An Efficient 2D Router Architecture for Extending the Performance of Inhomogeneous 3D NoC-Based Multi-Core Architectures

2016 International Symposium on Computer Architecture and High Performance Computing Workshops (SBAC-PADW) Pub Date : 2016-10-01 DOI:10.1109/SBAC-PADW.2016.22

Michael Opoku Agyeman, W. Zong

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引用次数: 13

Abstract

To meet the performance and scalability demands of the fast-paced technological growth towards exascale and Big-Data processing with the performance bottleneck of conventional metal based interconnects, alternative interconnect fabrics such as inhomogeneous three dimensional integrated Network-on-Chip (3D NoC) has emanated as a cost-effective solution for emerging multi-core design. However, these interconnects trade-off optimized performance for cost by restricting the number of area and power hungry 3D routers. Consequently, in this paper, we propose a low-latency adaptive router with a low-complexity single-cycle bypassing mechanism to alleviate the performance degradation due to the slow 2D routers in inhomogeneous 3D NoCs. By combining the low-complexity bypassing technique with adaptive routing, the proposed router is able to balance the traffic in the network to reduce the average packet latency under various traffic loads. Simulation shows that, the proposed router can reduce the average packet delay by an average of 45% in 3D NoCs.

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一种扩展非均匀3D多核架构性能的高效2D路由器架构

为了满足快速发展的技术对百万级和大数据处理的性能和可扩展性的需求，以及传统金属互连的性能瓶颈，非均匀三维集成片上网络(3D NoC)等替代互连结构已经成为新兴多核设计的一种经济有效的解决方案。然而，这些互连通过限制面积和功耗高的3D路由器的数量来权衡优化的性能和成本。因此，在本文中，我们提出了一种具有低复杂度单周期旁路机制的低延迟自适应路由器，以缓解非均匀3D noc中由于2D路由器速度慢而导致的性能下降。该路由器通过将低复杂度绕过技术与自适应路由技术相结合，实现了网络中流量的均衡，降低了各种流量负载下的平均数据包延迟。仿真结果表明，该路由器在3D网络中平均减少45%的数据包延迟。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2016 International Symposium on Computer Architecture and High Performance Computing Workshops (SBAC-PADW)

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