An unsupervised and free tool for image and video dataset analysis.
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About us
π Introducing VL Profiler! π We're excited to announce our new cloud product, VL Profiler. It's designed to help you gain deeper insights and enhance your productivity while using fastdup. With VL Profiler, you can visualize your data, track changes over time, and much more.
π Check out VL Profiler here π
π Note: VL Profiler is a separate commercial product developed by the same team behind fastdup. Our goal with VL Profiler is to provide additional value to our users while continuing to support and maintain fastdup as a free, open-source project. We'd love for you to give VL Profiler a try and share your feedback with us! Sign-up now, it's free.
fastdup handles both labeled and unlabeled image/video datasets, helping you to discover potential quality concerns while providing extra functionalities.
With a plethora of data visualization/profiling tools available, what sets fastdup apart? Here are the top benefits of fastdup:
- Quality: High-quality analysis to remove duplicates/near-duplicates, anomalies, mislabels, broken images, and poor-quality images.
- Scale: Handles 400M images on a single CPU machine. Enterprise version scales to billions of images.
- Speed: Highly optimized C++ engine runs efficiently even on low-resource CPU machines.
- Privacy: Runs locally or on your cloud infrastructure. Your data stays where it is.
- Ease of use: Works on labeled or unlabeled datasets, images, or videos. Get started with just 3 lines of code.
Supported
Pythonversions:
Supported operating systems:
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Option 1 - Install fastdup via PyPI:
# upgrade pip to its latest version
pip install -U pip
# install fastdup
pip install fastdup
# Alternatively, use explicit python version (XX)
python3.XX -m pip install fastdup Option 2 - Install fastdup via an Ubuntu 20.04 Docker image on DockerHub:
docker pull karpadoni/fastdup-ubuntu-20.04Detailed installation instructions and common errors here.
Run fastdup with only 3 lines of code.
Visualize the result.
In short, you'll need 3 lines of code to run fastdup:
import fastdup
fd = fastdup.create(input_dir="IMAGE_FOLDER/")
fd.run()And 5 lines of code to visualize issues:
fd.vis.duplicates_gallery() # create a visual gallery of duplicates
fd.vis.outliers_gallery() # create a visual gallery of anomalies
fd.vis.component_gallery() # create a visualization of connected components
fd.vis.stats_gallery() # create a visualization of images statistics (e.g. blur)
fd.vis.similarity_gallery() # create a gallery of similar imagesView the API docs here.
Learn the basics of fastdup through interactive examples. View the notebooks on GitHub or nbviewer. Even better, run them on Google Colab or Kaggle, for free.
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β‘ Quickstart: Learn how to install fastdup, load a dataset and analyze it for potential issues such as duplicates/near-duplicates, broken images, outliers, dark/bright/blurry images, and view visually similar image clusters. If you're new, start here!
π Dataset: Oxford-IIIT Pet. |
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π§Ή Clean Image Folder: Learn how to analyze and clean a folder of images from potential issues and export a list of problematic files for further action. If you have an unorganized folder of images, this is a good place to start.
π Dataset: Food-101. |
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πΌ Analyze Image Classification Dataset: Learn how to load a labeled image classification dataset and analyze for potential issues. If you have labeled ImageNet-style folder structure, have a go!
π Dataset: Imagenette. |
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π Analyze Object Detection Dataset: Learn how to load bounding box annotations for object detection and analyze for potential issues. If you have a COCO-style labeled object detection dataset, give this example a try.
π Dataset: COCO. |
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Note: We're happy to announce new features are out from beta testing and now available to the public, completely free of charge! We invite you to try them out and provide us with your valuable feedback!
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π€ Analyze Hugging Face Datasets: Load and analyze datasets from Hugging Face Datasets. Perfect if you already have a dataset hosted on Hugging Face hub. |
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π¦ DINOv2 Embeddings: Extract feature vectors of your images using DINOv2 model. Runs on CPU. |
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β‘οΈ Use Your Own Feature Vectors: Read fastdup generated feature vectors in Python and use them for downstream processing, or run fastdup on your feature vectors. |
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π Face Detection in Videos: Use fastdup with a face detection model to detect faces from videos and analyze the cropped faces for potential issues such as duplicates, near-duplicates, outliers, bright/dark/blurry faces. |
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π€ Object Detection in Videos: Use fastdup with a pre-trained YOLOv5 model to detect and analyze objects for potential issues such as duplicates, near-duplicates, outliers, bright/dark/blurry objects. |
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π’ Optical Character Recognition: Enrich your dataset by detecting multilingual texts with PaddleOCR. |
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π Captioning with BLIP: Enrich your dataset by captioning them using BLIP. |
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π Image Search: Search through large image datasets for duplicates/near-duplicates using a query image. Runs on CPU! |
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Get help from the fastdup team or community members via the following channels -
The following are community-contributed blog posts about fastdup -
- Master Data Integrity to Clean Your Computer Vision Datasets.
- fastdup: A Powerful Tool to Manage, Clean & Curate Visual Data at Scale on Your CPU - For Free.
- Clean Up Your Digital Life: How I Found 1929 Fully Identical Images, Dark, Bright and Blurry Shots in Minutes, For Free.
- The weighty significance of data cleanliness β or as I like to call it, βcleanliness is next to model-nessβ β cannot be overstated.
fastdup is licensed under Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International Public License.
See LICENSE.
For any queries, reach us at info@visual-layer.com
Usage Tracking
We have added an experimental crash report collection, using sentry.io. It does not collect user data other than anonymized IP address data, and it only logs fastdup library's own actions. We do NOT collect folder names, user names, image names, image content only aggregate performance statistics like total number of images, average runtime per image, total free memory, total free disk space, number of cores, etc. Collecting fastdup crashes will help us improve stability.
The code for the data collection is found here. On MAC we use Google crashpad.
It is always possible to opt out of the experimental crash report collection via either of the following two options:
- Define an environment variable called
SENTRY_OPT_OUT - or run() with
turi_param='run_sentry=0'
fastdup is founded by the authors of XGBoost, Apache TVM & Turi Create - Danny Bickson, Carlos Guestrin and Amir Alush.
Learn more about Visual Layer here.