_STD, crop_pct=1.0, num_classes=11821),
    'vit_huge_patch14_clip_224.laion2b_ft_in12k': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, crop_pct=1.0, num_classes=11821),

    'vit_base_patch16_clip_224.openai_ft_in12k': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, num_classes=11821),
    'vit_large_patch14_clip_224.openai_ft_in12k': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, crop_pct=1.0, num_classes=11821),

    'vit_base_patch32_clip_224.laion2b': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, num_classes=512),
    'vit_base_patch16_clip_224.laion2b': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, crop_pct=1.0, num_classes=512),
    'vit_large_patch14_clip_224.laion2b': _cfg(
        hf_hub_id='timm/',
        mean=IMAGENET_INCEPTION_MEAN, std=IMAGENET_INCEPTION_STD, crop_pct=1.0, num_classes=768),
    'vit_huge_patch14_clip_224.laion2b': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, crop_pct=1.0, num_classes=1024),
    'vit_giant_patch14_clip_224.laion2b': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, crop_pct=1.0, num_classes=1024),
    'vit_gigantic_patch14_clip_224.laion2b': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, crop_pct=1.0, num_classes=1280),

    'vit_base_patch32_clip_224.laion400m_e32': _cfg(
        hf_hub_id='timm/',
        notes=('natively QuickGELU, use quickgelu model variant for original results',),
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, num_classes=512),
    'vit_base_patch16_clip_224.laion400m_e32': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, crop_pct=1.0, num_classes=512),
    'vit_base_patch16_plus_clip_240.laion400m_e32': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD,
        input_size=(3, 240, 240), crop_pct=1.0, num_classes=640),
    'vit_large_patch14_clip_224.laion400m_e32': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, crop_pct=1.0, num_classes=768),

    'vit_base_patch32_clip_224.datacompxl': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, crop_pct=1.0, num_classes=512),
    'vit_base_patch32_clip_256.datacompxl': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD,
        crop_pct=1.0, input_size=(3, 256, 256), num_classes=512),
    'vit_base_patch16_clip_224.datacompxl': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, crop_pct=1.0, num_classes=512),
    'vit_large_patch14_clip_224.datacompxl': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, crop_pct=1.0, num_classes=768),

    'vit_base_patch16_clip_224.dfn2b': _cfg(
        hf_hub_id='timm/',
        license='apple-ascl',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, crop_pct=1.0, num_classes=512),
    'vit_large_patch14_clip_224.dfn2b_s39b': _cfg(
        hf_hub_id='timm/',
        license='apple-ascl',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, crop_pct=1.0, num_classes=768),
    'vit_large_patch14_clip_224.dfn2b': _cfg(
        hf_hub_id='timm/',
        license='apple-ascl',
        notes=('natively QuickGELU, use quickgelu model variant for original results',),
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, crop_pct=1.0, num_classes=768),
    'vit_huge_patch14_clip_224.dfn5b': _cfg(
        hf_hub_id='timm/',
        license='apple-ascl',
        notes=('natively QuickGELU, use quickgelu model variant for original results',),
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, crop_pct=1.0, num_classes=1024),
    'vit_huge_patch14_clip_378.dfn5b': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD,
        license='apple-ascl',
        notes=('natively QuickGELU, use quickgelu model variant for original results',),
        crop_pct=1.0, input_size=(3, 378, 378), num_classes=1024),

    'vit_base_patch32_clip_224.metaclip_2pt5b': _cfg(
        hf_hub_id='timm/',
        license='cc-by-nc-4.0',
        notes=('natively QuickGELU, use quickgelu model variant for original results',),
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, crop_pct=1.0, num_classes=512),
    'vit_base_patch16_clip_224.metaclip_2pt5b': _cfg(
        hf_hub_id='timm/',
        license='cc-by-nc-4.0',
        notes=('natively QuickGELU, use quickgelu model variant for original results',),
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, crop_pct=1.0, num_classes=512),
    'vit_large_patch14_clip_224.metaclip_2pt5b': _cfg(
        hf_hub_id='timm/',
        license='cc-by-nc-4.0',
        notes=('natively QuickGELU, use quickgelu model variant for original results',),
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, crop_pct=1.0, num_classes=768),
    'vit_huge_patch14_clip_224.metaclip_2pt5b': _cfg(
        hf_hub_id='timm/',
        license='cc-by-nc-4.0',
        notes=('natively QuickGELU, use quickgelu model variant for original results',),
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, crop_pct=1.0, num_classes=1024),
    'vit_huge_patch14_clip_224.metaclip_altogether': _cfg(
        hf_hub_id='timm/',
        license='cc-by-nc-4.0',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, crop_pct=1.0, num_classes=1024),
    'vit_gigantic_patch14_clip_224.metaclip_2pt5b': _cfg(
        hf_hub_id='timm/',
        license='cc-by-nc-4.0',
        notes=('natively QuickGELU, use quickgelu model variant for original results',),
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, crop_pct=1.0, num_classes=1280),
    'vit_base_patch32_clip_224.metaclip_400m': _cfg(
        hf_hub_id='timm/',
        license='cc-by-nc-4.0',
        notes=('natively QuickGELU, use quickgelu model variant for original results',),
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, crop_pct=1.0, num_classes=512),
    'vit_base_patch16_clip_224.metaclip_400m': _cfg(
        hf_hub_id='timm/',
        license='cc-by-nc-4.0',
        notes=('natively QuickGELU, use quickgelu model variant for original results',),
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, crop_pct=1.0, num_classes=512),
    'vit_large_patch14_clip_224.metaclip_400m': _cfg(
        hf_hub_id='timm/',
        license='cc-by-nc-4.0',
        notes=('natively QuickGELU, use quickgelu model variant for original results',),
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, crop_pct=1.0, num_classes=768),

    'vit_base_patch32_clip_224.openai': _cfg(
        hf_hub_id='timm/',
        notes=('natively QuickGELU, use quickgelu model variant for original results',),
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, num_classes=512),
    'vit_base_patch16_clip_224.openai': _cfg(
        hf_hub_id='timm/',
        notes=('natively QuickGELU, use quickgelu model variant for original results',),
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, num_classes=512),
    'vit_large_patch14_clip_224.openai': _cfg(
        hf_hub_id='timm/',
        notes=('natively QuickGELU, use quickgelu model variant for original results',),
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, crop_pct=1.0, num_classes=768),
    'vit_large_patch14_clip_336.openai': _cfg(
        hf_hub_id='timm/',
        notes=('natively QuickGELU, use quickgelu model variant for original results',),
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD,
        crop_pct=1.0, input_size=(3, 336, 336), num_classes=768),

    # experimental (may be removed)
    'vit_base_patch32_plus_256.untrained': _cfg(url='', input_size=(3, 256, 256), crop_pct=0.95),
    'vit_base_patch16_plus_240.untrained': _cfg(url='', input_size=(3, 240, 240), crop_pct=0.95),
    'vit_small_patch16_36x1_224.untrained': _cfg(url=''),
    'vit_small_patch16_18x2_224.untrained': _cfg(url=''),
    'vit_base_patch16_18x2_224.untrained': _cfg(url=''),

    # EVA fine-tuned weights from MAE style MIM - EVA-CLIP target pretrain
    # https://github.com/baaivision/EVA/blob/7ecf2c0a370d97967e86d047d7af9188f78d2df3/eva/README.md#eva-l-learning-better-mim-representations-from-eva-clip
    'eva_large_patch14_196.in22k_ft_in22k_in1k': _cfg(
        # hf_hub_id='BAAI/EVA', hf_hub_filename='eva_l_psz14_196px_21k_to_1k_ft_88p6.pt',
        hf_hub_id='timm/', license='mit',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD,
        input_size=(3, 196, 196), crop_pct=1.0),
    'eva_large_patch14_336.in22k_ft_in22k_in1k': _cfg(
        # hf_hub_id='BAAI/EVA', hf_hub_filename='eva_l_psz14_336px_21k_to_1k_ft_89p2.pt',
        hf_hub_id='timm/', license='mit',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD,
        input_size=(3, 336, 336), crop_pct=1.0, crop_mode='squash'),
    'eva_large_patch14_196.in22k_ft_in1k': _cfg(
        # hf_hub_id='BAAI/EVA', hf_hub_filename='eva_l_psz14_196px_1k_ft_88p0.pt',
        hf_hub_id='timm/', license='mit',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD,
        input_size=(3, 196, 196), crop_pct=1.0),
    'eva_large_patch14_336.in22k_ft_in1k': _cfg(
        # hf_hub_id='BAAI/EVA', hf_hub_filename='eva_l_psz14_336px_1k_ft_88p65.pt',
        hf_hub_id='timm/', license='mit',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD,
        input_size=(3, 336, 336), crop_pct=1.0, crop_mode='squash'),

    'flexivit_small.1200ep_in1k': _cfg(
        url='https://storage.googleapis.com/big_vision/flexivit/flexivit_s_i1k.npz', custom_load=True,
        hf_hub_id='timm/',
        input_size=(3, 240, 240), crop_pct=0.95),
    'flexivit_small.600ep_in1k': _cfg(
        url='https://storage.googleapis.com/big_vision/flexivit/flexivit_s_i1k_600ep.npz', custom_load=True,
        hf_hub_id='timm/',
        input_size=(3, 240, 240), crop_pct=0.95),
    'flexivit_small.300ep_in1k': _cfg(
        url='https://storage.googleapis.com/big_vision/flexivit/flexivit_s_i1k_300ep.npz', custom_load=True,
        hf_hub_id='timm/',
        input_size=(3, 240, 240), crop_pct=0.95),

    'flexivit_base.1200ep_in1k': _cfg(
        url='https://storage.googleapis.com/big_vision/flexivit/flexivit_b_i1k.npz', custom_load=True,
        hf_hub_id='timm/',
        input_size=(3, 240, 240), crop_pct=0.95),
    'flexivit_base.600ep_in1k': _cfg(
        url='https://storage.googleapis.com/big_vision/flexivit/flexivit_b_i1k_600ep.npz', custom_load=True,
        hf_hub_id='timm/',
        input_size=(3, 240, 240), crop_pct=0.95),
    'flexivit_base.300ep_in1k': _cfg(
        url='https://storage.googleapis.com/big_vision/flexivit/flexivit_b_i1k_300ep.npz', custom_load=True,
        hf_hub_id='timm/',
        input_size=(3, 240, 240), crop_pct=0.95),
    'flexivit_base.1000ep_in21k': _cfg(
        url='https://storage.googleapis.com/big_vision/flexivit/flexivit_b_i21k_1000ep.npz', custom_load=True,
        hf_hub_id='timm/',
        input_size=(3, 240, 240), crop_pct=0.95, num_classes=21843),
    'flexivit_base.300ep_in21k': _cfg(
        url='https://storage.googleapis.com/big_vision/flexivit/flexivit_b_i21k_300ep.npz', custom_load=True,
        hf_hub_id='timm/',
        input_size=(3, 240, 240), crop_pct=0.95, num_classes=21843),

    'flexivit_large.1200ep_in1k': _cfg(
        url='https://storage.googleapis.com/big_vision/flexivit/flexivit_l_i1k.npz', custom_load=True,
        hf_hub_id='timm/',
        input_size=(3, 240, 240), crop_pct=0.95),
    'flexivit_large.600ep_in1k': _cfg(
        url='https://storage.googleapis.com/big_vision/flexivit/flexivit_l_i1k_600ep.npz', custom_load=True,
        hf_hub_id='timm/',
        input_size=(3, 240, 240), crop_pct=0.95),
    'flexivit_large.300ep_in1k': _cfg(
        url='https://storage.googleapis.com/big_vision/flexivit/flexivit_l_i1k_300ep.npz', custom_load=True,
        hf_hub_id='timm/',
        input_size=(3, 240, 240), crop_pct=0.95),

