芯片上无线网络的负载均衡架构

2016 International Conference on Advances in Computing, Communications and Informatics (ICACCI) Pub Date : 2016-09-01 DOI:10.1109/ICACCI.2016.7732071

P. Mitra

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引用次数: 0

摘要

多核片上系统设计的进步对通信基础设施提出了更高的要求，要求通信基础设施能够提供目标性能，以满足千兆级处理器的计算需求。因此，一种被称为LAWI(一种负载均衡的芯片上无线网络架构)的解决方案被提出，以弥合千兆级片上系统设备的通信效率和计算需求之间日益扩大的差距。它由智能路由器组成，可以平衡长距离传输的流量负载，减少拥塞延迟。提出了一种高效、低成本的无死锁路由方案LAWIXY，减少了网络拥塞，从而提高了片上无线网络的性能。结果表明，LAWI优于其对应的网络体系结构，并在更大的系统规模下提高了性能。

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LAWI: A load balanced architecture for wireless network on chip

The advancement in the designing of multicores system-on-chip pose the requirement of communication infrastructure which provides target performance to meet the computation requirement of gigascale processors. Thus a promising solution called LAWI, a Load balanced Architecture for Wireless Network on chip, has been proposed to bridge the widening gap between the communication efficiency and computation requirements of gigascale system-on-chip devices. It comprise of intelligent router that balances the traffic load across long distance transmission and reduces the congestion delay. An efficient low-cost deadlock-free routing scheme LAWIXY has been proposed that reduces the network congestion and hence improves performance of wireless network on chip. It is demonstrated that LAWI outperforms its counterpart network architectures and improves performance for larger system size.

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2016 International Conference on Advances in Computing, Communications and Informatics (ICACCI)

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