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引用次数: 13
摘要
随着电子产品的飞速发展,高速计算和个人移动终端都对片上性能提出了更高的要求。由于带宽有限、通信效率低、可扩展性差,片上网络(Network on Chip, NoC)已经不能满足上述应用的要求。最近,光学NoC (ONoC)作为一种有效的解决方案被引入。与NoC相比,ONoC具有更高的带宽、更低的功耗和更短的时延。随着单芯片上IP核数量的不断增加,三维ONoC的研究已经进入了初级阶段。因此,本文设计了一种新的三维ONoC拓扑结构,称为三维X-Torus。接下来,我们设计了双向光路由器和垂直光路由器。最后,提出了相应的路由算法。仿真结果验证了三维ONoC拓扑结构、光路由器和路由算法的性能。
3D Torus ONoC: Topology design, router modeling and adaptive routing algorithm
With the rapid development of electronic products, the high-speed computing and the personal mobile terminal all make greater demands the on-chip performance. Due to the limited bandwidth, the low communication efficiency and the bad scalability, the Network on Chip (NoC) has been unable to satisfy the requirements of the applications above. More recently, the Optical NoC (ONoC) is introduced as an efficient solution. Compared with NoC, ONoC has the higher bandwidth, the lower power consumption and the shorter latency. With the increasing number of IP cores on a single chip, the study of 3-Dimensional (3D) ONoC has already entered the preliminary stage. Thus in this paper, we design a new 3D ONoC topology structure called 3D X-Torus. Next, we design a bidirectional optical router and a vertical optical router for our topology. Finally, we propose the corresponding routing algorithm. Our simulation results demonstrate the performances of our 3D ONoC topology, optical router and routing algorithm.
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