    'flexivit_base.patch16_in21k': _cfg(
        url='https://storage.googleapis.com/big_vision/flexivit/vit_b16_i21k_300ep.npz', custom_load=True,
        hf_hub_id='timm/',
        input_size=(3, 240, 240), crop_pct=0.95, num_classes=21843),
    'flexivit_base.patch30_in21k': _cfg(
        url='https://storage.googleapis.com/big_vision/flexivit/vit_b30_i21k_300ep.npz', custom_load=True,
        hf_hub_id='timm/',
        input_size=(3, 240, 240), crop_pct=0.95, num_classes=21843),

    'vit_base_patch16_xp_224.untrained': _cfg(url=''),
    'vit_large_patch14_xp_224.untrained': _cfg(url=''),
    'vit_huge_patch14_xp_224.untrained': _cfg(url=''),

    'vit_base_patch16_224.mae': _cfg(
        url='https://dl.fbaipublicfiles.com/mae/pretrain/mae_pretrain_vit_base.pth',
        hf_hub_id='timm/',
        license='cc-by-nc-4.0',
        mean=IMAGENET_DEFAULT_MEAN, std=IMAGENET_DEFAULT_STD, num_classes=0),
    'vit_large_patch16_224.mae': _cfg(
        url='https://dl.fbaipublicfiles.com/mae/pretrain/mae_pretrain_vit_large.pth',
        hf_hub_id='timm/',
        license='cc-by-nc-4.0',
        mean=IMAGENET_DEFAULT_MEAN, std=IMAGENET_DEFAULT_STD, num_classes=0),
    'vit_huge_patch14_224.mae': _cfg(
        url='https://dl.fbaipublicfiles.com/mae/pretrain/mae_pretrain_vit_huge.pth',
        hf_hub_id='timm/',
        license='cc-by-nc-4.0',
        mean=IMAGENET_DEFAULT_MEAN, std=IMAGENET_DEFAULT_STD, num_classes=0),

    'vit_huge_patch14_gap_224.in1k_ijepa': _cfg(
        url='https://dl.fbaipublicfiles.com/ijepa/IN1K-vit.h.14-300e.pth.tar',
        # hf_hub_id='timm/',
        license='cc-by-nc-4.0',
        mean=IMAGENET_DEFAULT_MEAN, std=IMAGENET_DEFAULT_STD, num_classes=0),
    'vit_huge_patch14_gap_224.in22k_ijepa': _cfg(
        url='https://dl.fbaipublicfiles.com/ijepa/IN22K-vit.h.14-900e.pth.tar',
        # hf_hub_id='timm/',
        license='cc-by-nc-4.0',
        mean=IMAGENET_DEFAULT_MEAN, std=IMAGENET_DEFAULT_STD, num_classes=0),
    'vit_huge_patch16_gap_448.in1k_ijepa': _cfg(
        url='https://dl.fbaipublicfiles.com/ijepa/IN1K-vit.h.16-448px-300e.pth.tar',
        # hf_hub_id='timm/',
        license='cc-by-nc-4.0',
        input_size=(3, 448, 448), crop_pct=1.0,
        mean=IMAGENET_DEFAULT_MEAN, std=IMAGENET_DEFAULT_STD, num_classes=0),
    'vit_giant_patch16_gap_224.in22k_ijepa': _cfg(
        url='https://dl.fbaipublicfiles.com/ijepa/IN22K-vit.g.16-600e.pth.tar',
        # hf_hub_id='timm/',
        license='cc-by-nc-4.0',
        mean=IMAGENET_DEFAULT_MEAN, std=IMAGENET_DEFAULT_STD, num_classes=0),

    'vit_base_patch32_siglip_256.v2_webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 256, 256),
        num_classes=0),
    'vit_base_patch16_siglip_224.v2_webli': _cfg(
        hf_hub_id='timm/',
        num_classes=0),
    'vit_base_patch16_siglip_224.webli': _cfg(
        hf_hub_id='timm/',
        num_classes=0),
    'vit_base_patch16_siglip_256.v2_webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 256, 256),
        num_classes=0),
    'vit_base_patch16_siglip_256.webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 256, 256),
        num_classes=0),
    'vit_base_patch16_siglip_256.webli_i18n': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 256, 256),
        num_classes=0),
    'vit_base_patch16_siglip_384.v2_webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 384, 384),
        num_classes=0),
    'vit_base_patch16_siglip_384.webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 384, 384),
        num_classes=0),
    'vit_base_patch16_siglip_512.v2_webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 512, 512),
        num_classes=0),
    'vit_base_patch16_siglip_512.webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 512, 512),
        num_classes=0),
    'vit_large_patch16_siglip_256.v2_webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 256, 256),
        num_classes=0),
    'vit_large_patch16_siglip_256.webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 256, 256),
        num_classes=0),
    'vit_large_patch16_siglip_384.v2_webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 384, 384),
        num_classes=0),
    'vit_large_patch16_siglip_384.webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 384, 384),
        num_classes=0),
    'vit_large_patch16_siglip_512.v2_webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 512, 512),
        num_classes=0),
    'vit_so400m_patch14_siglip_224.v2_webli': _cfg(
        hf_hub_id='timm/',
        num_classes=0),
    'vit_so400m_patch14_siglip_224.webli': _cfg(
        hf_hub_id='timm/',
        num_classes=0),
    'vit_so400m_patch14_siglip_378.v2_webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 378, 378),
        num_classes=0),
    'vit_so400m_patch14_siglip_378.webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 378, 378),
        num_classes=0),
    'vit_so400m_patch14_siglip_384.webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 384, 384),
        num_classes=0),
    'vit_so400m_patch16_siglip_256.v2_webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 256, 256),
        num_classes=0),
    'vit_so400m_patch16_siglip_256.webli_i18n': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 256, 256),
        num_classes=0),
    'vit_so400m_patch16_siglip_384.v2_webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 384, 384),
        num_classes=0),
    'vit_so400m_patch16_siglip_512.v2_webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 512, 512),
        num_classes=0),
    'vit_giantopt_patch16_siglip_256.v2_webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 256, 256),
        num_classes=0),
    'vit_giantopt_patch16_siglip_384.v2_webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 384, 384),
        num_classes=0),

    'vit_base_patch32_siglip_gap_256.v2_webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 256, 256),
        num_classes=0),
    'vit_base_patch16_siglip_gap_224.v2_webli': _cfg(
        hf_hub_id='timm/',
        num_classes=0),
    'vit_base_patch16_siglip_gap_224.webli': _cfg(
        hf_hub_id='timm/',
        num_classes=0),
    'vit_base_patch16_siglip_gap_256.v2_webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 256, 256),
        num_classes=0),
    'vit_base_patch16_siglip_gap_256.webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 256, 256),
        num_classes=0),
    'vit_base_patch16_siglip_gap_256.webli_i18n': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 256, 256),
        num_classes=0),
    'vit_base_patch16_siglip_gap_384.v2_webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 384, 384),
        num_classes=0),
    'vit_base_patch16_siglip_gap_384.webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 384, 384),
        num_classes=0),
    'vit_base_patch16_siglip_gap_512.v2_webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 512, 512),
        num_classes=0),
    'vit_base_patch16_siglip_gap_512.webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 512, 512),
        num_classes=0),
    'vit_large_patch16_siglip_gap_256.v2_webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 256, 256),
        num_classes=0),
    'vit_large_patch16_siglip_gap_256.webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 256, 256),
        num_classes=0),
    'vit_large_patch16_siglip_gap_384.v2_webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 384, 384),
        num_classes=0),
    'vit_large_patch16_siglip_gap_384.webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 384, 384),
        num_classes=0),
    'vit_large_patch16_siglip_gap_512.v2_webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 512, 512),
        num_classes=0),
    'vit_so400m_patch14_siglip_gap_224.v2_webli': _cfg(
        hf_hub_id='timm/',
        num_classes=0),
    'vit_so400m_patch14_siglip_gap_224.webli': _cfg(
        hf_hub_id='timm/',
        num_classes=0),
    'vit_so400m_patch14_siglip_gap_224.pali_mix': _cfg(
        hf_hub_id='timm/',
        num_classes=0),
    'vit_so400m_patch14_siglip_gap_224.pali_pt': _cfg(
        hf_hub_id='timm/',
        num_classes=0),
    'vit_so400m_patch14_siglip_gap_224.pali2_3b_pt': _cfg(
        hf_hub_id='timm/',
        num_classes=0),
    'vit_so400m_patch14_siglip_gap_224.pali2_10b_pt': _cfg(
        hf_hub_id='timm/',
        num_classes=0),
    # 'vit_so400m_patch14_siglip_gap_224.pali2_28b_pt': _cfg(
    #     hf_hub_id='google/paligemma2-28b-pt-224-jax',
    #     hf_hub_filename='pt_27b_224.npz',
    #     custom_load='hf',
    #     num_classes=0),
    'vit_so400m_patch14_siglip_gap_378.v2_webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 378, 378),
        num_classes=0),
    'vit_so400m_patch14_siglip_gap_378.webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 378, 378), crop_pct=1.0,
        num_classes=0),
    'vit_so400m_patch14_siglip_gap_384.webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 384, 384), crop_pct=1.0,
        num_classes=0),
    'vit_so400m_patch14_siglip_gap_448.pali_mix': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 448, 448), crop_pct=1.0,
        num_classes=0),
    'vit_so400m_patch14_siglip_gap_448.pali_pt': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 448, 448), crop_pct=1.0,
        num_classes=0),
    'vit_so400m_patch14_siglip_gap_448.pali_refcoco_seg': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 448, 448), crop_pct=1.0,
        num_classes=0),
    'vit_so400m_patch14_siglip_gap_448.pali_ocrvqa': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 448, 448), crop_pct=1.0,
        num_classes=0),
    'vit_so400m_patch14_siglip_gap_448.pali2_3b_pt': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 448, 448), crop_pct=1.0,
        num_classes=0),
    'vit_so400m_patch14_siglip_gap_448.pali2_10b_pt': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 448, 448), crop_pct=1.0,
        num_classes=0),
    # 'vit_so400m_patch14_siglip_gap_448.pali2_28b_pt': _cfg(
    #     hf_hub_id='google/paligemma2-28b-pt-448-jax',
    #     hf_hub_filename='pt_27b_448.npz',
    #     custom_load='hf',
    #     input_size=(3, 448, 448), crop_pct=1.0,
    #     num_classes=0),
    'vit_so400m_patch14_siglip_gap_448.pali2_3b_docci': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 448, 448), crop_pct=1.0,
        num_classes=0),
    'vit_so400m_patch14_siglip_gap_448.pali2_10b_docci': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 448, 448), crop_pct=1.0,
        num_classes=0),
    'vit_so400m_patch14_siglip_gap_896.pali_pt': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 896, 896), crop_pct=1.0,
        num_classes=0),
    'vit_so400m_patch14_siglip_gap_896.pali_refcoco_seg': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 896, 896), crop_pct=1.0,
        num_classes=0),
    'vit_so400m_patch14_siglip_gap_896.pali_ocrvqa': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 896, 896), crop_pct=1.0,
        num_classes=0),
    'vit_so400m_patch14_siglip_gap_896.pali2_3b_pt': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 896, 896), crop_pct=1.0,
        num_classes=0),
    'vit_so400m_patch14_siglip_gap_896.pali2_10b_pt': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 896, 896), crop_pct=1.0,
        num_classes=0),
    # 'vit_so400m_patch14_siglip_gap_896.pali2_28b_pt': _cfg(
    #     hf_hub_id='google/paligemma2-28b-pt-896-jax',
    #     hf_hub_filename='pt_27b_896.npz',
    #     custom_load='hf',
    #     input_size=(3, 896, 896), crop_pct=1.0,
    #     num_classes=0),
    'vit_so400m_patch16_siglip_gap_256.v2_webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 256, 256),
        num_classes=0),
    'vit_so400m_patch16_siglip_gap_256.webli_i18n': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 256, 256),
        num_classes=0),
    'vit_so400m_patch16_siglip_gap_384.v2_webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 384, 384),
        num_classes=0),
    'vit_so400m_patch16_siglip_gap_512.v2_webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 512, 512),
        num_classes=0),
    'vit_giantopt_patch16_siglip_gap_256.v2_webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 256, 256),
        num_classes=0),
    'vit_giantopt_patch16_siglip_gap_384.v2_webli': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 384, 384),
        num_classes=0),

