嵌入式系统的热感知相位调优

ACM Great Lakes Symposium on VLSI Pub Date : 2014-05-20 DOI:10.1145/2591513.2591586

Tosiron Adegbija, A. Gordon-Ross

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引用次数: 3

摘要

由于嵌入式系统严格的设计限制，许多先前的工作集中在优化能耗和/或性能上。然而，由于嵌入式系统具有较少的冷却选项，因此温度上升和温度优化是一个紧急问题。我们提出了基于热感知相位的调优——TaPT——它确定了细粒度执行时间、能量和温度权衡的Pareto最优配置。结果表明，在遵守设计人员指定的设计约束的同时，TaPT分别减少了5%、30%和25%的执行时间、能量和温度。

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Thermal-aware phase-based tuning of embedded systems

Due to embedded systems' stringent design constraints, much prior work focused on optimizing energy consumption and/or performance. However, since embedded systems have fewer cooling options, rising temperature, and thus temperature optimization, is an emergent concern. We present thermal-aware phase-based tuning--TaPT--that determines Pareto optimal configurations for fine-grained execution time, energy, and temperature tradeoffs. Results show that TaPT reduces execution time, energy, and temperature by as much as 5%, 30%, and 25%, respectively, while adhering to designer-specified design constraints.

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ACM Great Lakes Symposium on VLSI

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