This repository is the official implementation of AlphaCLIP
Alpha-CLIP: A CLIP Model Focusing on Wherever You Want
Zeyi Sun*,
Ye Fang*,
Tong Wu,
Pan Zhang,
Yuhang Zang,
Shu Kong,
Yuanjun Xiong,
Dahua Lin,
Jiaqi Wang
*Equal Contribution
Demo Alpha-CLIP
with Stable Diffusion
:
π [2024/7/19] We have launched training code as well as data MaskImageNet!
π [2024/3/4] CLIP-L/14@336px finetuned on GRIT-20M is available, checkout model-zoo!
π [2024/2/27] Our paper Alpha-CLIP is accepted by CVPR'24!
π [2024/1/2] Zero-shot testing code for Imagenet-S Classification and Referring Expression Comprehension are released!
π [2023/12/27] Web demo and local demo of Alpha-CLIP with LLaVA are released!
π [2023/12/7] Web demo and local demo of Alpha-CLIP with Stable Diffusion are released!
π [2023/12/7] The paper and project page are released!
- π₯ 3.93% improved zero-shot ImageNet classification accuracy when providing foreground alpha-map.
- π₯ Plug-in and play with region focus in any work that use CLIP vision encoder.
- π₯ A strong visual encoder as versatile tool when foreground mask is available.
- Training code for Alpha-CLIP and MaskImageNet data.
- Evaluation code for Alpha-CLIP
- Zero-shot evaluation for Imagenet-S Classification and REC tasks.
- Web demo and local demo of Alpha-CLIP with LLaVA
- Web demo and local demo of Alpha-CLIP with Stable Diffusion
- Usage example notebook of Alpha-CLIP
- Checkpoints of Alpha-CLIP
our model is based on CLIP, please first prepare environment for CLIP, then directly install Alpha-CLIP.
pip install -e .
install loralib
pip install loralib
Download model from model-zoo and place it under checkpoints
.
import alpha_clip
alpha_clip.load("ViT-B/16", alpha_vision_ckpt_pth="checkpoints/clip_b16_grit1m_fultune_8xe.pth", device="cpu"),
image_features = model.visual(image, alpha)
alpha
need to be normalized via transforms when using binary_mask
in (0, 1)
mask_transform = transforms.Compose([
transforms.ToTensor(),
transforms.Resize((224, 224)),
transforms.Normalize(0.5, 0.26)
])
alpha = mask_transform(binary_mask * 255)
Training
Please refer to here
Zero-shot Prediction
import torch
import alpha_clip
from PIL import Image
import numpy as np
from torchvision import transforms
# load model and prepare mask transform
device = "cuda" if torch.cuda.is_available() else "cpu"
model, preprocess = alpha_clip.load("ViT-L/14", alpha_vision_ckpt_pth="./checkpoints/clip_l14_grit20m_fultune_2xe.pth", device=device) # change to your own ckpt path
mask_transform = transforms.Compose([
transforms.ToTensor(),
transforms.Resize((224, 224)), # change to (336,336) when using ViT-L/14@336px
transforms.Normalize(0.5, 0.26)
])
# prepare image and mask
img_pth = './examples/image.png'
mask_pth = './examples/dress_mask.png' # image-type mask
image = Image.open(img_pth).convert('RGB')
mask = np.array(Image.open(mask_pth))
# get `binary_mask` array (2-dimensional bool matrix)
if len(mask.shape) == 2: binary_mask = (mask == 255)
if len(mask.shape) == 3: binary_mask = (mask[:, :, 0] == 255)
alpha = mask_transform((binary_mask * 255).astype(np.uint8))
alpha = alpha.half().cuda().unsqueeze(dim=0)
# calculate image and text features
image = preprocess(image).unsqueeze(0).half().to(device)
text = alpha_clip.tokenize(["a goegously dressed woman", "a purple sleeveness dress", "bouquet of pink flowers"]).to(device)
with torch.no_grad():
image_features = model.visual(image, alpha)
text_features = model.encode_text(text)
# normalize
image_features = image_features / image_features.norm(dim=-1, keepdim=True)
text_features = text_features / text_features.norm(dim=-1, keepdim=True)
## print the result
similarity = (100.0 * image_features @ text_features.T).softmax(dim=-1)
print("Label probs:", similarity.cpu().numpy()) # prints: [[9.388e-05 9.995e-01 2.415e-04]]
Note: Using .half()
for tensor or .float()
for model to maintain type consistency.
More usage examples are availableοΌ
- Visualization of attention map: notebook
- Alpha-CLIP used in BLIP-Diffusion: notebook
- Alpha-CLIP used in SD_ImageVar: demo
- Alpha-CLIP used in LLaVA-1.5: code demo
- Alpha-CLIP evaluation code for Image Recognition: code
- CLIP: The codebase we built upon. Thanks for their wonderful work.
- LAVIS: The amazing open-sourced multimodality learning codebase, where we test Alpha-CLIP in BLIP-2 and BLIP-Diffusion.
- Point-E: Wonderful point-cloud generation model, where we test Alpha-CLIP for 3D generation task.
- LLaVA: Wounderful MLLM that use CLIP as visual bacbone where we test the effectiveness of Alpha-CLIP.
If you find our work helpful for your research, please consider giving a star β and citation π
@misc{sun2023alphaclip,
title={Alpha-CLIP: A CLIP Model Focusing on Wherever You Want},
author={Zeyi Sun and Ye Fang and Tong Wu and Pan Zhang and Yuhang Zang and Shu Kong and Yuanjun Xiong and Dahua Lin and Jiaqi Wang},
year={2023},
eprint={2312.03818},
archivePrefix={arXiv},
primaryClass={cs.CV}
}
Usage and License Notices: The data and checkpoint is intended and licensed for research use only. They are also restricted to uses that follow the license agreement of CLIP. The dataset is CC BY NC 4.0 (allowing only non-commercial use) and models trained using the dataset should not be used outside of research purposes.