Proximal Policy Optimization (PPO) is a popular on-policy reinforcement learning algorithm but is significantly less utilized than off-policy learning algorithms in multi-agent settings. This is often due the belief that on-policy methods are significantly less sample efficient than their off-policy counterparts in multi-agent problems. In this work, we investigate Multi-Agent PPO (MAPPO), a variant of PPO which is specialized for multi-agent settings. Using a 1-GPU desktop, we show that MAPPO achieves surprisingly strong performance in three popular multi-agent testbeds: the particle-world environments, the Starcraft multi-agent challenge, and the Hanabi challenge, with minimal hyperparameter tuning and without any domain-specific algorithmic modifications or architectures. In the majority of environments, we find that compared to off-policy baselines, MAPPO achieves strong results while exhibiting comparable sample efficiency. Finally, through ablation studies, we present the implementation and algorithmic factors which are most influential to MAPPOs practical performance.
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