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4th CLVision Workshop @ CVPR 2023 Challenge

This is the official starting repository for the Continual Learning Challenge held in the 4th CLVision Workshop @ CVPR 2023.

Please refer to the challenge website for more details!

To participate in the challenge, use the link below:

https://codalab.lisn.upsaclay.fr/competitions/11559

Repository Updates

18.04: Removed the RAM and GPU memory usage plugins.

26.03: Increased the RAM usage limit from 3200 MBs -> 4000 MBs

Getting started

The devkit is based on the Avalanche library. We warmly recommend looking at the documentation (especially the "Zero To Hero tutorials") if this is your first time using it! Avalanche is added as a Git submodule of this repository.

The recommended setup steps are as follows:

  1. Install conda (and mamba; recommended)

  2. Clone the repo and create the conda environment:

git clone --recurse-submodules https://github.com/ContinualAI/clvision-challenge-2023.git
cd clvision-challenge-2023
conda env create -f environment.yml
  1. Start training: you can directly start training a baseline strategy by running python train.py

The aforementioned steps should be OS-agnostic. However, we recommend setting up your dev environment using a mainstream Linux distribution.

Code Structure

├── avalanche                      # Avalanche library (as a submodule) 


├── benchmarks
    ├── ... 
    ├── cir_benchmark.py           # benchmark generator for the challenge
 
├── data 
    ├── ...                        # dataset train/test splits 

├── models
    ├── ...                       
    ├── resnet_18.py               # base resnet-18 architecture 

├── scenario_config
    ├── ...                        # stream config files used for benchmark generation

├── strategies
    ├── my_plugin.py               # template for implementing new plugins
    ├── my_strategy.py             # template for implementing new strategies

├── utils
    ├── ...                        # utility scripts 


├── train.py                       # trainer script 

Implementing a strategy

Put your problem-solving skills to the test and implement new strategies for class-incremental with repetition scenarios in this challenge. You have two options for implementing a new strategy:

Strategy as a plugin

The straightforward method to design a strategy is to implement it as a plugin. Plugins extend an existing strategy by implementing a particular set of callbacks. You can implement your plugin in strategies/my_plugin.py, and add it a base strategy (e.g. Naive strategy) in train.py.

Strategy as a subclass

Another way to implement your strategy is to define a class that inherits from SupervisedTemplate class. This method is suggested when the training epoch loops or other behaviors in a strategy are different from thed default ones defined in the SupervisedTemplate, and cannot be implemented by extending existing strategies via plugins.

*For a deeper dive into the implementation of strategies, please refer to this link.

Submitting a solution

Solutions must be submitted through the CodaLab portal:

A solution must be zip file that contains three prediction files generated by train.py. The file names must follow the pattern below:

  • pred_config_1.npy
  • pred_config_2.npy
  • pred_config_3.npy

where the numbers indiciate the stream ID (config ID) on which the model is trained.

The maximum number of allowed submissions is 20. Only 3 solutions can be submitted each day.

Hints

  • The devkit may be updated when new features are requested by participants. We recommend checking if there are new updates frequently.
  • The InteractiveLogger will just print the progress to stdout (and it is quite verbose). Consider using dashboard loggers, such as Tensorboard or Weights & Biases. See the tutorial on loggers here. You can use more than one logger at the same time!

IDE-specific hints

  • When using Visual Studio Code, to get a proper type checking and smooth terminal execution, consider:
    • installing the official Python language support.

    • creating a .env file in the root of the project with the following content:

      PYTHONPATH=:<project_path>/avalanche:<project_path>
      

      where you should replace <project_path> with the absolute path of the project directory. Alas, utilities like ${workspaceFolder} will not work here.

    • creating a .vscode/settings.json file. Create the .vscode directory and settings.json file if they do not exist. In the settings.json file, we recommend pasting the following content:

      {
          "terminal.integrated.env.linux": {
              "PYTHONPATH": "${env:PYTHONPATH}:${workspaceFolder}:${workspaceFolder}/avalanche"
          },
          "python.envFile": "${workspaceFolder}/.env",
          "python.terminal.activateEnvironment": true,
          "python.analysis.typeCheckingMode": "basic",
          "python.analysis.extraPaths": [
              "avalanche"
          ],
          "python.languageServer": "Pylance"
      }
    Once you have followed these steps, close and reopen Visual Studio Code.

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Development kit for the CLVISION @ CVPR 2023 Challenge

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