    'vit_so400m_patch14_siglip_378.webli_ft_in1k': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 378, 378), crop_pct=1.0, crop_mode='squash',
    ),
    'vit_so400m_patch14_siglip_gap_378.webli_ft_in1k': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 378, 378), crop_pct=1.0, crop_mode='squash',
    ),

    'vit_xsmall_patch16_clip_224.tinyclip_yfcc15m': _cfg(
        hf_hub_id='timm/',
        license='mit',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, num_classes=512),
    'vit_medium_patch32_clip_224.tinyclip_laion400m': _cfg(
        hf_hub_id='timm/',
        license='mit',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, num_classes=512),
    'vit_medium_patch16_clip_224.tinyclip_yfcc15m': _cfg(
        hf_hub_id='timm/',
        license='mit',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, num_classes=512),
    'vit_betwixt_patch32_clip_224.tinyclip_laion400m': _cfg(
        hf_hub_id='timm/',
        license='mit',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, num_classes=512),

    'vit_wee_patch16_reg1_gap_256.sbb_in1k': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 256, 256), crop_pct=0.95),
    'vit_pwee_patch16_reg1_gap_256.sbb_in1k': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 256, 256), crop_pct=0.95),
    'vit_little_patch16_reg1_gap_256.sbb_in12k_ft_in1k': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 256, 256), crop_pct=0.95),
    'vit_little_patch16_reg1_gap_256.sbb_in12k': _cfg(
        hf_hub_id='timm/',
        num_classes=11821,
        input_size=(3, 256, 256), crop_pct=0.95),
    'vit_little_patch16_reg4_gap_256.sbb_in1k': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 256, 256), crop_pct=0.95),
    'vit_medium_patch16_reg1_gap_256.sbb_in1k': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 256, 256), crop_pct=0.95),
    'vit_medium_patch16_reg4_gap_256.sbb_in12k_ft_in1k': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 256, 256), crop_pct=0.95),
    'vit_medium_patch16_reg4_gap_256.sbb_in1k': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 256, 256), crop_pct=0.95),
    'vit_medium_patch16_reg4_gap_256.sbb_in12k': _cfg(
        hf_hub_id='timm/',
        num_classes=11821,
        input_size=(3, 256, 256), crop_pct=0.95),
    'vit_mediumd_patch16_reg4_gap_256.sbb2_e200_in12k_ft_in1k': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 256, 256), crop_pct=0.95),
    'vit_mediumd_patch16_reg4_gap_256.sbb_in12k_ft_in1k': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 256, 256), crop_pct=0.95),
    'vit_mediumd_patch16_reg4_gap_256.sbb2_e200_in12k': _cfg(
        hf_hub_id='timm/',
        num_classes=11821,
        input_size=(3, 256, 256), crop_pct=0.95),
    'vit_mediumd_patch16_reg4_gap_256.sbb_in12k': _cfg(
        hf_hub_id='timm/',
        num_classes=11821,
        input_size=(3, 256, 256), crop_pct=0.95),
    'vit_mediumd_patch16_reg4_gap_384.sbb2_e200_in12k_ft_in1k': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 384, 384), crop_pct=1.0),
    'vit_betwixt_patch16_reg1_gap_256.sbb_in1k': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 256, 256), crop_pct=0.95),
    'vit_betwixt_patch16_reg4_gap_256.sbb2_e200_in12k_ft_in1k': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 256, 256), crop_pct=0.95),
    'vit_betwixt_patch16_reg4_gap_256.sbb_in12k_ft_in1k': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 256, 256), crop_pct=0.95),
    'vit_betwixt_patch16_reg4_gap_256.sbb_in1k': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 256, 256), crop_pct=0.95),
    'vit_betwixt_patch16_reg4_gap_256.sbb2_e200_in12k': _cfg(
        hf_hub_id='timm/',
        num_classes=11821,
        input_size=(3, 256, 256), crop_pct=0.95),
    'vit_betwixt_patch16_reg4_gap_256.sbb_in12k': _cfg(
        hf_hub_id='timm/',
        num_classes=11821,
        input_size=(3, 256, 256), crop_pct=0.95),
    'vit_betwixt_patch16_reg4_gap_384.sbb2_e200_in12k_ft_in1k': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 384, 384), crop_pct=1.0),
    'vit_base_patch16_reg4_gap_256.untrained': _cfg(
        input_size=(3, 256, 256)),

    'vit_so150m_patch16_reg4_gap_256.sbb_e250_in12k_ft_in1k': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 256, 256), crop_pct=0.95),
    'vit_so150m_patch16_reg4_gap_256.sbb_e250_in12k': _cfg(
        hf_hub_id='timm/',
        num_classes=11821,
        input_size=(3, 256, 256), crop_pct=0.95),
    'vit_so150m_patch16_reg4_gap_384.sbb_e250_in12k_ft_in1k': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 384, 384), crop_pct=1.0),
    'vit_so150m_patch16_reg4_map_256.untrained': _cfg(
        input_size=(3, 256, 256)),
    'vit_so150m2_patch16_reg1_gap_256.sbb_e200_in12k_ft_in1k': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 256, 256), crop_pct=1.0),
    'vit_so150m2_patch16_reg1_gap_256.sbb_e200_in12k': _cfg(
        hf_hub_id='timm/',
        num_classes=11821,
        input_size=(3, 256, 256), crop_pct=1.0),
    'vit_so150m2_patch16_reg1_gap_384.sbb_e200_in12k_ft_in1k': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 384, 384), crop_pct=1.0),
    'vit_so150m2_patch16_reg1_gap_448.sbb_e200_in12k_ft_in1k': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 448, 448), crop_pct=1.0, crop_mode='squash'),

    'vit_intern300m_patch14_448.ogvl_dist': _cfg(
        hf_hub_id='timm/',
        mean=IMAGENET_DEFAULT_MEAN, std=IMAGENET_DEFAULT_STD,
        input_size=(3, 448, 448), crop_pct=1.0, num_classes=0,
    ),
    'vit_intern300m_patch14_448.ogvl_2pt5': _cfg(
        hf_hub_id='timm/',
        mean=IMAGENET_DEFAULT_MEAN, std=IMAGENET_DEFAULT_STD,
        input_size=(3, 448, 448), crop_pct=1.0, num_classes=0,
    ),

    'aimv2_large_patch14_224.apple_pt': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, license='apple-ascl',
        crop_pct=1.0, num_classes=0),
    'aimv2_large_patch14_224.apple_pt_dist': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, license='apple-ascl',
        crop_pct=1.0, num_classes=0),
    'aimv2_huge_patch14_224.apple_pt': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, license='apple-ascl',
        crop_pct=1.0, num_classes=0),
    'aimv2_1b_patch14_224.apple_pt': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, license='apple-ascl',
        crop_pct=1.0, num_classes=0),
    'aimv2_3b_patch14_224.apple_pt': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, license='apple-ascl',
        crop_pct=1.0, num_classes=0),
    'aimv2_large_patch14_336.apple_pt': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, license='apple-ascl',
        input_size=(3, 336, 336), crop_pct=1.0, num_classes=0),
    'aimv2_large_patch14_336.apple_pt_dist': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, license='apple-ascl',
        input_size=(3, 336, 336), crop_pct=1.0, num_classes=0),
    'aimv2_huge_patch14_336.apple_pt': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, license='apple-ascl',
        input_size=(3, 336, 336), crop_pct=1.0, num_classes=0),
    'aimv2_1b_patch14_336.apple_pt': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, license='apple-ascl',
        input_size=(3, 336, 336), crop_pct=1.0, num_classes=0),
    'aimv2_3b_patch14_336.apple_pt': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, license='apple-ascl',
        input_size=(3, 336, 336), crop_pct=1.0, num_classes=0),
    'aimv2_large_patch14_448.apple_pt': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, license='apple-ascl',
        input_size=(3, 448, 448), crop_pct=1.0, num_classes=0),
    'aimv2_huge_patch14_448.apple_pt': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, license='apple-ascl',
        input_size=(3, 448, 448), crop_pct=1.0, num_classes=0),
    'aimv2_1b_patch14_448.apple_pt': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, license='apple-ascl',
        input_size=(3, 448, 448), crop_pct=1.0, num_classes=0),
    'aimv2_3b_patch14_448.apple_pt': _cfg(
        hf_hub_id='timm/',
        mean=OPENAI_CLIP_MEAN, std=OPENAI_CLIP_STD, license='apple-ascl',
        input_size=(3, 448, 448), crop_pct=1.0, num_classes=0),

    'test_vit.r160_in1k': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 160, 160), crop_pct=0.95),
    'test_vit2.r160_in1k': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 160, 160), crop_pct=0.95),
    'test_vit3.r160_in1k': _cfg(
        hf_hub_id='timm/',
        input_size=(3, 160, 160), crop_pct=0.95),
    'test_vit4.r160_in1k': _cfg(
        input_size=(3, 160, 160), crop_pct=0.95),
}

_quick_gelu_cfgs = [n for n, c in default_cfgs.items() if c.get('notes', ()) and 'quickgelu' in c['notes'][0]]
for n in _quick_gelu_cfgs:
    # generate quickgelu default cfgs based on contents of notes field
    c = copy.deepcopy(default_cfgs[n])
    if c['hf_hub_id'] == 'timm/':
        c['hf_hub_id'] = 'timm/' + n  # need to use non-quickgelu model name for hub id
    default_cfgs[n.replace('_clip_', '_clip_quickgelu_')] = c
default_cfgs = generate_default_cfgs(default_cfgs)


def _create_vision_transformer(variant: str, pretrained: bool = False, **kwargs) -> VisionTransformer:
    out_indices = kwargs.pop('out_indices', 3)
    if 'flexi' in variant:
        # FIXME Google FlexiViT pretrained models have a strong preference for bilinear patch / embed
        # interpolation, other pretrained models resize better w/ anti-aliased bicubic interpolation.
        _filter_fn = partial(checkpoint_filter_fn, interpolation='bilinear', antialias=False)
    else:
        _filter_fn = checkpoint_filter_fn

    # FIXME attn pool (currently only in siglip) params removed if pool disabled, is there a better soln?
    strict = kwargs.pop('pretrained_strict', True)
    if 'siglip' in variant and kwargs.get('global_pool', None) != 'map':
        strict = False

    return build_model_with_cfg(
        VisionTransformer,
        variant,
        pretrained,
        pretrained_filter_fn=_filter_fn,
        pretrained_strict=strict,
        feature_cfg=dict(out_indices=out_indices, feature_cls='getter'),
        **kwargs,
    )


@register_model
def vit_tiny_patch16_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Tiny (Vit-Ti/16)
    """
    model_args = dict(patch_size=16, embed_dim=192, depth=12, num_heads=3)
    model = _create_vision_transformer('vit_tiny_patch16_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model

