If you like our project, please give us a star โญ on GitHub for latest update.
๐ฐ News
[2024.01.27]
๐๐๐ Our
MoE-LLaVA
is released! A sparse model with 3B parameters outperformed the dense model with 7B parameters.
[2024.01.16]
๐ฅ๐ฅ๐ฅ Our LanguageBind has been accepted at ICLR 2024! We earn the score of 6(3)8(6)6(6)6(6)
here
.
[2023.12.15]
๐ช๐ช๐ช We expand the ๐ฅ๐ฅ๐ฅ VIDAL dataset and now have
10M video-text data
. We launch
LanguageBind_Video 1.5
, checking our
model zoo
.
[2023.12.10]
We expand the ๐ฅ๐ฅ๐ฅ VIDAL dataset and now have
10M depth and 10M thermal data
. We are in the process of uploading thermal and depth data on
Hugging Face
and expect the whole process to last 1-2 months.
[2023.11.27]
๐ฅ๐ฅ๐ฅ We have updated our
paper
with emergency zero-shot results., checking our โจ
results
.
[2023.11.26]
๐ฅ๐ฅ๐ฅ We have open-sourced all textual sources and corresponding YouTube IDs
here
.
[2023.11.26]
๐ฃ๐ฃ๐ฃ We have open-sourced fully fine-tuned
Video & Audio
, achieving improved performance once again, checking our
model zoo
.
[2023.11.22]
We are about to release a fully fine-tuned version, and the
HUGE
version is currently undergoing training.
[2023.11.21]
๐ฅ We are releasing sample data in
DATASETS.md
so that individuals who are interested can further modify the code to train it on their own data.
[2023.11.20]
๐๐๐
Video-LLaVA
builds a large visual-language model to achieve ๐SOTA performances based on LanguageBind encoders.
[2023.10.04]
Code and
demo
are available now! Welcome to
watch
๐ this repository for the latest updates.
๐ฎ Highlights
๐ก High performance, but NO intermediate modality required
LanguageBind is a
language-centric
multimodal pretraining approach,
taking the language as the bind across different modalities
because the language modality is well-explored and contains rich semantics.
The following first figure shows the architecture of LanguageBind. LanguageBind can be easily extended to segmentation, detection tasks, and potentially to unlimited modalities.
โก๏ธ A multimodal, fully aligned and voluminous dataset
We propose
VIDAL-10M
,
10 Million data
with
V
ideo,
I
nfrared,
D
epth,
A
udio and their corresponding
L
anguage, which greatly expands the data beyond visual modalities.
The second figure shows our proposed VIDAL-10M dataset, which includes five modalities: video, infrared, depth, audio, and language.
๐ฅ Multi-view enhanced description for training
We make multi-view enhancements to language. We produce multi-view description that combines
meta-data
,
spatial
, and
temporal
to greatly enhance the semantic information of the language. In addition we further
enhance the language with ChatGPT
to create a good semantic space for each modality aligned language.
๐ค Demo
Local demo.
Highly recommend trying out our web demo, which incorporates all features currently supported by LanguageBind.
python gradio_app.py
Online demo.
We provide the
online demo
in Huggingface Spaces. In this demo, you can calculate the similarity of modalities to language, such as audio-to-language, video-to-language, and depth-to-image.
The names in the table represent different encoder models. For example,
LanguageBind/LanguageBind_Video_FT
represents the fully fine-tuned version, while
LanguageBind/LanguageBind_Video
represents the LoRA-tuned version.
You can freely replace them in the recommended
API usage
. We recommend using the fully fine-tuned version, as it offers stronger performance.
We open source all modalities preprocessing code.
If you want to load the model (e.g.
LanguageBind/LanguageBind_Thermal
) from the model hub on Huggingface or on local, you can use the following code snippets!
Inference for Multi-modal Binding
We have provided some sample datasets in
assets
to quickly see how languagebind works.
import torch
from languagebind import LanguageBind, to_device, transform_dict, LanguageBindImageTokenizer
if __name__ == '__main__':
device = 'cuda:0'
device = torch.device(device)
clip_type = {
'video': 'LanguageBind_Video_FT', # also LanguageBind_Video'audio': 'LanguageBind_Audio_FT', # also LanguageBind_Audio'thermal': 'LanguageBind_Thermal',
'image': 'LanguageBind_Image',
'depth': 'LanguageBind_Depth',
}
model = LanguageBind(clip_type=clip_type, cache_dir='./cache_dir')
model = model.to(device)
model.eval()
pretrained_ckpt = f'lb203/LanguageBind_Image'
tokenizer = LanguageBindImageTokenizer.from_pretrained(pretrained_ckpt, cache_dir='./cache_dir/tokenizer_cache_dir')
modality_transform = {c: transform_dict[c](model.modality_config[c]) for c in clip_type.keys()}
image = ['assets/image/0.jpg', 'assets/image/1.jpg']
audio = ['assets/audio/0.wav', 'assets/audio/1.wav']
video = ['assets/video/0.mp4', 'assets/video/1.mp4']
depth = ['assets/depth/0.png', 'assets/depth/1.png']
thermal = ['assets/thermal/0.jpg', 'assets/thermal/1.jpg']
language = ["Training a parakeet to climb up a ladder.", 'A lion climbing a tree to catch a monkey.']
