Mesh Connected Crossbars: A Novel NoC Topology with Scalable Communication Bandwidth

Arash Tavakkol, R. Moraveji, H. Sarbazi-Azad
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引用次数: 10

Abstract

Recent studies have revealed that on-chip interconnects neither is wire plentiful nor is bandwidth cheap. Based on the results of these studies, in physical design of multiprocessor system-on-chip (MPSoCs), both the wiring density constraint and routing of wires are controversial issues, and there is a trade-off between the network bandwidth and wiring limitations. Therefore, in this paper, we introduce a new topology, named mesh connected crossbars (MCC), to enhance the communication bandwidth between processing elements; the proposed topology, also, has significant topological advantages over traditional torus- and mesh-based NoCs. Furthermore, we study the topological properties of MCCs and propose deterministic and fully adaptive deadlock-free routing algorithms in an attempt to evaluate the performance of MCC in different working conditions. The simulation results show that under constant wiring conditions, MCC exhibits higher performance and consumes lower energy in comparison with equivalent torus or mesh networks.
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一种具有可扩展通信带宽的新型NoC拓扑结构
最近的研究表明,片上互连既没有充足的线路,也没有便宜的带宽。基于这些研究结果,在多处理器片上系统(mpsoc)的物理设计中,布线密度约束和布线都是有争议的问题,需要在网络带宽和布线限制之间进行权衡。为此,本文引入了一种新的拓扑结构,即网格连接横梁(MCC),以提高处理单元之间的通信带宽;与传统的基于环面和网格的noc相比,所提出的拓扑结构也具有显著的拓扑优势。此外,我们研究了MCC的拓扑特性,并提出了确定性和完全自适应无死锁路由算法,试图评估MCC在不同工作条件下的性能。仿真结果表明,在恒定布线条件下,MCC网络与等效环面或网状网络相比,具有更高的性能和更低的能耗。
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