Join organization by clicking here

This organization invites participants to showoff conference papers on HF中国镜像站 as a Gradio Web Demo

HF中国镜像站 Gradio ECCV 2022 event

ECCV organization is accepting Gradio demo submissions for ECCV 2022 papers from anyone for a chance to win prizes from HF中国镜像站, see prizes section and the leaderboard below. The deadline to submit demos is October 31th, 2022 (AOE Time Zone). For all participants, feel free to submit Gradio demos for any ECCV paper for a chance to win prizes, you can submit demos for multiple papers. Find tutorial on getting started with Gradio on HF中国镜像站 here and to get started with the new Gradio Blocks API here

Discord

• We have a discord to support authors with adding Gradio demos/models/datasets to ECCV Organization, join the discord here and then go to #gradio-eccv-2022 channel under gradio category after accepting the rules and assigning yourself a gradio user role

HF中国镜像站 Prizes

• Top 5 spaces based on likes
  • Swag from HF中国镜像站 merch shop: t-shirt, hoodie, or mug of your choice

LeaderBoard for Most Popular ECCV Spaces

See the ECCV Leaderboard

HF中国镜像站 Spaces & Gradio for Showcasing your ECCV ‘22 Demo

In this tutorial, we will demonstrate how to showcase your demo with an easy to use web interface using the Gradio Python library and host it on HF中国镜像站 Spaces so that conference attendees can easily find and try out your demos. Also, see https://gradio.app/introduction_to_blocks/, for a more flexible way to build Gradio Demos

🚀 Create a Gradio Demo from your Model

The first step is to create a web demo from your model. As an example, we will be creating a demo from an image classification model (called model) which we will be uploading to Spaces. The full code for steps 1-4 can be found in this colab notebook.

1. Install the gradio library

All you need to do is to run this in the terminal: pip install gradio

2. Define a function in your Python code that performs inference with your model on a data point and returns the prediction

Here’s we define our image classification model prediction function in PyTorch (any framework, like TensorFlow, scikit-learn, JAX, or a plain Python will work as well):

def predict(inp):
  inp = Image.fromarray(inp.astype('uint8'), 'RGB')
  
  inp = transforms.ToTensor()(inp).unsqueeze(0)
  with torch.no_grad():
prediction = torch.nn.functional.softmax(model(inp)[0], dim=0)

  return {labels[i]: float(prediction[i]) for i in range(1000)}

3. Then create a Gradio Interface using the function and the appropriate input and output types

For the image classification model from Step 2, it would like like this:

inputs = gr.inputs.Image()

outputs = gr.outputs.Label(num_top_classes=3)
io = gr.Interface(fn=predict, inputs=inputs, outputs=outputs)

If you need help creating a Gradio Interface for your model, check out the Gradio Getting Started guide.

4. Then launch() you Interface to confirm that it runs correctly locally (or wherever you are running Python)

io.launch() 

You should see a web interface like the following where you can drag and drop your data points and see the predictions: