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Continual World

Continual World is a benchmark for continual reinforcement learning. It contains realistic robotic tasks which come from MetaWorld.

The core of our benchmark is CW20 sequence, in which 20 tasks are run, each with budget of 1M steps.

We provide the complete source code for the benchmark together with the tested algorithms implementations and code for producing result tables and plots.

See also the paper and the website.

CW20 sequence

Installation

You can either install directly in Python environment (like virtualenv or conda), or build containers -- Docker or Singularity.

Standard installation (directly in environment)

First, you'll need MuJoCo simulator. Please follow the instructions from mujoco_py package. As MuJoCo has been made freely available, you can obtain a free license here.

Next, go to the main directory of this repo and run

pip install .

Alternatively, if you want to install in editable mode, run

pip install -e .

Docker image

  • To build the image with continualworld package installed inside, run docker build . -f assets/Dockerfile -t continualworld

  • To build the image WITHOUT the continualworld package but with all the dependencies installed, run docker build . -f assets/Dockerfile -t continualworld --build-arg INSTALL_CW_PACKAGE=false

When the image is ready, you can run

docker run -it continualworld bash

to get inside the image.

Singularity image

  • To build the image with continualworld package installed inside, run singularity build continualworld.sif assets/singularity.def

  • To build the image WITHOUT the continualworld package but with all the dependencies installed, run singularity build continualworld.sif assets/singularity_only_deps.def

When the image is ready, you can run

singularity shell continualworld.sif

to get inside the image.

Running

You can run single task, continual learning or multi-task learning experiments with run_single.py, run_cl.py , run_mt.py scripts, respectively.

To see available script arguments, run with --help option, e.g.

python3 run_single.py --help

Examples

Below are given example commands that will run experiments with a very limited scale.

Single task

python3 run_single.py --seed 0 --steps 2e3 --log_every 250 --task hammer-v1 --logger_output tsv tensorboard

Continual learning

python3 run_cl.py --seed 0 --steps_per_task 2e3 --log_every 250 --tasks CW20 --cl_method ewc --cl_reg_coef 1e4 --logger_output tsv tensorboard

Multi-task learning

python3 run_mt.py --seed 0 --steps_per_task 2e3 --log_every 250 --tasks CW10 --use_popart True --logger_output tsv tensorboard

Reproducing the results from the paper

Commands to run experiments that reproduce main results from the paper can be found in examples/paper_cl_experiments.sh, examples/paper_mt_experiments.sh and examples/paper_single_experiments.sh. Because of number of different runs that these files contain, it is infeasible to just run it in sequential manner. We hope though that these files will be helpful because they precisely specify what needs to be run.

After the logs from runs are gathered, you can produce tables and plots - see the section below.

Producing result tables and plots

After you've run experiments and you have saved logs, you can run the script to produce result tables and plots:

python produce_results.py --cl_logs examples/logs/cl --mtl_logs examples/logs/mtl --baseline_logs examples/logs/baseline

In this command, respective arguments should be replaced for paths to directories containing logs from continual learning experiments, multi-task experiments and baseline (single-task) experiments. Each of these should be a directory inside which there are multiple experiments, for different methods and/or seeds. You can see the directory structure in the example logs included in the command above.

Results will be produced and saved on default to the results directory.

Alternatively, check out nb_produce_results.ipynb notebook to see plots and tables in the notebook.

Download our saved logs and produce results

You can download logs of experiments to reproduce paper's results from here. Then unzip the file and run

python produce_results.py --cl_logs saved_logs/cl --mtl_logs saved_logs/mt --baseline_logs saved_logs/single

to produce tables and plots.

As a result, a csv file with results will be produced, as well as the plots, like this one (and more!):

average performance

Full output can be found here.

Acknowledgements

Continual World heavily relies on MetaWorld.

The implementation of SAC used in our code comes from Spinning Up in Deep RL.

Our research was supported by the PLGrid infrastructure.

Our experiments were managed using Neptune.

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