Abstract
As clock frequencies increase, topology-matching bus routing is desired to provide an initial routing result which facilitates the following buffer insertion to meet the timing constraints. In this article, we present a complete topology-matching bus routing framework considering nonuniform track configurations. In the framework, a bus clustering technique is proposed to reduce the routing complexity by grouping buses sharing similar pin locations. To perform topology-matching routing in a nonuniform track configuration, we propose a directed acyclic graph-based algorithm to connect a bus in a specific topology. Furthermore, a rip-up and reroute scheme is applied to alleviate the routing congestion. Compared with the state-of-the-art topology-matching bus routers, our proposed algorithm significantly improves the routing quality and reduces the number of spacing violations in comparable runtime.
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