Broadcast Mechanism Based on Hybrid Wireless/Wired NoC for Efficient Barrier Synchronization in Parallel Computing

2020 25th Asia and South Pacific Design Automation Conference (ASP-DAC) Pub Date : 2020-01-01 DOI:10.1109/ASP-DAC47756.2020.9045503

H. Mondal, Navonil Chatterjee, R. Cataldo, J. Diguet

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Abstract

Parallel computing is essential to achieve the manycore architecture performance potential, since it utilizes the parallel nature provided by the hardware for its computing. These applications will inevitably have to synchronize its parallel execution: for instance, broadcast operations for barrier synchronization. Conventional network-on-chip architectures for broadcast operations limit the performance as the synchronization is affected significantly due to the critical path communications that increase the network latency and degrade the performance drastically. A Wireless network-on-chip offers a promising solution to reduce the critical path communication bottlenecks of such conventional architectures by providing hardware broadcast support. We propose efficient barrier synchronization support using hybrid wireless/wired NoC to reduce the cost of broadcast operations. The proposed architecture reduces the barrier synchronization cost up to 42.79% regarding network latency and saves up to 42.65% communication energy consumption for a subset of applications from the PARSEC benchmark.

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并行计算中基于无线/有线混合NoC的高效屏障同步广播机制

并行计算对于实现多核架构的性能潜力至关重要，因为它利用硬件提供的并行特性进行计算。这些应用程序将不可避免地必须同步其并行执行:例如，广播操作的屏障同步。用于广播操作的传统片上网络架构限制了性能，因为由于关键路径通信增加了网络延迟并大大降低了性能，同步受到了显著影响。无线片上网络提供了一个很有前途的解决方案，通过提供硬件广播支持来减少这种传统架构的关键路径通信瓶颈。我们提出了使用混合无线/有线NoC的有效屏障同步支持，以降低广播操作的成本。在网络延迟方面，所提出的体系结构将屏障同步成本降低了42.79%，并为PARSEC基准测试中的应用程序子集节省了42.65%的通信能耗。

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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来源期刊

2020 25th Asia and South Pacific Design Automation Conference (ASP-DAC)

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