@register_model
def vit_tiny_patch16_224_relu(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Tiny (Vit-Ti/16)
    """
    model_args = dict(patch_size=16, embed_dim=192, depth=12, num_heads=3, act_layer='relu')
    model = _create_vision_transformer('vit_tiny_patch16_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model

@register_model
def vit_tiny_patch16_384(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Tiny (Vit-Ti/16) @ 384x384.
    """
    model_args = dict(patch_size=16, embed_dim=192, depth=12, num_heads=3)
    model = _create_vision_transformer('vit_tiny_patch16_384', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_small_patch32_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Small (ViT-S/32)
    """
    model_args = dict(patch_size=32, embed_dim=384, depth=12, num_heads=6)
    model = _create_vision_transformer('vit_small_patch32_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_small_patch32_384(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Small (ViT-S/32) at 384x384.
    """
    model_args = dict(patch_size=32, embed_dim=384, depth=12, num_heads=6)
    model = _create_vision_transformer('vit_small_patch32_384', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_small_patch16_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Small (ViT-S/16)
    """
    model_args = dict(patch_size=16, embed_dim=384, depth=12, num_heads=6)
    model = _create_vision_transformer('vit_small_patch16_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_small_patch16_384(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Small (ViT-S/16)
    """
    model_args = dict(patch_size=16, embed_dim=384, depth=12, num_heads=6)
    model = _create_vision_transformer('vit_small_patch16_384', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_small_patch8_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Small (ViT-S/8)
    """
    model_args = dict(patch_size=8, embed_dim=384, depth=12, num_heads=6)
    model = _create_vision_transformer('vit_small_patch8_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_base_patch32_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Base (ViT-B/32) from original paper (https://arxiv.org/abs/2010.11929).
    ImageNet-1k weights fine-tuned from in21k, source https://github.com/google-research/vision_transformer.
    """
    model_args = dict(patch_size=32, embed_dim=768, depth=12, num_heads=12)
    model = _create_vision_transformer('vit_base_patch32_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_base_patch32_384(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Base model (ViT-B/32) from original paper (https://arxiv.org/abs/2010.11929).
    ImageNet-1k weights fine-tuned from in21k @ 384x384, source https://github.com/google-research/vision_transformer.
    """
    model_args = dict(patch_size=32, embed_dim=768, depth=12, num_heads=12)
    model = _create_vision_transformer('vit_base_patch32_384', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_base_patch16_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Base (ViT-B/16) from original paper (https://arxiv.org/abs/2010.11929).
    ImageNet-1k weights fine-tuned from in21k @ 224x224, source https://github.com/google-research/vision_transformer.
    """
    model_args = dict(patch_size=16, embed_dim=768, depth=12, num_heads=12)
    model = _create_vision_transformer('vit_base_patch16_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_base_patch16_384(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Base model (ViT-B/16) from original paper (https://arxiv.org/abs/2010.11929).
    ImageNet-1k weights fine-tuned from in21k @ 384x384, source https://github.com/google-research/vision_transformer.
    """
    model_args = dict(patch_size=16, embed_dim=768, depth=12, num_heads=12)
    model = _create_vision_transformer('vit_base_patch16_384', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_base_patch8_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Base (ViT-B/8) from original paper (https://arxiv.org/abs/2010.11929).
    ImageNet-1k weights fine-tuned from in21k @ 224x224, source https://github.com/google-research/vision_transformer.
    """
    model_args = dict(patch_size=8, embed_dim=768, depth=12, num_heads=12)
    model = _create_vision_transformer('vit_base_patch8_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_large_patch32_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Large model (ViT-L/32) from original paper (https://arxiv.org/abs/2010.11929). No pretrained weights.
    """
    model_args = dict(patch_size=32, embed_dim=1024, depth=24, num_heads=16)
    model = _create_vision_transformer('vit_large_patch32_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_large_patch32_384(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Large model (ViT-L/32) from original paper (https://arxiv.org/abs/2010.11929).
    ImageNet-1k weights fine-tuned from in21k @ 384x384, source https://github.com/google-research/vision_transformer.
    """
    model_args = dict(patch_size=32, embed_dim=1024, depth=24, num_heads=16)
    model = _create_vision_transformer('vit_large_patch32_384', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_large_patch16_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Large model (ViT-L/16) from original paper (https://arxiv.org/abs/2010.11929).
    ImageNet-1k weights fine-tuned from in21k @ 224x224, source https://github.com/google-research/vision_transformer.
    """
    model_args = dict(patch_size=16, embed_dim=1024, depth=24, num_heads=16)
    model = _create_vision_transformer('vit_large_patch16_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_large_patch16_384(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Large model (ViT-L/16) from original paper (https://arxiv.org/abs/2010.11929).
    ImageNet-1k weights fine-tuned from in21k @ 384x384, source https://github.com/google-research/vision_transformer.
    """
    model_args = dict(patch_size=16, embed_dim=1024, depth=24, num_heads=16)
    model = _create_vision_transformer('vit_large_patch16_384', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_large_patch14_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Large model (ViT-L/14)
    """
    model_args = dict(patch_size=14, embed_dim=1024, depth=24, num_heads=16)
    model = _create_vision_transformer('vit_large_patch14_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_huge_patch14_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Huge model (ViT-H/14) from original paper (https://arxiv.org/abs/2010.11929).
    """
    model_args = dict(patch_size=14, embed_dim=1280, depth=32, num_heads=16)
    model = _create_vision_transformer('vit_huge_patch14_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_giant_patch14_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Giant (little-g) model (ViT-g/14) from `Scaling Vision Transformers` - https://arxiv.org/abs/2106.04560
    """
    model_args = dict(patch_size=14, embed_dim=1408, mlp_ratio=48/11, depth=40, num_heads=16)
    model = _create_vision_transformer('vit_giant_patch14_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_gigantic_patch14_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Gigantic (big-G) model (ViT-G/14) from `Scaling Vision Transformers` - https://arxiv.org/abs/2106.04560
    """
    model_args = dict(patch_size=14, embed_dim=1664, mlp_ratio=64/13, depth=48, num_heads=16)
    model = _create_vision_transformer(
        'vit_gigantic_patch14_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_base_patch16_224_miil(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Base (ViT-B/16) from original paper (https://arxiv.org/abs/2010.11929).
    Weights taken from: https://github.com/Alibaba-MIIL/ImageNet21K
    """
    model_args = dict(patch_size=16, embed_dim=768, depth=12, num_heads=12, qkv_bias=False)
    model = _create_vision_transformer(
        'vit_base_patch16_224_miil', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_medium_patch16_gap_240(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Medium (ViT-M/16) w/o class token, w/ avg-pool @ 240x240
    """
    model_args = dict(
        patch_size=16, embed_dim=512, depth=12, num_heads=8, class_token=False,
        global_pool='avg', qkv_bias=False, init_values=1e-6, fc_norm=False)
    model = _create_vision_transformer(
        'vit_medium_patch16_gap_240', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_medium_patch16_gap_256(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Medium (ViT-M/16) w/o class token, w/ avg-pool @ 256x256
    """
    model_args = dict(
        patch_size=16, embed_dim=512, depth=12, num_heads=8, class_token=False,
        global_pool='avg', qkv_bias=False, init_values=1e-6, fc_norm=False)
    model = _create_vision_transformer(
        'vit_medium_patch16_gap_256', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_medium_patch16_gap_384(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Medium (ViT-M/16) w/o class token, w/ avg-pool @ 384x384
    """
    model_args = dict(
        patch_size=16, embed_dim=512, depth=12, num_heads=8, class_token=False,
        global_pool='avg', qkv_bias=False, init_values=1e-6, fc_norm=False)
    model = _create_vision_transformer(
        'vit_medium_patch16_gap_384', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_betwixt_patch16_gap_256(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Betwixt (ViT-b/16) w/o class token, w/ avg-pool @ 256x256
    """
    model_args = dict(
        patch_size=16, embed_dim=640, depth=12, num_heads=10, class_token=False,
        global_pool='avg', qkv_bias=False, init_values=1e-6, fc_norm=False)
    model = _create_vision_transformer(
        'vit_medium_patch16_gap_256', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_base_patch16_gap_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Base (ViT-B/16) w/o class token, w/ avg-pool @ 224x224
    """
    model_args = dict(
        patch_size=16, embed_dim=768, depth=12, num_heads=16, class_token=False, global_pool='avg', fc_norm=False)
    model = _create_vision_transformer(
        'vit_base_patch16_gap_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_huge_patch14_gap_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Huge model (ViT-H/14) w/ no class token, avg pool
    """
    model_args = dict(
        patch_size=14, embed_dim=1280, depth=32, num_heads=16, class_token=False, global_pool='avg', fc_norm=False)
    model = _create_vision_transformer(
        'vit_huge_patch14_gap_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_huge_patch16_gap_448(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Huge model (ViT-H/16) w/ no class token, avg pool @ 448x448
    """
    model_args = dict(
        patch_size=16, embed_dim=1280, depth=32, num_heads=16, class_token=False, global_pool='avg', fc_norm=False)
    model = _create_vision_transformer(
        'vit_huge_patch16_gap_448', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_giant_patch16_gap_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Giant (little-gg) model (ViT-g/16) w/ no class token, avg pool
    """
    model_args = dict(
        patch_size=16, embed_dim=1408, depth=40, num_heads=16, mlp_ratio=48/11,
        class_token=False, global_pool='avg', fc_norm=False)
    model = _create_vision_transformer(
        'vit_giant_patch16_gap_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_xsmall_patch16_clip_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    # TinyCLIP 8M
    model_args = dict(embed_dim=256, depth=10, num_heads=4, pre_norm=True, norm_layer=nn.LayerNorm)
    model = _create_vision_transformer(
        'vit_xsmall_patch16_clip_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_medium_patch32_clip_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    # TinyCLIP 40M
    model_args = dict(
        patch_size=32, embed_dim=512, depth=12, num_heads=8, pre_norm=True, norm_layer=nn.LayerNorm)
    model = _create_vision_transformer(
        'vit_medium_patch32_clip_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_medium_patch16_clip_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    # TinyCLIP 39M
    model_args = dict(embed_dim=512, depth=12, num_heads=8, pre_norm=True, norm_layer=nn.LayerNorm)
    model = _create_vision_transformer(
        'vit_medium_patch16_clip_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_betwixt_patch32_clip_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    # TinyCLIP 61M
    model_args = dict(
        patch_size=32, embed_dim=640, depth=12, num_heads=10, pre_norm=True, norm_layer=nn.LayerNorm)
    model = _create_vision_transformer(
        'vit_betwixt_patch32_clip_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_base_patch32_clip_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-B/32 CLIP image tower @ 224x224
    """
    model_args = dict(
        patch_size=32, embed_dim=768, depth=12, num_heads=12, pre_norm=True, norm_layer=nn.LayerNorm)
    model = _create_vision_transformer(
        'vit_base_patch32_clip_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_base_patch32_clip_256(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-B/32 CLIP image tower @ 256x256
    """
    model_args = dict(
        patch_size=32, embed_dim=768, depth=12, num_heads=12, pre_norm=True, norm_layer=nn.LayerNorm)
    model = _create_vision_transformer(
        'vit_base_patch32_clip_256', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_base_patch32_clip_384(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-B/32 CLIP image tower @ 384x384
    """
    model_args = dict(
        patch_size=32, embed_dim=768, depth=12, num_heads=12, pre_norm=True, norm_layer=nn.LayerNorm)
    model = _create_vision_transformer(
        'vit_base_patch32_clip_384', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_base_patch32_clip_448(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-B/32 CLIP image tower @ 448x448
    """
    model_args = dict(
        patch_size=32, embed_dim=768, depth=12, num_heads=12, pre_norm=True, norm_layer=nn.LayerNorm)
    model = _create_vision_transformer(
        'vit_base_patch32_clip_448', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_base_patch16_clip_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-B/16 CLIP image tower
    """
    model_args = dict(patch_size=16, embed_dim=768, depth=12, num_heads=12, pre_norm=True, norm_layer=nn.LayerNorm)
    model = _create_vision_transformer(
        'vit_base_patch16_clip_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_base_patch16_clip_384(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-B/16 CLIP image tower @ 384x384
    """
    model_args = dict(patch_size=16, embed_dim=768, depth=12, num_heads=12, pre_norm=True, norm_layer=nn.LayerNorm)
    model = _create_vision_transformer(
        'vit_base_patch16_clip_384', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_base_patch16_plus_clip_240(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Base (ViT-B/16+) CLIP image tower @ 240x240
    """
    model_args = dict(patch_size=16, embed_dim=896, depth=12, num_heads=14, pre_norm=True, norm_layer=nn.LayerNorm)
    model = _create_vision_transformer(
        'vit_base_patch16_plus_clip_240', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_large_patch14_clip_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Large model (ViT-L/14) CLIP image tower
    """
    model_args = dict(patch_size=14, embed_dim=1024, depth=24, num_heads=16, pre_norm=True, norm_layer=nn.LayerNorm)
    model = _create_vision_transformer(
        'vit_large_patch14_clip_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_large_patch14_clip_336(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Large model (ViT-L/14) CLIP image tower @ 336x336
    """
    model_args = dict(patch_size=14, embed_dim=1024, depth=24, num_heads=16, pre_norm=True, norm_layer=nn.LayerNorm)
    model = _create_vision_transformer(
        'vit_large_patch14_clip_336', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_huge_patch14_clip_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Huge model (ViT-H/14) CLIP image tower.
    """
    model_args = dict(patch_size=14, embed_dim=1280, depth=32, num_heads=16, pre_norm=True, norm_layer=nn.LayerNorm)
    model = _create_vision_transformer(
        'vit_huge_patch14_clip_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_huge_patch14_clip_336(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Huge model (ViT-H/14) CLIP image tower @ 336x336
    """
    model_args = dict(patch_size=14, embed_dim=1280, depth=32, num_heads=16, pre_norm=True, norm_layer=nn.LayerNorm)
    model = _create_vision_transformer(
        'vit_huge_patch14_clip_336', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_huge_patch14_clip_378(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Huge model (ViT-H/14) CLIP image tower @ 378x378
    """
    model_args = dict(patch_size=14, embed_dim=1280, depth=32, num_heads=16, pre_norm=True, norm_layer=nn.LayerNorm)
    model = _create_vision_transformer(
        'vit_huge_patch14_clip_378', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_giant_patch14_clip_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Giant (little-g) model (ViT-g/14) from `Scaling Vision Transformers` - https://arxiv.org/abs/2106.04560
    Pretrained weights from CLIP image tower.
    """
    model_args = dict(
        patch_size=14, embed_dim=1408, mlp_ratio=48/11, depth=40, num_heads=16, pre_norm=True, norm_layer=nn.LayerNorm)
    model = _create_vision_transformer(
        'vit_giant_patch14_clip_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_gigantic_patch14_clip_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-bigG model (ViT-G/14) from `Scaling Vision Transformers` - https://arxiv.org/abs/2106.04560
    Pretrained weights from CLIP image tower.
    """
    model_args = dict(
        patch_size=14, embed_dim=1664, mlp_ratio=64/13, depth=48, num_heads=16, pre_norm=True, norm_layer=nn.LayerNorm)
    model = _create_vision_transformer(
        'vit_gigantic_patch14_clip_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_base_patch32_clip_quickgelu_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-B/32 CLIP image tower @ 224x224
    """
    model_args = dict(
        patch_size=32, embed_dim=768, depth=12, num_heads=12, pre_norm=True,
        norm_layer=nn.LayerNorm, act_layer='quick_gelu')
    model = _create_vision_transformer(
        'vit_base_patch32_clip_quickgelu_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_base_patch16_clip_quickgelu_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-B/16 CLIP image tower w/ QuickGELU act
    """
    model_args = dict(
        patch_size=16, embed_dim=768, depth=12, num_heads=12, pre_norm=True,
        norm_layer=nn.LayerNorm, act_layer='quick_gelu')
    model = _create_vision_transformer(
        'vit_base_patch16_clip_quickgelu_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_large_patch14_clip_quickgelu_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Large model (ViT-L/14) CLIP image tower w/ QuickGELU act
    """
    model_args = dict(
        patch_size=14, embed_dim=1024, depth=24, num_heads=16, pre_norm=True,
        norm_layer=nn.LayerNorm, act_layer='quick_gelu')
    model = _create_vision_transformer(
        'vit_large_patch14_clip_quickgelu_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_large_patch14_clip_quickgelu_336(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Large model (ViT-L/14) CLIP image tower @ 336x336 w/ QuickGELU act
    """
    model_args = dict(
        patch_size=14, embed_dim=1024, depth=24, num_heads=16, pre_norm=True,
        norm_layer=nn.LayerNorm, act_layer='quick_gelu')
    model = _create_vision_transformer(
        'vit_large_patch14_clip_quickgelu_336', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_huge_patch14_clip_quickgelu_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Huge model (ViT-H/14) CLIP image tower w/ QuickGELU act.
    """
    model_args = dict(
        patch_size=14, embed_dim=1280, depth=32, num_heads=16, pre_norm=True,
        norm_layer=nn.LayerNorm, act_layer='quick_gelu')
    model = _create_vision_transformer(
        'vit_huge_patch14_clip_quickgelu_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_huge_patch14_clip_quickgelu_378(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Huge model (ViT-H/14) CLIP image tower @ 378x378 w/ QuickGELU act
    """
    model_args = dict(
        patch_size=14, embed_dim=1280, depth=32, num_heads=16, pre_norm=True,
        norm_layer=nn.LayerNorm, act_layer='quick_gelu')
    model = _create_vision_transformer(
        'vit_huge_patch14_clip_quickgelu_378', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_gigantic_patch14_clip_quickgelu_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-bigG model (ViT-G/14) w/ QuickGELU act
    """
    model_args = dict(
        patch_size=14, embed_dim=1664, mlp_ratio=64/13, depth=48, num_heads=16, pre_norm=True,
        norm_layer=nn.LayerNorm, act_layer='quick_gelu')
    model = _create_vision_transformer(
        'vit_gigantic_patch14_clip_quickgelu_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


