We use Linear Attention mechanisms to replace quadratic attention in ViT for image classification. We show that models using linear attention and CNN embedding layers need less parameters and low GPU requirements for achieving good accuracy. These improvements can be used to democratize the use of transformers by practitioners who are limited by data and GPU.
Hybrid ViX uses convolutional layers instead of linear layer for generating embeddings
Rotary Postion Embedding (RoPE) is also used in our models instead of 1D learnable position embeddings
Nomenclature: We replace the X in ViX with the starting alphabet of the attention mechanism used Eg. When we use Performer in ViX, we replace the X with P, calling it ViP (Vision Performer)
'Hybrid' prefix is used in models which uses convolutional layers instead of linear embeddding layer.
We have added RoPE in the title of models which used Rotary Postion Embedding
The code for using all for these models for classification of CIFAR 10/Tiny ImageNet dataset is provided
We have adapted the codes for ViT and linear transformers from @lucidrains
$ pip install vision-xformer
import torch, vision_xformer
from vision_xformer import ViN
model = ViN(
image_size = 32,
patch_size = 1,
num_classes = 10,
dim = 128,
depth = 4,
heads = 4,
mlp_dim = 256,
num_landmarks = 256,
pool = 'cls',
channels = 3,
dropout = 0.,
emb_dropout = 0.
dim_head = 32
)
img = torch.randn(1, 3, 32, 32)
preds = model(img) # (1, 10)
import torch, vision_xformer
from vision_xformer import ViP
model = ViP(
image_size = 32,
patch_size = 1,
num_classes = 10,
dim = 128,
depth = 4,
heads = 4,
mlp_dim = 256,
dropout = 0.25,
dim_head = 32
)
img = torch.randn(1, 3, 32, 32)
preds = model(img) # (1, 10)
import torch, vision_xformer
from vision_xformer import ViL
model = ViL(
image_size = 32,
patch_size = 1,
num_classes = 10,
dim = 128,
depth = 4,
heads = 4,
mlp_dim = 256,
dropout = 0.25,
dim_head = 32
)
img = torch.randn(1, 3, 32, 32)
preds = model(img) # (1, 10)
image_size: int.patch_size: int.image_size must be divisible by patch_size.num_classes: int.dim: int.depth: int.heads: int.mlp_dim: int.num_landmarks: int.
Number of landmark points. Use one-fourth the number of patches.pool: str.
Pool type must be either 'cls' (cls token) or 'mean' (mean pooling)dropout: float between [0, 1], default 0..dim_head: int.More information about these models can be obtained from our paper : ArXiv Paper, WACV 2022 Paper
If you wish to cite this, please use:
@misc{jeevan2021vision,
title={Vision Xformers: Efficient Attention for Image Classification},
author={Pranav Jeevan and Amit Sethi},
year={2021},
eprint={2107.02239},
archivePrefix={arXiv},
primaryClass={cs.CV}
}
@InProceedings{Jeevan_2022_WACV,
author = {Jeevan, Pranav and Sethi, Amit},
title = {Resource-Efficient Hybrid X-Formers for Vision},
booktitle = {Proceedings of the IEEE/CVF Winter Conference on Applications of Computer Vision (WACV)},
month = {January},
year = {2022},
pages = {2982-2990}
}
FAQs
Vision Xformers
We found that vision-xformer demonstrated a healthy version release cadence and project activity because the last version was released less than a year ago. It has 1 open source maintainer collaborating on the project.
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