inputs = {
'image': to_device(modality_transform['image'](image), device),
'video': to_device(modality_transform['video'](video), device),
'audio': to_device(modality_transform['audio'](audio), device),
'depth': to_device(modality_transform['depth'](depth), device),
'thermal': to_device(modality_transform['thermal'](thermal), device),
}
inputs['language'] = to_device(tokenizer(language, max_length=77, padding='max_length',
truncation=True, return_tensors='pt'), device)
with torch.no_grad():
embeddings = model(inputs)
print("Video x Text: \n",
torch.softmax(embeddings['video'] @ embeddings['language'].T, dim=-1).detach().cpu().numpy())
print("Image x Text: \n",
torch.softmax(embeddings['image'] @ embeddings['language'].T, dim=-1).detach().cpu().numpy())
print("Depth x Text: \n",
torch.softmax(embeddings['depth'] @ embeddings['language'].T, dim=-1).detach().cpu().numpy())
print("Audio x Text: \n",
torch.softmax(embeddings['audio'] @ embeddings['language'].T, dim=-1).detach().cpu().numpy())
print("Thermal x Text: \n",
torch.softmax(embeddings['thermal'] @ embeddings['language'].T, dim=-1).detach().cpu().numpy())
Then returns the following result.
Video x Text:
[[9.9989331e-01 1.0667283e-04]
[1.3255903e-03 9.9867439e-01]]
Image x Text:
[[9.9990666e-01 9.3292067e-05]
[4.6132666e-08 1.0000000e+00]]
Depth x Text:
[[0.9954276 0.00457235]
[0.12042473 0.8795753 ]]
Audio x Text:
[[0.97634876 0.02365119]
[0.02917843 0.97082156]]
Thermal x Text:
[[0.9482511 0.0517489 ]
[0.48746133 0.5125386 ]]
Emergency zero-shot
Since languagebind binds each modality together, we also found the
emergency zero-shot
. It's very simple to use.
print("Video x Audio: \n", torch.softmax(embeddings['video'] @ embeddings['audio'].T, dim=-1).detach().cpu().numpy())
print("Image x Depth: \n", torch.softmax(embeddings['image'] @ embeddings['depth'].T, dim=-1).detach().cpu().numpy())
print("Image x Thermal: \n", torch.softmax(embeddings['image'] @ embeddings['thermal'].T, dim=-1).detach().cpu().numpy())
Then, you will get:
Video x Audio:
[[1.0000000e+00 0.0000000e+00]
[3.1150486e-32 1.0000000e+00]]
Image x Depth:
[[1. 0.]
[0. 1.]]
Image x Thermal:
[[1. 0.]
[0. 1.]]
Different branches for X-Language task
Additionally, LanguageBind can be
disassembled into different branches
to handle different tasks. Note that we do not train Image, which just initialize from OpenCLIP.
