面向高缓冲效率的片上网络系统动态通道流量控制

Sung-Tze Wu, Chih-Hao Chao, I-Chyn Wey, A. Wu
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引用次数: 11

摘要

如今,片上系统(SoC)设计变得越来越复杂。由于布线问题,每个处理元素之间的通信经常受到挑战。片上网络(NoC)为解决这一问题提供了一种实用的解决方案。NoC的主要组件是路由器,它由缓冲区大小决定。以前的机制需要较大的缓冲区大小来实现高性能。本文提出了一种动态信道流量控制机制,实现了信道资源的全局共享,提高了吞吐量和信道利用率。在周期精确模拟器上实现了8 × 8网格片上网络。实验结果表明,在相同吞吐量的情况下,与虚拟通道流量控制相比,该机制可以减少30%的缓冲区大小。此外,与虫孔流控制相比,吞吐量可提高20%。
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Dynamic Channel Flow Control of Networks-on-Chip Systems for High Buffer Efficiency
System-on-Chip (SoC) designs become more complex nowadays. The communication between each processing element often suffers challenges due to the wiring problem. Networks-on-Chip (NoC) provides a practical solution to solve the problem. The major components in NoC are routers, which are dominated by the buffer size. Previous mechanisms need large buffer size to achieve high performance. In this paper, a dynamic channel flow control mechanism is proposed to realize the channel resource sharing globally, which can increase the throughput and the channel utilization rate. An 8 × 8 mesh on-chip network is implemented on a cycle accurate simulator. By the experimental result, the proposed mechanism can reduce the buffer size by 30% as compared with virtual channel flow control at the same throughput. Moreover, the throughput can be improved by 20% as compared with wormhole flow control.
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