Aggressive Q-Learning with Ensembles: Achieving Both High Sample Efficiency and High Asymptotic Performance

Recently, Truncated Quantile Critics (TQC), using distributional representation of critics, was shown to provide state-of-the-art asymptotic training performance on all environments from the MuJoCo continuous control benchmark suite. Also recently, Randomized Ensemble Double Q-Learning (REDQ), using a high updateto-data ratio and target randomization, was shown to achieve high sample efficiency that is competitive with state-of-the-art model-based methods. In this paper, we propose a novel model-free algorithm, Aggressive Q-Learning with Ensembles (AQE), which improves the sample-efficiency performance of REDQ and the asymptotic performance of TQC, thereby providing overall state-of-the-art performance during all stages of training. Moreover, AQE is very simple, requiring neither distributional representation of critics nor target randomization. Off-policy Deep Reinforcement Learning algorithms aim to improve sample efficiency by reusing past experience. A number of off-policy Deep RL algorithms have been proposed for control tasks with continuous state and action spaces, including Deep Deterministic Policy Gradient (DDPG), Twin Delayed DDPG (TD3) and Soft Actor Critic (SAC) (Lillicrap et al., 2016; Fujimoto et al., 2018; Haarnoja et al., 2018a;b). TD3 introduced clipped double-Q learning, and was shown to be significantly more sample efficient than popular on-policy methods for a wide range of MuJoCo benchmarks. Soft Actor Critic (SAC) has similar off-policy structures with clipped double-Q learning, but it also employs maximum entropy reinforcement learning. SAC was shown to provide excellent sample efficiency and asymptotic performance in a wide-range of MuJoCo environments, including the high-dimensional Humanoid environment for which both DDPG and TD3 perform poorly.