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Hub is a dataset format with a simple API for creating, storing, and collaborating on AI datasets of any size. It enables you to store all of your data in one place, ranging from simple annotations to large videos, and it unlocks rapid streaming of data while training models at scale. Hub is used by Google, Waymo, Red Cross, Oxford University, and Omdena. Hub includes the following features:
Storage Agnostic API
Use the same API to upload, download, and stream datasets to/from AWS S3/S3-compatible storage, GCP, Activeloop cloud, local storage, as well as in-memory.Compressed Storage
Store images, audios and videos in their native compression, decompressing them only when needed, for e.g., when training a model.Lazy NumPy-like Indexing
Treat your S3 or GCP datasets as if they are a collection of NumPy arrays in your system's memory. Slice them, index them, or iterate through them. Only the bytes you ask for will be downloaded!Dataset Version Control
Commits, branches, checkout - Concepts you are already familiar with in your code repositories can now be applied to your datasets as well!Integrations with Deep Learning Frameworks
Hub comes with built-in integrations for Pytorch and Tensorflow. Train your model with a few lines of code - we even take care of dataset shuffling. :)Distributed Transformations
Rapidly apply transformations on your datasets using multi-threading, multi-processing, or our built-in Ray integration.100+ most-popular image, video, and audio datasets available in seconds
Hub community has uploaded 100+ image, video and audio datasets like MNIST, COCO, ImageNet, CIFAR, GTZAN and others.Instant Visualization Support in Activeloop Platform
Hub datasets are instantly visualized with bounding boxes, masks, annotations, etc. in Activeloop Platform (see below).Hub is written in 100% Python and can be quickly installed using pip.
pip3 install hub
By default, Hub does not install dependencies for audio, video, and google-cloud (GCS) support. They can be installed using:
pip3 install hub[audio] -> Audio support via miniaudio
pip3 install hub[video] -> Video support via pyav
pip3 install hub[gcp] -> GCS support via google-* dependencies
pip3 install hub[visualizer] -> Visualizer support in Jupyter Notebooks
pip3 install hub[all] -> Installs everything - audio, video and GCS support
import hub
import torch
from torchvision import transforms, models
ds = hub.load('hub://activeloop/cifar10-train')
ds.tensors.keys() # dict_keys(['images', 'labels'])
ds.labels[0].numpy() # array([6], dtype=uint32)
First, define a transform for the images and use Hub's built-in PyTorch one-line dataloader to connect the data to the compute:
tform = transforms.Compose([
transforms.ToTensor(),
transforms.Normalize([0.5, 0.5, 0.5], [0.5, 0.5, 0.5]),
])
hub_loader = ds.pytorch(num_workers=0, batch_size=4, transform={
'images': tform, 'labels': None}, shuffle=True)
Next, define the model, loss and optimizer:
net = models.resnet18(pretrained=False)
net.fc = torch.nn.Linear(net.fc.in_features, len(ds.labels.info.class_names))
criterion = torch.nn.CrossEntropyLoss()
optimizer = torch.optim.SGD(net.parameters(), lr=0.001, momentum=0.9)
Finally, the training loop for 2 epochs:
for epoch in range(2):
running_loss = 0.0
for i, data in enumerate(hub_loader):
images, labels = data['images'], data['labels']
# zero the parameter gradients
optimizer.zero_grad()
# forward + backward + optimize
outputs = net(images)
loss = criterion(outputs, labels.reshape(-1))
loss.backward()
optimizer.step()
# print statistics
running_loss += loss.item()
if i % 100 == 99: # print every 100 mini-batches
print('[%d, %5d] loss: %.3f' %
(epoch + 1, i + 1, running_loss / 100))
running_loss = 0.0
A hub dataset can be created in various locations (Storage providers). This is how the paths for each of them would look like:
Storage provider | Example path |
---|---|
Activeloop cloud | hub://user_name/dataset_name |
AWS S3 / S3 compatible | s3://bucket_name/dataset_name |
GCP | gcp://bucket_name/dataset_name |
Local storage | path to local directory |
In-memory | mem://dataset_name |
Let's create a dataset in the Activeloop cloud. Activeloop cloud provides free storage up to 300 GB per user (more info here). Create a new account with Hub from the terminal using activeloop register
if you haven't already. You will be asked for a user name, email ID, and password. The user name you enter here will be used in the dataset path.
$ activeloop register
Enter your details. Your password must be at least 6 characters long.