# Experimental models below

@register_model
def vit_base_patch32_plus_256(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Base (ViT-B/32+)
    """
    model_args = dict(patch_size=32, embed_dim=896, depth=12, num_heads=14, init_values=1e-5)
    model = _create_vision_transformer(
        'vit_base_patch32_plus_256', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_base_patch16_plus_240(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Base (ViT-B/16+)
    """
    model_args = dict(patch_size=16, embed_dim=896, depth=12, num_heads=14, init_values=1e-5)
    model = _create_vision_transformer(
        'vit_base_patch16_plus_240', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_base_patch16_rpn_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Base (ViT-B/16) w/ residual post-norm
    """
    model_args = dict(
        patch_size=16, embed_dim=768, depth=12, num_heads=12, qkv_bias=False, init_values=1e-5,
        class_token=False, block_fn=ResPostBlock, global_pool='avg')
    model = _create_vision_transformer(
        'vit_base_patch16_rpn_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_small_patch16_36x1_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Base w/ LayerScale + 36 x 1 (36 block serial) config. Experimental, may remove.
    Based on `Three things everyone should know about Vision Transformers` - https://arxiv.org/abs/2203.09795
    Paper focuses on 24x2 + 48x1 for 'Small' width but those are extremely slow.
    """
    model_args = dict(patch_size=16, embed_dim=384, depth=36, num_heads=6, init_values=1e-5)
    model = _create_vision_transformer(
        'vit_small_patch16_36x1_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_small_patch16_18x2_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Small w/ LayerScale + 18 x 2 (36 block parallel) config. Experimental, may remove.
    Based on `Three things everyone should know about Vision Transformers` - https://arxiv.org/abs/2203.09795
    Paper focuses on 24x2 + 48x1 for 'Small' width but those are extremely slow.
    """
    model_args = dict(
        patch_size=16, embed_dim=384, depth=18, num_heads=6, init_values=1e-5, block_fn=ParallelThingsBlock)
    model = _create_vision_transformer(
        'vit_small_patch16_18x2_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_base_patch16_18x2_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Base w/ LayerScale + 18 x 2 (36 block parallel) config. Experimental, may remove.
    Based on `Three things everyone should know about Vision Transformers` - https://arxiv.org/abs/2203.09795
    """
    model_args = dict(
        patch_size=16, embed_dim=768, depth=18, num_heads=12, init_values=1e-5, block_fn=ParallelThingsBlock)
    model = _create_vision_transformer(
        'vit_base_patch16_18x2_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def eva_large_patch14_196(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ EVA-large model https://arxiv.org/abs/2211.07636 /via MAE MIM pretrain"""
    model_args = dict(patch_size=14, embed_dim=1024, depth=24, num_heads=16, global_pool='avg')
    model = _create_vision_transformer(
        'eva_large_patch14_196', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def eva_large_patch14_336(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ EVA-large model https://arxiv.org/abs/2211.07636 via MAE MIM pretrain"""
    model_args = dict(patch_size=14, embed_dim=1024, depth=24, num_heads=16, global_pool='avg')
    model = _create_vision_transformer('eva_large_patch14_336', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def flexivit_small(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ FlexiViT-Small
    """
    model_args = dict(patch_size=16, embed_dim=384, depth=12, num_heads=6, no_embed_class=True)
    model = _create_vision_transformer('flexivit_small', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def flexivit_base(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ FlexiViT-Base
    """
    model_args = dict(patch_size=16, embed_dim=768, depth=12, num_heads=12, no_embed_class=True)
    model = _create_vision_transformer('flexivit_base', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def flexivit_large(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ FlexiViT-Large
    """
    model_args = dict(patch_size=16, embed_dim=1024, depth=24, num_heads=16, no_embed_class=True)
    model = _create_vision_transformer('flexivit_large', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_base_patch16_xp_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Large model (ViT-L/14) w/ parallel blocks and qk norm enabled.
    """
    model_args = dict(
        patch_size=16, embed_dim=768, depth=12, num_heads=12, pre_norm=True, no_embed_class=True,
        norm_layer=RmsNorm, block_fn=ParallelScalingBlock, qkv_bias=False, qk_norm=True,
    )
    model = _create_vision_transformer(
        'vit_base_patch16_xp_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_large_patch14_xp_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Large model (ViT-L/14) w/ parallel blocks and qk norm enabled.
    """
    model_args = dict(
        patch_size=14, embed_dim=1024, depth=24, num_heads=16, pre_norm=True, no_embed_class=True,
        norm_layer=RmsNorm, block_fn=ParallelScalingBlock, qkv_bias=False, qk_norm=True,
    )
    model = _create_vision_transformer(
        'vit_large_patch14_xp_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_huge_patch14_xp_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-Huge model (ViT-H/14) w/ parallel blocks and qk norm enabled.
    """
    model_args = dict(
        patch_size=14, embed_dim=1280, depth=32, num_heads=16, pre_norm=True, no_embed_class=True,
        norm_layer=RmsNorm, block_fn=ParallelScalingBlock, qkv_bias=False, qk_norm=True,
    )
    model = _create_vision_transformer(
        'vit_huge_patch14_xp_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_small_patch14_dinov2(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-S/14 for DINOv2
    """
    model_args = dict(patch_size=14, embed_dim=384, depth=12, num_heads=6, init_values=1e-5)
    model = _create_vision_transformer(
        'vit_small_patch14_dinov2', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_base_patch14_dinov2(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-B/14 for DINOv2
    """
    model_args = dict(patch_size=14, embed_dim=768, depth=12, num_heads=12, init_values=1e-5)
    model = _create_vision_transformer(
        'vit_base_patch14_dinov2', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_large_patch14_dinov2(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-L/14 for DINOv2
    """
    model_args = dict(patch_size=14, embed_dim=1024, depth=24, num_heads=16, init_values=1e-5)
    model = _create_vision_transformer(
        'vit_large_patch14_dinov2', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_giant_patch14_dinov2(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-G/14 for DINOv2
    """
    # The hidden_features of SwiGLU is calculated by:
    # hidden_features = (int(hidden_features * 2 / 3) + 7) // 8 * 8
    # When embed_dim=1536, hidden_features=4096
    # With SwiGLUPacked, we need to set hidden_features = 2 * 4096 = 8192
    model_args = dict(
        patch_size=14, embed_dim=1536, depth=40, num_heads=24, init_values=1e-5,
        mlp_ratio=2.66667 * 2, mlp_layer=SwiGLUPacked, act_layer=nn.SiLU
    )
    model = _create_vision_transformer(
        'vit_giant_patch14_dinov2', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_small_patch14_reg4_dinov2(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-S/14 for DINOv2 w/ 4 registers
    """
    model_args = dict(
        patch_size=14, embed_dim=384, depth=12, num_heads=6, init_values=1e-5,
        reg_tokens=4, no_embed_class=True,
    )
    model = _create_vision_transformer(
        'vit_small_patch14_reg4_dinov2', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_base_patch14_reg4_dinov2(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-B/14 for DINOv2 w/ 4 registers
    """
    model_args = dict(
        patch_size=14, embed_dim=768, depth=12, num_heads=12, init_values=1e-5,
        reg_tokens=4, no_embed_class=True,
    )
    model = _create_vision_transformer(
        'vit_base_patch14_reg4_dinov2', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_large_patch14_reg4_dinov2(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-L/14 for DINOv2 w/ 4 registers
    """
    model_args = dict(
        patch_size=14, embed_dim=1024, depth=24, num_heads=16, init_values=1e-5,
        reg_tokens=4, no_embed_class=True,
    )
    model = _create_vision_transformer(
        'vit_large_patch14_reg4_dinov2', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_giant_patch14_reg4_dinov2(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT-G/14 for DINOv2
    """
    # The hidden_features of SwiGLU is calculated by:
    # hidden_features = (int(hidden_features * 2 / 3) + 7) // 8 * 8
    # When embed_dim=1536, hidden_features=4096
    # With SwiGLUPacked, we need to set hidden_features = 2 * 4096 = 8192
    model_args = dict(
        patch_size=14, embed_dim=1536, depth=40, num_heads=24, init_values=1e-5, mlp_ratio=2.66667 * 2,
        mlp_layer=SwiGLUPacked, act_layer=nn.SiLU, reg_tokens=4, no_embed_class=True,
    )
    model = _create_vision_transformer(
        'vit_giant_patch14_reg4_dinov2', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_base_patch32_siglip_256(pretrained: bool = False, **kwargs) -> VisionTransformer:
    model_args = dict(
        patch_size=32, embed_dim=768, depth=12, num_heads=12, class_token=False, global_pool='map',
        act_layer='gelu_tanh',
    )
    model = _create_vision_transformer(
        'vit_base_patch32_siglip_256', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_base_patch16_siglip_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    model_args = dict(
        patch_size=16, embed_dim=768, depth=12, num_heads=12, class_token=False, global_pool='map',
    )
    model = _create_vision_transformer(
        'vit_base_patch16_siglip_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_base_patch16_siglip_256(pretrained: bool = False, **kwargs) -> VisionTransformer:
    model_args = dict(
        patch_size=16, embed_dim=768, depth=12, num_heads=12, class_token=False, global_pool='map',
    )
    model = _create_vision_transformer(
        'vit_base_patch16_siglip_256', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_base_patch16_siglip_384(pretrained: bool = False, **kwargs) -> VisionTransformer:
    model_args = dict(
        patch_size=16, embed_dim=768, depth=12, num_heads=12, class_token=False, global_pool='map',
    )
    model = _create_vision_transformer(
        'vit_base_patch16_siglip_384', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_base_patch16_siglip_512(pretrained: bool = False, **kwargs) -> VisionTransformer:
    model_args = dict(
        patch_size=16, embed_dim=768, depth=12, num_heads=12, class_token=False, global_pool='map',
    )
    model = _create_vision_transformer(
        'vit_base_patch16_siglip_512', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_large_patch16_siglip_256(pretrained: bool = False, **kwargs) -> VisionTransformer:
    model_args = dict(
        patch_size=16, embed_dim=1024, depth=24, num_heads=16, class_token=False, global_pool='map',
    )
    model = _create_vision_transformer(
        'vit_large_patch16_siglip_256', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_large_patch16_siglip_384(pretrained: bool = False, **kwargs) -> VisionTransformer:
    model_args = dict(
        patch_size=16, embed_dim=1024, depth=24, num_heads=16, class_token=False, global_pool='map',
    )
    model = _create_vision_transformer(
