A Support Vector Regression (SVR)-Based Latency Model for Network-on-Chip (NoC) Architectures.

In this paper, we propose SVR-NoC, a network-on-chip (NoC) latency model using support vector regression (SVR). More specifically, based on the application communication information and the NoC routing algorithm, the channel and source queue waiting times are first estimated using an analytical queuing model with two equivalent queues. To improve the prediction accuracy, the queuing theory-based delay estimations are included as features in the learning process. We then propose a learning framework that relies on SVR to collect training data and predict the traffic flow latency. The proposed learning methods can be used to analyze various traffic scenarios for the target NoC platform. Experimental results on both synthetic and real-application traffic demonstrate on average less than 12% prediction error in network saturation load, as well as more than $100\\times $ speedup compared to cycle-accurate simulations can be achieved.