Abstract
Three-dimensional (3D) silicon integration technologies have provided new opportunities for Network-on-Chip (NoC) architecture design in Systems-on-Chip (SoCs). In this article, we consider the application-specific NoC architecture design problem in a 3D environment. We present an efficient floorplan-aware 3D NoC synthesis algorithm based on simulated allocation (SAL), a stochastic method for traffic flow routing, and accurate power and delay models for NoC components. We demonstrate that this method finds greatly improved solutions compared to a baseline algorithm reflecting prior work. To evaluate the SAL method, we compare its performance with the widely used simulated annealing (SA) method and show that SAL is much faster than SA for this application, while providing solutions of very similar quality. We then extend the approach from a single-path routing to a multipath routing scheme and explore the trade-off between power consumption and runtime for these two schemes. Finally, we study the impact of various factors on the network performance in 3D NoCs, including the TSV count and the number of 3D tiers. Our studies show that link power and delay can be significantly improved when moving from a 2D to a 3D implementation, but the improvement flattens out as the number of 3D tiers goes beyond a certain point.
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