Synergistic Temperature and Energy Management in GALS Processor Architectures

Yongkang Zhu, D. Albonesi
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引用次数: 2

Abstract

We propose a synergistic temperature and energy management scheme for GALS processors. Localized DVS is applied in domains that contain hotspots, permitting other critical domains to run unabated, thereby reducing performance cost relative to global DVS, and also creating execution slack in peripheral cooler domains that can be exploited to save energy. The reduction in energy in turn creates a steeper temperature gradient between the domains, permitting heat to flow more easily out of the hotspot domain. This symbiotic cyclical relationship between temperature and energy management leads to both significantly better performance, and lower energy, than the use of DTM alone
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GALS处理器架构中的协同温度和能量管理
我们提出了一种用于GALS处理器的协同温度和能量管理方案。局部分布式交换机应用于包含热点的域中,允许其他关键域不受影响地运行,从而降低相对于全局分布式交换机的性能成本,并且在外围较冷的域中产生执行松弛,可以利用这一点来节省能源。能量的减少反过来又在区域之间产生了更陡峭的温度梯度,使得热量更容易流出热点区域。与单独使用DTM相比,温度和能量管理之间的这种共生循环关系显著提高了性能,降低了能耗
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