Code for paper Reinforcement Learning with Fast and Forgetful Memory, where we propose Fast and Forgetful Memory (FFM).
If you want to use FFM in your project, clone and install the standalone module
git clone <THIS_REPO>
cd ffm/standalone && pip install .Then you can utilize FFM or DropInFFM. FFM is more flexible and has a cleaner interace (and is a little bit faster too), but DropInFFM follows the torch.nn.GRU interface very closely, so it can function as a drop-in RNN replacement.
from ffm import FFM, DropInFFM
obs_dim = 16
act_dim = 3
batch_size = 4
time_size = 5
ffm = FFM(input_size=obs_dim, hidden_size=32, context_size=4, output_size=act_dim)
markov_states, recurrent_states = ffm(torch.zeros(batch_size, time_size, obs_dim))
next_markov_states, next_recurrent_states = ffm(markov_states, recurrent_states)
diffm = DropInFFM(input_size=obs_dim, hidden_size=32, context_size=4, output_size=act_dim, batch_first=False)
markov_states, recurrent_state = diffm(torch.zeros(time_size, batch_size, obs_dim))
next_markov_states, next_recurrent_state = diffm(markov_states, recurrent_state)This repository may be used to reproduce all experiments and plots. Once the review period is over, we will make our Wandb public, but until then we will keep it private to avoid breaking the double-blind review, and so some logging tools may not work.
modelscontains the FFM models used in all of our experimentsppo.pyruns the POPGym PPO experiments for FFM, including all ablationspopgymcontains POPGym at the commit we evaluated againstpomdp-baselinescontains POMDP baselines at the commit we evaluated againstplottingcontains all the scripts used to generate plots in the paper, only tested on MacOS. These will not work until the raw data is publically released via wandb.standalonecontains a standalone implementation of FFM for use in other projects -- it is pip installable with only torch as a dependencybenchmark.pycontains code to benchmark the wall-clock efficiency and memory usage of modelsaggregations.pycontains various aggregators, such as the one proposed in FFM
To rerun ablations:
First, go into popgym and pip install following the instructions, it should be something like pip install ".[baselines,navigation]". Then:
python POPGYM_MODELS=RayFFM,RayFFMNoOscillate,RayFFMNoLearnOscillate,RayFFMNoDecay,RayFFMNoLearnDecay,RayFFMNoInGate,RayFFMNoOutGate ppo.py
Make sure you are running the ppo.py in the FFM root directory, not the ppo.py in the popgym directory!
If you run into the error about tensorflow_probability not being installed, that is a ray issue. You can either install it, or go into the file where the error occurs and replace import tensorflow_probability as tfp with tfp = None.
To rerun wall-clock time and memory efficiency:
python benchmark.py
the results will be saved in throughput.csv. This requires that popgym is installed and working.
POPGym and POMDP-Baselines have conflicting python package versions. For this reason, we suggest using separate docker or conda containers for reproducing this. We had trouble installing their original dependencies, but we provide a pip freeze such that you can install the packages necessary to run our portion of the experiments using
pip install -r pomdp-baselines/pip_freeze.txt. Then, follow their instructions for setting up correct python paths. We sometimes run into issues installing this, based on the OS and preinstalled packages. If you run into an error with box2d, you will need to pip install --force-reinstall box2d-kengz. That said, any others errors we ran into were fixed with a simple google search! If this annoys you, please ask the authors of POMDP-Baselines to update their packages to ones that are still available on pip/conda. Once this works, call
python pomdp-baselines/gru_vs_ffm.sh <RANDOM_SEED> <CUDA_DEVICE> <CONFIG_GROUP>
For example,
python pomdp-baselines/gru_vs_ffm.sh 0 0 CONFIGS_RNN_P
python pomdp-baselines/gru_vs_ffm.sh 0 1 CONFIGS_FFM_P