This is a Tensorflow + Keras implementation of asyncronous 1-step Q learning as described in "Asynchronous Methods for Deep Reinforcement Learning".
Since we're using multiple actor-learner threads to stabilize learning in place of experience replay (which is super memory intensive), this runs comfortably on a macbook w/ 4g of ram.
It uses Keras to define the deep q network (see model.py), OpenAI's gym library to interact with the Atari Learning Environment (see atari_environment.py), and Tensorflow for optimization/execution (see async_dqn.py).
To kick off training, run:
python async_dqn.py --experiment breakout --game "Breakout-v0" --num_concurrent 8Here we're organizing the outputs for the current experiment under a folder called 'breakout', choosing "Breakout-v0" as our gym environment, and running 8 actor-learner threads concurrently. See this for a full list of possible game names you can hand to --game.
We collect episode reward stats and max q values that can be vizualized with tensorboard by running the following:
tensorboard --logdir /tmp/summaries/breakoutThis is what my per-episode reward and average max q value curves looked like over the training period:
To run a gym evaluation, turn the testing flag to True and hand in a current checkpoint file:
python async_dqn.py --experiment breakout --testing True --checkpoint_path /tmp/breakout.ckpt-2690000 --num_eval_episodes 100After completing the eval, we can upload our eval file to OpenAI's site as follows:
import gym
gym.upload('/tmp/breakout/eval', api_key='YOUR_API_KEY')Now we can find the eval at https://gym.openai.com/evaluations/eval_uwwAN0U3SKSkocC0PJEwQ
See a3c.py for a WIP async advantage actor critic implementation.
I found these super helpful as general background materials for deep RL: