Optimization for traffic-based virtual channel activation low-power NoC

5th International Conference on Energy Aware Computing Systems & Applications Pub Date : 2015-03-24 DOI:10.1109/ICEAC.2015.7352169
S. Muhammad, M. El-Moursy, A. El-Moursy, A. M. Refaat
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引用次数: 12

Abstract

Low leakage power with maintained high throughput NoC is achieved. Traffic-based Virtual channel Activation (TVA) algorithm is presented to determine traffic load status at the NoC switch ports. Consequently adaptation signals are sent to activate or deactivate switch port VC groups. The algorithm is optimized to minimize power dissipation for a target throughput. TVA algorithm optimally utilizes VCs by deactivating idle VCs groups to guarantee high leakage power saving without affecting the NoC throughput. Network average leakage power has been reduced for different topologies (such as 2D-Mesh and 2D-Torus).
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基于流量的虚拟通道激活低功耗NoC优化
低泄漏功率与保持高通量NoC实现。提出了一种基于流量的虚拟通道激活(TVA)算法来确定NoC交换机端口的流量负载状态。因此,发送自适应信号来激活或禁用交换机端口VC组。该算法经过优化,以最小化功耗的目标吞吐量。TVA算法通过停用空闲的VCs组来优化利用VCs,在不影响NoC吞吐量的情况下保证高泄漏省电。针对不同的拓扑结构(如2D-Mesh和2D-Torus),降低了网络平均泄漏功率。
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5th International Conference on Energy Aware Computing Systems & Applications
5th International Conference on Energy Aware Computing Systems & Applications
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