Dynamic power management of voltage-frequency island partitioned Networks-on-Chip using Intel's Single-chip Cloud Computer

机译：使用英特尔的单芯片云计算机对电压-频率岛分割的片上网络进行动态电源管理

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Continuous technology scaling has enabled the integration of multiple cores on the same chip. To overcome the disadvantages of buses, the Network-on-Chip (NoC) architecture has been proposed as a new communication paradigm. To further mitigate the tradeoff between performance and power consumption, dynamic voltage and frequency scaling (DVFS) became the de facto approach in multi-core design. DVFS-based NoC communication was implemented in Intel's most recent Single-chip Cloud Computer (SCC). Using the SCC we demonstrate a power management algorithm that runs in real time and dynamically adjusts the performance of the islands to reduce power consumption while maintaining the same level of performance.

机译：持续的技术扩展使同一芯片上可以集成多个内核。为了克服总线的缺点，已经提出了片上网络（NoC）架构作为新的通信范例。为了进一步减轻性能和功耗之间的折衷，动态电压和频率缩放（DVFS）成为多核设计中的实际方法。基于DVFS的NoC通信已在英特尔最新的单芯片云计算机（SCC）中实现。使用SCC，我们演示了一种电源管理算法，该算法实时运行并动态调整孤岛的性能，以降低功耗，同时保持相同的性能水平。

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《The fifth ACM/IEEE international symposium on networks-on-chip》|2011年|p.257-258|共2页
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David Radu; Bogdan Paul; Marculescu Radu; Ogras Umit;
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中图分类计算机网络;
关键词
DVFS; Network-on-chip; Power management; multicore;

机译：DVFS;片上网络;电源管理;多核;

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2. EEG processing: a many-core approach utilising the Intel single-chip cloud computer platform [J] . Gildo Torres, Paul McCall, Chen Liu, International Journal of Embedded Systems . 2017,第5期

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3. Programming many-core architectures -a case study: dense matrix computations on the Intel single-chip cloud computer processor [J] . J. P. E. Hodgson Computing reviews . 2013,第2期

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4. Dynamic power management of voltage-frequency island partitioned Networks-on-Chip using Intel's Single-chip Cloud Computer [C] . David Radu, Bogdan Paul, Marculescu Radu, IEEE/ACM International Symposium on Networks on Chip . 2011

机译：Intel单芯片云电脑电压 - 频岛分区网络动态电源管理
5. Modeling of battery-powered computer systems to enable dynamic power management. [D] . Rong, Peng. 2006

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Dynamic power management of voltage-frequency island partitioned Networks-on-Chip using Intel's Single-chip Cloud Computer

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