IPDeN:实时偏转NoC与按顺序飞行交付

Yilian Ribot González, Geoffrey Nelissen, E. Tovar
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引用次数: 3

摘要

在基于偏转的片上网络(NoC)中,当几个进入路由器的flit争夺相同的输出端口时,其中一个flit被路由到所需的输出,而其他flit被偏转到备选输出。与基于虚拟通道(vc)的解决方案相比,该方法降低了功耗和硅足迹。然而,由于飞行在穿越网络时可能遭受的不确定数量的偏转,飞行可能在其目的地以无序的方式接收。在这项工作中,我们提出了IPDeN,一种新的基于偏转的NoC,可以确保有序的飞行交付。为了避免在每个通信流的目的地使用昂贵的重新排序机制,我们提出了一种基于在每个路由器中添加单个小缓冲区的解决方案,以防止属于同一通信流的其他flits超过。我们还开发了通过IPDeN传输的数据包的最坏情况遍历时间(WCTT)分析。我们在Verilog中实现了IPDeN,并在FPGA平台上进行了合成。我们表明,使用IPDeN的路由器需要的硬件资源比使用vc的路由器少约3倍。实验结果表明,与最坏情况和平均数据包通信时间相比,该算法减少了最坏情况和平均数据包通信时间。
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IPDeN: Real-Time deflection-based NoC with in-order flits delivery
In deflection-based Network-on-Chips (NoC), when several flits entering a router contend for the same output port, one of the flit is routed to the desired output and the others are deflected to alternatives outputs. The approach reduces power consumption and silicon footprint in comparison to virtual-channels (VCs) based solutions. However, due to the non-deterministic number of deflections that flits may suffer while traversing the network, flits may be received in an out-of-order fashion at their destinations. In this work, we present IPDeN, a novel deflection-based NoC that ensures in-order flit delivery. To avoid the use of costly reordering mechanisms at the destination of each communication flow, we propose a solution based on a single small buffer added to each router to prevents flits from over taking other flits belonging to the same communication flow. We also develop a worst-case traversal time (WCTT) analysis for packets transmitted over IPDeN. We implemented IPDeN in Verilog and synthesized it for an FPGA platform. We show that a router of IPDeN requires ≈3-times less hardware resources than routers that use VCs. Experimental results shown that the worst-case and average packets communication time is reduced in comparison to the state-of-the-art.
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来源期刊
CiteScore
1.70
自引率
14.30%
发文量
17
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