--- license: apache-2.0 --- # Chinese-CLIP-ViT-Large-Patch14 ## Introduction This is the large-version of the Chinese CLIP, with ViT-L/14 as the image encoder and RoBERTa-wwm-base as the text encoder. Chinese CLIP is a simple implementation of CLIP on a large-scale dataset of around 200 million Chinese image-text pairs. For more details, please refer to our technical report https://arxiv.org/abs/2211.01335 and our official github repo https://github.com/OFA-Sys/Chinese-CLIP ## Use with the official API We provide a simple code snippet to show how to use the API for Chinese-CLIP. For starters, please install cn_clip: ```bash # to install the latest stable release pip install cn_clip # or install from source code cd Chinese-CLIP pip install -e . ``` After installation, use Chinese CLIP as shown below: ```python import torch from PIL import Image import cn_clip.clip as clip from cn_clip.clip import load_from_name, available_models print("Available models:", available_models()) # Available models: ['ViT-B-16', 'ViT-L-14', 'ViT-L-14-336', 'ViT-H-14', 'RN50'] device = "cuda" if torch.cuda.is_available() else "cpu" model, preprocess = load_from_name("ViT-L-14", device=device, download_root='./') model.eval() image = preprocess(Image.open("examples/pokemon.jpeg")).unsqueeze(0).to(device) text = clip.tokenize(["杰尼龟", "妙蛙种子", "小火龙", "皮卡丘"]).to(device) with torch.no_grad(): image_features = model.encode_image(image) text_features = model.encode_text(text) # Normalize the features. Please use the normalized features for downstream tasks. image_features /= image_features.norm(dim=-1, keepdim=True) text_features /= text_features.norm(dim=-1, keepdim=True) logits_per_image, logits_per_text = model.get_similarity(image, text) probs = logits_per_image.softmax(dim=-1).cpu().numpy() print("Label probs:", probs) # [[1.268734e-03 5.436878e-02 6.795761e-04 9.436829e-01]] ``` However, if you are not satisfied with only using the API, feel free to check our github repo https://github.com/OFA-Sys/Chinese-CLIP for more details about training and inference.

## Results **MUGE Text-to-Image Retrieval**:

Setup	Zero-shot				Finetune
Metric	R@1	R@5	R@10	MR	R@1	R@5	R@10	MR
Wukong	42.7	69.0	78.0	63.2	52.7	77.9	85.6	72.1
R2D2	49.5	75.7	83.2	69.5	60.1	82.9	89.4	77.5
CN-CLIP	63.0	84.1	89.2	78.8	68.9	88.7	93.1	83.6

**Flickr30K-CN Retrieval**:

Task	Text-to-Image						Image-to-Text
Setup	Zero-shot			Finetune			Zero-shot			Finetune
Metric	R@1	R@5	R@10	R@1	R@5	R@10	R@1	R@5	R@10	R@1	R@5	R@10
Wukong	51.7	78.9	86.3	77.4	94.5	97.0	76.1	94.8	97.5	92.7	99.1	99.6
R2D2	60.9	86.8	92.7	84.4	96.7	98.4	77.6	96.7	98.9	95.6	99.8	100.0
CN-CLIP	71.2	91.4	95.5	83.8	96.9	98.6	81.6	97.5	98.8	95.3	99.7	100.0

**COCO-CN Retrieval**:

Task	Text-to-Image						Image-to-Text
Setup	Zero-shot			Finetune			Zero-shot			Finetune
Metric	R@1	R@5	R@10	R@1	R@5	R@10	R@1	R@5	R@10	R@1	R@5	R@10
Wukong	53.4	80.2	90.1	74.0	94.4	98.1	55.2	81.0	90.6	73.3	94.0	98.0
R2D2	56.4	85.0	93.1	79.1	96.5	98.9	63.3	89.3	95.7	79.3	97.1	98.7
CN-CLIP	69.2	89.9	96.1	81.5	96.9	99.1	63.0	86.6	92.9	83.5	97.3	99.2

**Zero-shot Image Classification**:

Task	CIFAR10	CIFAR100	DTD	EuroSAT	FER	FGVC	KITTI	MNIST	PC	VOC
GIT	88.5	61.1	42.9	43.4	41.4	6.7	22.1	68.9	50.0	80.2
ALIGN	94.9	76.8	66.1	52.1	50.8	25.0	41.2	74.0	55.2	83.0
CLIP	94.9	77.0	56.0	63.0	48.3	33.3	11.5	79.0	62.3	84.0
Wukong	95.4	77.1	40.9	50.3	-	-	-	-	-	-
CN-CLIP	96.0	79.7	51.2	52.0	55.1	26.2	49.9	79.4	63.5	84.9

## Citation If you find Chinese CLIP helpful, feel free to cite our paper. Thanks for your support! ``` @article{chinese-clip, title={Chinese CLIP: Contrastive Vision-Language Pretraining in Chinese}, author={Yang, An and Pan, Junshu and Lin, Junyang and Men, Rui and Zhang, Yichang and Zhou, Jingren and Zhou, Chang}, journal={arXiv preprint arXiv:2211.01335}, year={2022} } ```