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引用次数: 3
摘要
ocn (on - chip - network)的ip映射算法将一组ip分配到给定的网络拓扑中。现有的映射算法限制了单个IP连接到单个路由器。因此,通信量大的ip将导致某些路由器的流量负荷较大。这些路由器由于功率密度高,可能成为热点,影响芯片的可靠性。本文提出了一种新的网络接口(NIs)来解决上述问题。在此基础上提出了流量均衡映射算法(TBMAP)。然后,流量负载变得更加分散,并且芯片上所有路由器的流量可以在不牺牲网络性能的情况下得到平衡。TBMAP运行时间短,可以实现均衡的网络流量负载,从而提高ocn的性能。实验结果表明,在实际应用中至少节省了24%的通信时间。
Traffic-balanced IP mapping algorithm for 2D-mesh On-Chip-Networks
Intellectual Properties (IPs) mapping algorithms for On-Chip-Networks (OCNs) allocate a set of IPs onto given network topologies. The existing mapping algorithms limit a single IP to connect to a single router. Hence, the IPs with large communication volumes will result in heavy traffic loads of certain routers. Those routers may become hot spots due to high power density, which affects the reliability of chips. In this paper, new Network Interfaces (NIs) were proposed to solve the aforementioned problem. Traffic-Balanced Mapping Algorithm (TBMAP) is also proposed based on the new NIs. The traffic loads then become more decentralized, and the traffic of all the routers on the chip can be balanced without sacrificing the networking performance. The TBMAP has short runtime to achieve balanced network traffic loads, which leads to the enhanced performance of OCNs. The experimental results show that at least 24% communication time is saved for real applications.
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