        'vit_large_patch16_siglip_384', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_large_patch16_siglip_512(pretrained: bool = False, **kwargs) -> VisionTransformer:
    model_args = dict(
        patch_size=16, embed_dim=1024, depth=24, num_heads=16, class_token=False, global_pool='map',
        act_layer='gelu_tanh'
    )
    model = _create_vision_transformer(
        'vit_large_patch16_siglip_512', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_so400m_patch14_siglip_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    model_args = dict(
        patch_size=14, embed_dim=1152, depth=27, num_heads=16, mlp_ratio=3.7362, class_token=False, global_pool='map',
    )
    model = _create_vision_transformer(
        'vit_so400m_patch14_siglip_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_so400m_patch14_siglip_378(pretrained: bool = False, **kwargs) -> VisionTransformer:
    # this is a corrected variant of the 384 with a res properly divisible by patch size (no padding/truncation)
    model_args = dict(
        patch_size=14, embed_dim=1152, depth=27, num_heads=16, mlp_ratio=3.7362, class_token=False, global_pool='map',
    )
    model = _create_vision_transformer(
        'vit_so400m_patch14_siglip_378', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_so400m_patch14_siglip_384(pretrained: bool = False, **kwargs) -> VisionTransformer:
    model_args = dict(
        patch_size=14, embed_dim=1152, depth=27, num_heads=16, mlp_ratio=3.7362, class_token=False, global_pool='map',
    )
    model = _create_vision_transformer(
        'vit_so400m_patch14_siglip_384', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_so400m_patch16_siglip_256(pretrained: bool = False, **kwargs) -> VisionTransformer:
    model_args = dict(
        patch_size=16, embed_dim=1152, depth=27, num_heads=16, mlp_ratio=3.7362, class_token=False, global_pool='map',
        act_layer='gelu_tanh',
    )
    model = _create_vision_transformer(
        'vit_so400m_patch16_siglip_256', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_so400m_patch16_siglip_384(pretrained: bool = False, **kwargs) -> VisionTransformer:
    model_args = dict(
        patch_size=16, embed_dim=1152, depth=27, num_heads=16, mlp_ratio=3.7362, class_token=False, global_pool='map',
        act_layer='gelu_tanh',
    )
    model = _create_vision_transformer(
        'vit_so400m_patch16_siglip_384', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_so400m_patch16_siglip_512(pretrained: bool = False, **kwargs) -> VisionTransformer:
    model_args = dict(
        patch_size=16, embed_dim=1152, depth=27, num_heads=16, mlp_ratio=3.7362, class_token=False, global_pool='map',
        act_layer='gelu_tanh',
    )
    model = _create_vision_transformer(
        'vit_so400m_patch16_siglip_512', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_giantopt_patch16_siglip_256(pretrained: bool = False, **kwargs) -> VisionTransformer:
    model_args = dict(
        patch_size=16, embed_dim=1536, depth=40, num_heads=16, class_token=False, global_pool='map',
        act_layer='gelu_tanh',
    )
    model = _create_vision_transformer(
        'vit_giantopt_patch16_siglip_256', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_giantopt_patch16_siglip_384(pretrained: bool = False, **kwargs) -> VisionTransformer:
    model_args = dict(
        patch_size=16, embed_dim=1536, depth=40, num_heads=16, class_token=False, global_pool='map',
        act_layer='gelu_tanh',
    )
    model = _create_vision_transformer(
        'vit_giantopt_patch16_siglip_384', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_base_patch32_siglip_gap_256(pretrained: bool = False, **kwargs) -> VisionTransformer:
    model_args = dict(
        patch_size=32, embed_dim=768, depth=12, num_heads=12, class_token=False, global_pool='avg', fc_norm=False,
        act_layer='gelu_tanh',
    )
    model = _create_vision_transformer(
        'vit_base_patch32_siglip_gap_256', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_base_patch16_siglip_gap_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ A SigLIP variant of ViT with global average pooling (GAP) instead of attention pooling (MAP)."""
    model_args = dict(
        patch_size=16, embed_dim=768, depth=12, num_heads=12, class_token=False, global_pool='avg', fc_norm=False,
    )
    model = _create_vision_transformer(
        'vit_base_patch16_siglip_gap_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_base_patch16_siglip_gap_256(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ A SigLIP variant of ViT with global average pooling (GAP) instead of attention pooling (MAP)."""
    model_args = dict(
        patch_size=16, embed_dim=768, depth=12, num_heads=12, class_token=False, global_pool='avg', fc_norm=False,
    )
    model = _create_vision_transformer(
        'vit_base_patch16_siglip_gap_256', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_base_patch16_siglip_gap_384(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ A SigLIP variant of ViT with global average pooling (GAP) instead of attention pooling (MAP)."""
    model_args = dict(
        patch_size=16, embed_dim=768, depth=12, num_heads=12, class_token=False, global_pool='avg', fc_norm=False,
    )
    model = _create_vision_transformer(
        'vit_base_patch16_siglip_gap_384', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_base_patch16_siglip_gap_512(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ A SigLIP variant of ViT with global average pooling (GAP) instead of attention pooling (MAP)."""
    model_args = dict(
        patch_size=16, embed_dim=768, depth=12, num_heads=12, class_token=False, global_pool='avg', fc_norm=False,
    )
    model = _create_vision_transformer(
        'vit_base_patch16_siglip_gap_512', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_large_patch16_siglip_gap_256(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ A SigLIP variant of ViT with global average pooling (GAP) instead of attention pooling (MAP)."""
    model_args = dict(
        patch_size=16, embed_dim=1024, depth=24, num_heads=16, class_token=False, global_pool='avg', fc_norm=False,
    )
    model = _create_vision_transformer(
        'vit_large_patch16_siglip_gap_256', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_large_patch16_siglip_gap_384(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ A SigLIP variant of ViT with global average pooling (GAP) instead of attention pooling (MAP)."""
    model_args = dict(
        patch_size=16, embed_dim=1024, depth=24, num_heads=16, class_token=False, global_pool='avg', fc_norm=False,
    )
    model = _create_vision_transformer(
        'vit_large_patch16_siglip_gap_384', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_large_patch16_siglip_gap_512(pretrained: bool = False, **kwargs) -> VisionTransformer:
    model_args = dict(
        patch_size=16, embed_dim=1024, depth=24, num_heads=16, class_token=False,
        global_pool='avg', fc_norm=False, act_layer='gelu_tanh'
    )
    model = _create_vision_transformer(
        'vit_large_patch16_siglip_gap_512', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_so400m_patch14_siglip_gap_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ A SigLIP variant of ViT with global average pooling (GAP) instead of attention pooling (MAP)."""
    model_args = dict(
        patch_size=14, embed_dim=1152, depth=27, num_heads=16, mlp_ratio=3.7362,
        class_token=False, global_pool='avg', fc_norm=False,
    )
    model = _create_vision_transformer(
        'vit_so400m_patch14_siglip_gap_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_so400m_patch14_siglip_gap_378(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ A SigLIP variant of ViT with global average pooling (GAP) instead of attention pooling (MAP)."""
    model_args = dict(
        patch_size=14, embed_dim=1152, depth=27, num_heads=16, mlp_ratio=3.7362,
        class_token=False, global_pool='avg', fc_norm=False,
    )
    model = _create_vision_transformer(
        'vit_so400m_patch14_siglip_gap_378', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_so400m_patch14_siglip_gap_384(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ A SigLIP variant of ViT with global average pooling (GAP) instead of attention pooling (MAP)."""
    model_args = dict(
        patch_size=14, embed_dim=1152, depth=27, num_heads=16, mlp_ratio=3.7362,
        class_token=False, global_pool='avg', fc_norm=False,
    )
    model = _create_vision_transformer(
        'vit_so400m_patch14_siglip_gap_384', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_so400m_patch14_siglip_gap_448(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ A SigLIP variant of ViT with global average pooling (GAP) instead of attention pooling (MAP)."""
    model_args = dict(
        patch_size=14, embed_dim=1152, depth=27, num_heads=16, mlp_ratio=3.7362,
        class_token=False, global_pool='avg', fc_norm=False,
    )
    model = _create_vision_transformer(
        'vit_so400m_patch14_siglip_gap_448', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_so400m_patch14_siglip_gap_896(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ A SigLIP variant of ViT with global average pooling (GAP) instead of attention pooling (MAP)."""
    model_args = dict(
        patch_size=14, embed_dim=1152, depth=27, num_heads=16, mlp_ratio=3.7362,
        class_token=False, global_pool='avg', fc_norm=False,
    )
    model = _create_vision_transformer(
        'vit_so400m_patch14_siglip_gap_896', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_so400m_patch16_siglip_gap_256(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ A SigLIP variant of ViT with global average pooling (GAP) instead of attention pooling (MAP)."""
    model_args = dict(
        patch_size=16, embed_dim=1152, depth=27, num_heads=16, mlp_ratio=3.7362,
        class_token=False, global_pool='avg', fc_norm=False, act_layer='gelu_tanh',
    )
    model = _create_vision_transformer(
        'vit_so400m_patch16_siglip_gap_256', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_so400m_patch16_siglip_gap_384(pretrained: bool = False, **kwargs) -> VisionTransformer:
    model_args = dict(
        patch_size=16, embed_dim=1152, depth=27, num_heads=16, mlp_ratio=3.7362, class_token=False,
        global_pool='avg', fc_norm=False, act_layer='gelu_tanh'
    )
    model = _create_vision_transformer(
        'vit_so400m_patch16_siglip_gap_384', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_so400m_patch16_siglip_gap_512(pretrained: bool = False, **kwargs) -> VisionTransformer:
    model_args = dict(
        patch_size=16, embed_dim=1152, depth=27, num_heads=16, mlp_ratio=3.7362, class_token=False,
        global_pool='avg', fc_norm=False, act_layer='gelu_tanh'
    )
    model = _create_vision_transformer(
        'vit_so400m_patch16_siglip_gap_512', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_giantopt_patch16_siglip_gap_256(pretrained: bool = False, **kwargs) -> VisionTransformer:
    model_args = dict(
        patch_size=16, embed_dim=1536, depth=40, num_heads=16, class_token=False,
        global_pool='avg', fc_norm=False, act_layer='gelu_tanh'
    )
    model = _create_vision_transformer(
        'vit_giantopt_patch16_siglip_gap_256', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_giantopt_patch16_siglip_gap_384(pretrained: bool = False, **kwargs) -> VisionTransformer:
    model_args = dict(
        patch_size=16, embed_dim=1536, depth=40, num_heads=16, class_token=False,
        global_pool='avg', fc_norm=False, act_layer='gelu_tanh'
    )
    model = _create_vision_transformer(
        'vit_giantopt_patch16_siglip_gap_384', pretrained=pretrained, **dict(model_args, **kwargs))
    return model