Thermal
import torch
from languagebind import LanguageBindThermal, LanguageBindThermalTokenizer, LanguageBindThermalProcessor
pretrained_ckpt = 'LanguageBind/LanguageBind_Thermal'
model = LanguageBindThermal.from_pretrained(pretrained_ckpt, cache_dir='./cache_dir')
tokenizer = LanguageBindThermalTokenizer.from_pretrained(pretrained_ckpt, cache_dir='./cache_dir')
thermal_process = LanguageBindThermalProcessor(model.config, tokenizer)
model.eval()
data = thermal_process([r"your/thermal.jpg"], ['your text'], return_tensors='pt')
with torch.no_grad():
out = model(**data)
print(out.text_embeds @ out.image_embeds.T)
Depth
import torch
from languagebind import LanguageBindDepth, LanguageBindDepthTokenizer, LanguageBindDepthProcessor
pretrained_ckpt = 'LanguageBind/LanguageBind_Depth'
model = LanguageBindDepth.from_pretrained(pretrained_ckpt, cache_dir='./cache_dir')
tokenizer = LanguageBindDepthTokenizer.from_pretrained(pretrained_ckpt, cache_dir='./cache_dir')
depth_process = LanguageBindDepthProcessor(model.config, tokenizer)
model.eval()
data = depth_process([r"your/depth.png"], ['your text.'], return_tensors='pt')
with torch.no_grad():
out = model(**data)
print(out.text_embeds @ out.image_embeds.T)
Video
import torch
from languagebind import LanguageBindVideo, LanguageBindVideoTokenizer, LanguageBindVideoProcessor
pretrained_ckpt = 'LanguageBind/LanguageBind_Video_FT'# also 'LanguageBind/LanguageBind_Video'
model = LanguageBindVideo.from_pretrained(pretrained_ckpt, cache_dir='./cache_dir')
tokenizer = LanguageBindVideoTokenizer.from_pretrained(pretrained_ckpt, cache_dir='./cache_dir')
video_process = LanguageBindVideoProcessor(model.config, tokenizer)
model.eval()
data = video_process(["your/video.mp4"], ['your text.'], return_tensors='pt')
with torch.no_grad():
out = model(**data)
print(out.text_embeds @ out.image_embeds.T)
Audio
import torch
from languagebind import LanguageBindAudio, LanguageBindAudioTokenizer, LanguageBindAudioProcessor
pretrained_ckpt = 'LanguageBind/LanguageBind_Audio_FT'# also 'LanguageBind/LanguageBind_Audio'
model = LanguageBindAudio.from_pretrained(pretrained_ckpt, cache_dir='./cache_dir')
tokenizer = LanguageBindAudioTokenizer.from_pretrained(pretrained_ckpt, cache_dir='./cache_dir')
audio_process = LanguageBindAudioProcessor(model.config, tokenizer)
model.eval()
data = audio_process([r"your/audio.wav"], ['your audio.'], return_tensors='pt')
with torch.no_grad():
out = model(**data)
print(out.text_embeds @ out.image_embeds.T)
Image
Note that our image encoder is the same as OpenCLIP.
Not
as fine-tuned as other modalities.
import torch
from languagebind import LanguageBindImage, LanguageBindImageTokenizer, LanguageBindImageProcessor
pretrained_ckpt = 'LanguageBind/LanguageBind_Image'
model = LanguageBindImage.from_pretrained(pretrained_ckpt, cache_dir='./cache_dir')
tokenizer = LanguageBindImageTokenizer.from_pretrained(pretrained_ckpt, cache_dir='./cache_dir')
image_process = LanguageBindImageProcessor(model.config, tokenizer)
model.eval()
data = image_process([r"your/image.jpg"], ['your text.'], return_tensors='pt')
with torch.no_grad():
out = model(**data)
print(out.text_embeds @ out.image_embeds.T)
CLIP4Clip
An open source Video-Text retrieval framework.
sRGB-TIR
An open source framework to generate infrared (thermal) images.
GLPN
An open source framework to generate depth images.
๐ License
The majority of this project is released under the MIT license as found in the
LICENSE
file.
The dataset of this project is released under the CC-BY-NC 4.0 license as found in the
DATASET_LICENSE
file.
โ๏ธ Citation
If you find our paper and code useful in your research, please consider giving a star :star: and citation :pencil:.
@misc{zhu2023languagebind,
title={LanguageBind: Extending Video-Language Pretraining to N-modality by Language-based Semantic Alignment},
author={Bin Zhu and Bin Lin and Munan Ning and Yang Yan and Jiaxi Cui and Wang HongFa and Yatian Pang and Wenhao Jiang and Junwu Zhang and Zongwei Li and Cai Wan Zhang and Zhifeng Li and Wei Liu and Li Yuan},
year={2023},
eprint={2310.01852},
archivePrefix={arXiv},
primaryClass={cs.CV}
}
โจ Star History
๐ค Contributors
Runs of LanguageBind LanguageBind_Audio on huggingface.co
513
Total runs
-109
24-hour runs
-561
3-day runs
-741
7-day runs
-4.4K
30-day runs
More Information About LanguageBind_Audio huggingface.co Model
LanguageBind_Audio huggingface.co is an AI model on huggingface.co that provides LanguageBind_Audio's model effect (), which can be used instantly with this LanguageBind LanguageBind_Audio model. huggingface.co supports a free trial of the LanguageBind_Audio model, and also provides paid use of the LanguageBind_Audio. Support call LanguageBind_Audio model through api, including Node.js, Python, http.
LanguageBind_Audio huggingface.co is an online trial and call api platform, which integrates LanguageBind_Audio's modeling effects, including api services, and provides a free online trial of LanguageBind_Audio, you can try LanguageBind_Audio online for free by clicking the link below.
LanguageBind LanguageBind_Audio online free url in huggingface.co:
LanguageBind_Audio is an open source model from GitHub that offers a free installation service, and any user can find LanguageBind_Audio on GitHub to install. At the same time, huggingface.co provides the effect of LanguageBind_Audio install, users can directly use LanguageBind_Audio installed effect in huggingface.co for debugging and trial. It also supports api for free installation.