Novel Congestion-estimation and Routability-prediction Methods based on Machine Learning for Modern FPGAs

Abstract

Effectively estimating and managing congestion during placement can save substantial placement and routing runtime. In this article, we present a machine-learning model for accurately and efficiently estimating congestion during FPGA placement. Compared with the state-of-the-art machine-learning congestion-estimation model, our results show a 25% improvement in prediction accuracy. This makes our model competitive with congestion estimates produced using a global router. However, our model runs, on average, 291× faster than the global router. Overall, we are able to reduce placement runtimes by 17% and router runtimes by 19%. An additional machine-learning model is also presented that uses the output of the first congestion-estimation model to determine whether or not a placement is routable. This second model has an accuracy in the range of 93% to 98%, depending on the classification algorithm used to implement the learning model, and runtimes of a few milliseconds, thus making it suitable for inclusion in any placer with no worry of additional computational overhead.