@register_model
def vit_wee_patch16_reg1_gap_256(pretrained: bool = False, **kwargs) -> VisionTransformer:
    model_args = dict(
        patch_size=16, embed_dim=256, depth=14, num_heads=4, init_values=1e-5, mlp_ratio=5,
        class_token=False, no_embed_class=True, reg_tokens=1, global_pool='avg',
    )
    model = _create_vision_transformer(
        'vit_wee_patch16_reg1_gap_256', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_pwee_patch16_reg1_gap_256(pretrained: bool = False, **kwargs) -> VisionTransformer:
    model_args = dict(
        patch_size=16, embed_dim=256, depth=16, num_heads=4, init_values=1e-5, mlp_ratio=5,
        class_token=False, no_embed_class=True, reg_tokens=1, global_pool='avg', block_fn=ParallelScalingBlock,
    )
    model = _create_vision_transformer(
        'vit_pwee_patch16_reg1_gap_256', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_little_patch16_reg1_gap_256(pretrained: bool = False, **kwargs) -> VisionTransformer:
    model_args = dict(
        patch_size=16, embed_dim=320, depth=14, num_heads=5, init_values=1e-5, mlp_ratio=5.6,
        class_token=False, no_embed_class=True, reg_tokens=1, global_pool='avg',
    )
    model = _create_vision_transformer(
        'vit_little_patch16_reg1_gap_256', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_little_patch16_reg4_gap_256(pretrained: bool = False, **kwargs) -> VisionTransformer:
    model_args = dict(
        patch_size=16, embed_dim=320, depth=14, num_heads=5, init_values=1e-5, mlp_ratio=5.6,
        class_token=False, no_embed_class=True, reg_tokens=4, global_pool='avg',
    )
    model = _create_vision_transformer(
        'vit_little_patch16_reg4_gap_256', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_medium_patch16_reg1_gap_256(pretrained: bool = False, **kwargs) -> VisionTransformer:
    model_args = dict(
        patch_size=16, embed_dim=512, depth=12, num_heads=8, init_values=1e-5,
        class_token=False, no_embed_class=True, reg_tokens=1, global_pool='avg',
    )
    model = _create_vision_transformer(
        'vit_medium_patch16_reg1_gap_256', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_medium_patch16_reg4_gap_256(pretrained: bool = False, **kwargs) -> VisionTransformer:
    model_args = dict(
        patch_size=16, embed_dim=512, depth=12, num_heads=8, init_values=1e-5,
        class_token=False, no_embed_class=True, reg_tokens=4, global_pool='avg',
    )
    model = _create_vision_transformer(
        'vit_medium_patch16_reg4_gap_256', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_mediumd_patch16_reg4_gap_256(pretrained: bool = False, **kwargs) -> VisionTransformer:
    model_args = dict(
        patch_size=16, embed_dim=512, depth=20, num_heads=8, init_values=1e-5,
        class_token=False, no_embed_class=True, reg_tokens=4, global_pool='avg',
    )
    model = _create_vision_transformer(
        'vit_mediumd_patch16_reg4_gap_256', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_mediumd_patch16_reg4_gap_384(pretrained: bool = False, **kwargs) -> VisionTransformer:
    model_args = dict(
        patch_size=16, embed_dim=512, depth=20, num_heads=8, init_values=1e-5,
        class_token=False, no_embed_class=True, reg_tokens=4, global_pool='avg',
    )
    model = _create_vision_transformer(
        'vit_mediumd_patch16_reg4_gap_384', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_betwixt_patch16_reg1_gap_256(pretrained: bool = False, **kwargs) -> VisionTransformer:
    model_args = dict(
        patch_size=16, embed_dim=640, depth=12, num_heads=10, init_values=1e-5,
        class_token=False, no_embed_class=True, reg_tokens=1, global_pool='avg',
    )
    model = _create_vision_transformer(
        'vit_betwixt_patch16_reg1_gap_256', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_betwixt_patch16_reg4_gap_256(pretrained: bool = False, **kwargs) -> VisionTransformer:
    model_args = dict(
        patch_size=16, embed_dim=640, depth=12, num_heads=10, init_values=1e-5,
        class_token=False, no_embed_class=True, reg_tokens=4, global_pool='avg',
    )
    model = _create_vision_transformer(
        'vit_betwixt_patch16_reg4_gap_256', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_betwixt_patch16_reg4_gap_384(pretrained: bool = False, **kwargs) -> VisionTransformer:
    model_args = dict(
        patch_size=16, embed_dim=640, depth=12, num_heads=10, init_values=1e-5,
        class_token=False, no_embed_class=True, reg_tokens=4, global_pool='avg',
    )
    model = _create_vision_transformer(
        'vit_betwixt_patch16_reg4_gap_384', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_base_patch16_reg4_gap_256(pretrained: bool = False, **kwargs) -> VisionTransformer:
    model_args = dict(
        patch_size=16, embed_dim=768, depth=12, num_heads=12, class_token=False,
        no_embed_class=True, global_pool='avg', reg_tokens=4,
    )
    model = _create_vision_transformer(
        'vit_base_patch16_reg4_gap_256', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_so150m_patch16_reg4_map_256(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ SO150M (shape optimized, but diff than paper def, optimized for GPU) """
    model_args = dict(
        patch_size=16, embed_dim=896, depth=18, num_heads=14, mlp_ratio=2.572,
        class_token=False, reg_tokens=4, global_pool='map',
    )
    model = _create_vision_transformer(
        'vit_so150m_patch16_reg4_map_256', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_so150m_patch16_reg4_gap_256(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ SO150M (shape optimized, but diff than paper def, optimized for GPU) """
    model_args = dict(
        patch_size=16, embed_dim=896, depth=18, num_heads=14, mlp_ratio=2.572,
        class_token=False, reg_tokens=4, global_pool='avg', fc_norm=False,
    )
    model = _create_vision_transformer(
        'vit_so150m_patch16_reg4_gap_256', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_so150m_patch16_reg4_gap_384(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ SO150M (shape optimized, but diff than paper def, optimized for GPU) """
    model_args = dict(
        patch_size=16, embed_dim=896, depth=18, num_heads=14, mlp_ratio=2.572,
        class_token=False, reg_tokens=4, global_pool='avg', fc_norm=False,
    )
    model = _create_vision_transformer(
        'vit_so150m_patch16_reg4_gap_384', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_so150m2_patch16_reg1_gap_256(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ SO150M v2 (shape optimized, but diff than paper def, optimized for GPU) """
    model_args = dict(
        patch_size=16, embed_dim=832, depth=21, num_heads=13, mlp_ratio=34/13, init_values=1e-5,
        qkv_bias=False, class_token=False, reg_tokens=1, global_pool='avg',
    )
    model = _create_vision_transformer(
        'vit_so150m2_patch16_reg1_gap_256', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_so150m2_patch16_reg1_gap_384(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ SO150M v2 (shape optimized, but diff than paper def, optimized for GPU) """
    model_args = dict(
        patch_size=16, embed_dim=832, depth=21, num_heads=13, mlp_ratio=34/13, init_values=1e-5,
        qkv_bias=False, class_token=False, reg_tokens=1, global_pool='avg',
    )
    model = _create_vision_transformer(
        'vit_so150m2_patch16_reg1_gap_384', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_so150m2_patch16_reg1_gap_448(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ SO150M v2 (shape optimized, but diff than paper def, optimized for GPU) """
    model_args = dict(
        patch_size=16, embed_dim=832, depth=21, num_heads=13, mlp_ratio=34/13, init_values=1e-5,
        qkv_bias=False, class_token=False, reg_tokens=1, global_pool='avg',
    )
    model = _create_vision_transformer(
        'vit_so150m2_patch16_reg1_gap_448', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def vit_intern300m_patch14_448(pretrained: bool = False, **kwargs) -> VisionTransformer:
    model_args = dict(
        patch_size=14, embed_dim=1024, depth=24, num_heads=16,
        init_values=0.1, final_norm=False, dynamic_img_size=True,
    )
    model = _create_vision_transformer(
        'vit_intern300m_patch14_448', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def aimv2_large_patch14_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT Large AIM-v2 model
    """
    model_args = dict(
        patch_size=14, embed_dim=1024, depth=24, num_heads=8, class_token=False, fc_norm=False,
        mlp_ratio=2.75, global_pool='avg', qkv_bias=False, proj_bias=False, act_layer='silu',
        norm_layer=partial(RmsNorm, eps=1e-5), embed_norm_layer=partial(RmsNorm, eps=1e-5), mlp_layer=SwiGLU,
    )
    model = _create_vision_transformer(
        'aimv2_large_patch14_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def aimv2_huge_patch14_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT Huge AIM-v2 model
    """

