NoC功率性能优化的自适应路由和动态频率缩放

2013 23rd International Workshop on Power and Timing Modeling, Optimization and Simulation (PATMOS) Pub Date : 2013-11-14 DOI:10.1109/PATMOS.2013.6662179

Davide Zoni, J. Flich, W. Fornaciari

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引用次数: 0

摘要

片上网络(noc)有望成为多核架构的高效通信基础设施。然而，仍然需要高效的功率性能方法，因为互连功率包络非常薄，不能忽视。事实上，在当前和未来的多核系统中，需要新的功耗感知设计探索。使用不同的路由器微架构选项和不同的路由算法来提高性能的可能性，结合标准的功率感知机制，即DVFS和功率门控技术，提供了一个巨大的设计空间。为此，本文结合动态频率缩放(Dynamic Frequency Scaling, DFS)对不同的NoC路由算法进行了比较分析。

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Adaptive routing and Dynamic Frequency Scaling for NoC power-performance optimizations

On-chip networks (NoCs) promise to become an efficient communication infrastructure for multi-core architectures. However, there is still a need for efficient power-performance methodologies, since the interconnect power-envelope is really slim and cannot be neglected. Indeed, new power-aware design explorations in current and future multicore systems are needed. The possibility to use different router microarchitectural options and different routing algorithms to increase performance, combined with standard power-aware mechanisms, i.e. DVFS and Power Gating techniques, provides a huge design space to be explored. In this perspective, this paper presents a comparative analysis of different NoC routing algorithms combined with Dynamic Frequency Scaling (DFS).

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2013 23rd International Workshop on Power and Timing Modeling, Optimization and Simulation (PATMOS)

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