Prioritized Trace Selection: Towards High-Performance DRL-based Network Controllers
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Deep Reinforcement Learning (DRL) based controllers offer high performance in a variety of network environments. However, simulator-based training of DRL controllers using highly skewed datasets of real-world traces often results in poor performance in the wild. In this paper, we put forward a generalizable solution for training high-performance DRL controllers in simulators – Prioritized Trace Selection (PTS). PTS employs an automated three-stage process. First, we identify critical features that determine trace behavior. Second, we classify the traces into clusters. Finally, we dynamically identify and prioritize the salient clusters during training. PTS does not require any changes to the DRL workflow. It can work across both on-policy and off-policy DRL algorithms. We use Adaptive Bit Rate selection and Congestion Control as representative applications to show that PTS offers better performance in simulation and real-world, across multiple controllers and DRL algorithms. Our novel ABR controller, Gelato, trained with PTS outperforms state-of-the-art controllers on the real-world live-streaming platform, Puffer, reducing stalls by 59 video quality.
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