    model_args = dict(
        patch_size=14, embed_dim=1536, depth=24, num_heads=12, class_token=False, fc_norm=False,
        mlp_ratio=2.6667, global_pool='avg', qkv_bias=False, proj_bias=False, act_layer='silu',
        norm_layer=partial(RmsNorm, eps=1e-5), embed_norm_layer=partial(RmsNorm, eps=1e-5), mlp_layer=SwiGLU,
    )
    model = _create_vision_transformer(
        'aimv2_huge_patch14_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def aimv2_1b_patch14_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT 1B AIM-v2 model
    """
    model_args = dict(
        patch_size=14, embed_dim=2048, depth=24, num_heads=16, class_token=False, fc_norm=False,
        mlp_ratio=2.75, global_pool='avg', qkv_bias=False, proj_bias=False, act_layer='silu',
        norm_layer=partial(RmsNorm, eps=1e-5), embed_norm_layer=partial(RmsNorm, eps=1e-5), mlp_layer=SwiGLU,
    )
    model = _create_vision_transformer(
        'aimv2_1b_patch14_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def aimv2_3b_patch14_224(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT 3B AIM-v2 model
    """
    model_args = dict(
        patch_size=14, embed_dim=3072, depth=24, num_heads=24, class_token=False, fc_norm=False,
        mlp_ratio=2.6667, global_pool='avg', qkv_bias=False, proj_bias=False, act_layer='silu',
        norm_layer=partial(RmsNorm, eps=1e-5), embed_norm_layer=partial(RmsNorm, eps=1e-5), mlp_layer=SwiGLU,
    )
    model = _create_vision_transformer(
        'aimv2_3b_patch14_224', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def aimv2_large_patch14_336(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT Large AIM-v2 model
    """
    model_args = dict(
        patch_size=14, embed_dim=1024, depth=24, num_heads=8, class_token=False, fc_norm=False,
        mlp_ratio=2.75, global_pool='avg', qkv_bias=False, proj_bias=False, act_layer='silu',
        norm_layer=partial(RmsNorm, eps=1e-5), embed_norm_layer=partial(RmsNorm, eps=1e-5), mlp_layer=SwiGLU,
    )
    model = _create_vision_transformer(
        'aimv2_large_patch14_336', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def aimv2_huge_patch14_336(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT Huge AIM-v2 model
    """
    model_args = dict(
        patch_size=14, embed_dim=1536, depth=24, num_heads=12, class_token=False, fc_norm=False,
        mlp_ratio=2.6667, global_pool='avg', qkv_bias=False, proj_bias=False, act_layer='silu',
        norm_layer=partial(RmsNorm, eps=1e-5), embed_norm_layer=partial(RmsNorm, eps=1e-5), mlp_layer=SwiGLU,
    )
    model = _create_vision_transformer(
        'aimv2_huge_patch14_336', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def aimv2_1b_patch14_336(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT 1B AIM-v2 model
    """
    model_args = dict(
        patch_size=14, embed_dim=2048, depth=24, num_heads=16, class_token=False, fc_norm=False,
        mlp_ratio=2.75, global_pool='avg', qkv_bias=False, proj_bias=False, act_layer='silu',
        norm_layer=partial(RmsNorm, eps=1e-5), embed_norm_layer=partial(RmsNorm, eps=1e-5), mlp_layer=SwiGLU,
    )
    model = _create_vision_transformer(
        'aimv2_1b_patch14_336', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def aimv2_3b_patch14_336(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT 3B AIM-v2 model
    """
    model_args = dict(
        patch_size=14, embed_dim=3072, depth=24, num_heads=24, class_token=False, fc_norm=False,
        mlp_ratio=2.6667, global_pool='avg', qkv_bias=False, proj_bias=False, act_layer='silu',
        norm_layer=partial(RmsNorm, eps=1e-5), embed_norm_layer=partial(RmsNorm, eps=1e-5), mlp_layer=SwiGLU,
    )
    model = _create_vision_transformer(
        'aimv2_3b_patch14_336', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def aimv2_large_patch14_448(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT Large AIM-v2 model
    """
    model_args = dict(
        patch_size=14, embed_dim=1024, depth=24, num_heads=8, class_token=False, fc_norm=False,
        mlp_ratio=2.75, global_pool='avg', qkv_bias=False, proj_bias=False, act_layer='silu',
        norm_layer=partial(RmsNorm, eps=1e-5), embed_norm_layer=partial(RmsNorm, eps=1e-5), mlp_layer=SwiGLU,
    )
    model = _create_vision_transformer(
        'aimv2_large_patch14_448', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def aimv2_huge_patch14_448(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT Huge AIM-v2 model
    """
    model_args = dict(
        patch_size=14, embed_dim=1536, depth=24, num_heads=12, class_token=False, fc_norm=False,
        mlp_ratio=2.6667, global_pool='avg', qkv_bias=False, proj_bias=False, act_layer='silu',
        norm_layer=partial(RmsNorm, eps=1e-5), embed_norm_layer=partial(RmsNorm, eps=1e-5), mlp_layer=SwiGLU,
    )
    model = _create_vision_transformer(
        'aimv2_huge_patch14_448', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def aimv2_1b_patch14_448(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT 1B AIM-v2 model
    """
    model_args = dict(
        patch_size=14, embed_dim=2048, depth=24, num_heads=16, class_token=False, fc_norm=False,
        mlp_ratio=2.75, global_pool='avg', qkv_bias=False, proj_bias=False, act_layer='silu',
        norm_layer=partial(RmsNorm, eps=1e-5), embed_norm_layer=partial(RmsNorm, eps=1e-5), mlp_layer=SwiGLU,
    )
    model = _create_vision_transformer(
        'aimv2_1b_patch14_448', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def aimv2_3b_patch14_448(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT 3B AIM-v2 model
    """
    model_args = dict(
        patch_size=14, embed_dim=3072, depth=24, num_heads=24, class_token=False, fc_norm=False,
        mlp_ratio=2.6667, global_pool='avg', qkv_bias=False, proj_bias=False, act_layer='silu',
        norm_layer=partial(RmsNorm, eps=1e-5), embed_norm_layer=partial(RmsNorm, eps=1e-5), mlp_layer=SwiGLU,
    )
    model = _create_vision_transformer(
        'aimv2_3b_patch14_448', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def test_vit(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT Test
    """
    model_args = dict(patch_size=16, embed_dim=64, depth=6, num_heads=2, mlp_ratio=3, dynamic_img_size=True)
    model = _create_vision_transformer('test_vit', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def test_vit2(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT Test
    """
    model_args = dict(
        patch_size=16, embed_dim=64, depth=8, num_heads=2, mlp_ratio=3,
        class_token=False, reg_tokens=1, global_pool='avg', init_values=1e-5, dynamic_img_size=True)
    model = _create_vision_transformer('test_vit2', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def test_vit3(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT Test
    """
    model_args = dict(
        patch_size=16, embed_dim=96, depth=9, num_heads=3, mlp_ratio=2,
        class_token=False, reg_tokens=1, global_pool='map', init_values=1e-5)
    model = _create_vision_transformer('test_vit3', pretrained=pretrained, **dict(model_args, **kwargs))
    return model


@register_model
def test_vit4(pretrained: bool = False, **kwargs) -> VisionTransformer:
    """ ViT Test
    """
    model_args = dict(
        patch_size=16, embed_dim=96, depth=9, num_heads=3, mlp_ratio=3,
        class_token=False, reg_tokens=1, global_pool='avg', init_values=1e-5, dynamic_img_size=True,
        norm_layer='rmsnorm',
    )
    model = _create_vision_transformer('test_vit4', pretrained=pretrained, **dict(model_args, **kwargs))
    return model

@register_model
def test_vit_attention(pretrained: bool = False, **kwargs) -> VisionTransformer_attn:
    """ ViT Test
    """
    model_args = dict(
        patch_size=16, embed_dim=96, depth=9, num_heads=3, mlp_ratio=3,
        class_token=False, reg_tokens=1, global_pool='avg', init_values=1e-5, dynamic_img_size=True,
        norm_layer='rmsnorm',
    )
    model = _create_vision_transformer('test_vit_attention', pretrained=pretrained, **dict(model_args, **kwargs))
    return model

register_model_deprecations(__name__, {
    'vit_tiny_patch16_224_in21k': 'vit_tiny_patch16_224.augreg_in21k',
    'vit_small_patch32_224_in21k': 'vit_small_patch32_224.augreg_in21k',
    'vit_small_patch16_224_in21k': 'vit_small_patch16_224.augreg_in21k',
    'vit_base_patch32_224_in21k': 'vit_base_patch32_224.augreg_in21k',
    'vit_base_patch16_224_in21k': 'vit_base_patch16_224.augreg_in21k',
    'vit_base_patch8_224_in21k': 'vit_base_patch8_224.augreg_in21k',
    'vit_large_patch32_224_in21k': 'vit_large_patch32_224.orig_in21k',
    'vit_large_patch16_224_in21k': 'vit_large_patch16_224.augreg_in21k',
    'vit_huge_patch14_224_in21k': 'vit_huge_patch14_224.orig_in21k',
    'vit_base_patch32_224_sam': 'vit_base_patch32_224.sam',
    'vit_base_patch16_224_sam': 'vit_base_patch16_224.sam',
    'vit_small_patch16_224_dino': 'vit_small_patch16_224.dino',
    'vit_small_patch8_224_dino': 'vit_small_patch8_224.dino',
    'vit_base_patch16_224_dino': 'vit_base_patch16_224.dino',
    'vit_base_patch8_224_dino': 'vit_base_patch8_224.dino',
    'vit_base_patch16_224_miil_in21k': 'vit_base_patch16_224_miil.in21k',
    'vit_base_patch32_224_clip_laion2b': 'vit_base_patch32_clip_224.laion2b',
    'vit_large_patch14_224_clip_laion2b': 'vit_large_patch14_clip_224.laion2b',
    'vit_huge_patch14_224_clip_laion2b': 'vit_huge_patch14_clip_224.laion2b',
    'vit_giant_patch14_224_clip_laion2b': 'vit_giant_patch14_clip_224.laion2b',
})

if __name__ == "__main__":
    model = test_vit_attention()
    print(model)