Username:
Email:
Password:
Initialize an empty dataset in the Activeloop Cloud:
import hub
ds = hub.empty("hub://<USERNAME>/test-dataset")
Next, create a tensor to hold images in the dataset we just initialized:
images = ds.create_tensor("images", htype="image", sample_compression="jpg")
Assuming you have a list of image file paths, let's upload them to the dataset:
image_paths = ...
with ds:
for image_path in image_paths:
image = hub.read(image_path)
ds.images.append(image)
Alternatively, you can also upload numpy arrays. Since the images
tensor was created with sample_compression="jpg"
, the arrays will be compressed with jpeg compression.
import numpy as np
with ds:
for _ in range(1000): # 1000 random images
random_image = np.random.randint(0, 256, (100, 100, 3)) # 100x100 image with 3 channels
ds.images.append(random_image)
You can load the dataset you just created with a single line of code:
import hub
ds = hub.load("hub://<USERNAME>/test-dataset")
You can also access one of the 100+ image, video and audio datasets in Hub format, not just the ones you created. Here is how you would load the Objectron Bikes Dataset:
import hub
ds = hub.load('hub://activeloop/objectron_bike_train')
To get the first image in the Objectron Bikes dataset in numpy format:
image_arr = ds.image[0].numpy()
Getting started guides, examples, tutorials, API reference, and other useful information can be found on our documentation page.
Hub users can access and visualize a variety of popular datasets through a free integration with Activeloop's Platform. Users can also create and store their own datasets and make them available to the public. Free storage of up to 300 GB is available for students and educators:
Storage for public datasets hosted by Activeloop | 200GB Free |
Storage for private datasets hosted by Activeloop | 100GB Free |
Activeloop Hub vs DVC
Hub and DVC offer dataset version control similar to git for data, but their methods for storing data differ significantly. Hub converts and stores data as chunked compressed arrays, which enables rapid streaming to ML models, whereas DVC operates on top of data stored in less efficient traditional file structures. The Hub format makes dataset versioning significantly easier compared to traditional file structures by DVC when datasets are composed of many files (i.e., many images). An additional distinction is that DVC primarily uses a command-line interface, whereas Hub is a Python package. Lastly, Hub offers an API to easily connect datasets to ML frameworks and other common ML tools and enables instant dataset visualization through Activeloop's visualization tool.
Activeloop Hub vs TensorFlow Datasets (TFDS)
Hub and TFDS seamlessly connect popular datasets to ML frameworks. Hub datasets are compatible with both PyTorch and TensorFlow, whereas TFDS are only compatible with TensorFlow. A key difference between Hub and TFDS is that Hub datasets are designed for streaming from the cloud, whereas TFDS must be downloaded locally prior to use. As a result, with Hub, one can import datasets directly from TensorFlow Datasets and stream them either to PyTorch or TensorFlow. In addition to providing access to popular publicly available datasets, Hub also offers powerful tools for creating custom datasets, storing them on a variety of cloud storage providers, and collaborating with others via simple API. TFDS is primarily focused on giving the public easy access to commonly available datasets, and management of custom datasets is not the primary focus. A full comparison article can be found here.
Activeloop Hub vs HuggingFace
Hub and HuggingFace offer access to popular datasets, but Hub primarily focuses on computer vision, whereas HuggingFace focuses on natural language processing. HuggingFace Transforms and other computational tools for NLP are not analogous to features offered by Hub.Activeloop Hub vs WebDatasets
Hub and WebDatasets both offer rapid data streaming across networks. They have nearly identical steaming speeds because the underlying network requests and data structures are very similar. However, Hub offers superior random access and shuffling, its simple API is in python instead of command-line, and Hub enables simple indexing and modification of the dataset without having to recreate it.Join our Slack community to learn more about unstructured dataset management using Hub and to get help from the Activeloop team and other users.
We'd love your feedback by completing our 3-minute survey.
As always, thanks to our amazing contributors!
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Please read CONTRIBUTING.md to get started with making contributions to Hub.
Using Hub? Add a README badge to let everyone know:
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Dataset Licenses
Hub users may have access to a variety of publicly available datasets. We do not host or distribute these datasets, vouch for their quality or fairness, or claim that you have a license to use the datasets. It is your responsibility to determine whether you have permission to use the datasets under their license.
If you're a dataset owner and do not want your dataset to be included in this library, please get in touch through a GitHub issue. Thank you for your contribution to the ML community!
Usage Tracking
By default, we collect usage data using Bugout (here's the code that does it). It does not collect user data other than anonymized IP address data, and it only logs the Hub library's own actions. This helps our team understand how the tool is used and how to build features that matter to you! After you register with Activeloop, data is no longer anonymous. You can always opt-out of reporting using the CLI command below:
activeloop reporting --off
This technology was inspired by our research work at Princeton University. We would like to thank William Silversmith @SeungLab for his awesome cloud-volume tool.