Low-cost congestion management in networks-on-chip using edge and in-network traffic throttling

Proceedings of the 2nd International Workshop on Advanced Interconnect Solutions and Technologies for Emerging Computing Systems Pub Date : 2017-01-25 DOI:10.1145/3073763.3073764

Monobrata Debnath, Dimitris Konstantinou, C. Nicopoulos, G. Dimitrakopoulos, Wei-Ming Lin, Junghee Lee

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引用次数: 2

Abstract

Implementing cost effective congestion control within the Network-on-Chip (NoC) is a major design challenge. Whenever congestion awareness and/or mitigation is desired, architects typically rely on the use of adaptive routing algorithms, which aim to (intelligently) balance the traffic load throughout the NoC. Nevertheless, the hardware cost incurred by such solutions is quite considerable, since it entails the collection/propagation of traffic-related information and the provisioning of deadlock freedom guarantees. In this paper, we explore the potential of simultaneous edge and in-network traffic throttling, as a low-cost alternative to adaptive routing techniques. Without any reliance on adaptivity by the routing algorithm, combined throttling is demonstrated to yield better (in most cases) throughput improvements than state-of-the-art adaptive routing algorithms, but at a significantly lower cost.

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使用边缘和网络内流量节流的片上网络低成本拥塞管理

在片上网络(NoC)中实现具有成本效益的拥塞控制是一个主要的设计挑战。每当需要拥塞感知和/或缓解时，架构师通常依赖于自适应路由算法的使用，其目的是(智能地)平衡整个NoC的流量负载。然而，这种解决方案所产生的硬件成本相当高，因为它需要收集/传播与流量相关的信息并提供死锁自由保证。在本文中，我们探讨了同步边缘和网络内流量节流的潜力，作为自适应路由技术的低成本替代方案。在不依赖路由算法的自适应性的情况下，联合节流被证明比最先进的自适应路由算法产生更好的(在大多数情况下)吞吐量改进，但成本要低得多。

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Proceedings of the 2nd International Workshop on Advanced Interconnect Solutions and Technologies for Emerging Computing Systems

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