Mitigating dark-silicon problems using superlattice-based thermoelectric coolers

Francesco Paterna, S. Reda
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引用次数: 11

Abstract

Dark silicon is an emerging problem in multi-core processors, where it is not possible to enable all cores simultaneously because of either insufficient parallelism in software applications or because of high-spatial power densities that generate hot-spot constraints. Superlattice-based thermoelectric cooling (TEC) is a promising technology that offers large heat pumping capability and the ability to target hot spots of each core independently. In this paper, we devise novel system-level methods that address the two main sources of dark silicon using superlattice TECs. Our methods leverage the TECs in conjunction with dynamic voltage and frequency scaling and number of threads to maximize the performance of multi-core processor under thermal and power constraints. Using an experimental setup based on a quad-core processor, we provide an evaluation of the trade-offs among performance, temperature and power consumption arising from the use of superlattice-based TECs. Our results demonstrate the potential of this emerging cooling technology in mitigating dark silicon problems and in improving the performance of multi-core processors.
使用基于超晶格的热电冷却器减轻暗硅问题
暗硅是多核处理器中出现的一个新问题,由于软件应用程序的并行性不足,或者由于高空间功率密度产生热点限制,因此不可能同时启用所有内核。基于超晶格的热电冷却(TEC)是一种很有前途的技术,它提供了大的热泵能力和独立瞄准每个核心热点的能力。在本文中,我们设计了新的系统级方法,使用超晶格tec来解决暗硅的两个主要来源。我们的方法将tec与动态电压和频率缩放以及线程数相结合,以最大限度地提高多核处理器在热和功率限制下的性能。使用基于四核处理器的实验设置,我们对使用基于超晶格的tec产生的性能,温度和功耗之间的权衡进行了评估。我们的研究结果证明了这种新兴冷却技术在缓解暗硅问题和提高多核处理器性能方面的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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