基于电感耦合的无线3D noc动态功耗优化

Q4 Engineering

IPSJ Transactions on System LSI Design Methodology Pub Date : 2014-02-01 DOI:10.2197/ipsjtsldm.7.27

Hao Zhang, Hiroki Matsutani, M. Koibuchi, H. Amano

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引用次数: 2

摘要

电感耦合是另一种3D集成技术，可以在没有电线连接的情况下在SiP中堆叠三个以上的已知器件。通过电感耦合链路进行通信所消耗的功率是一个大问题。提出了一种基于电感耦合的拓扑不可知三维片上网络结构的动态开关链路控制方法。所提出的低功耗技术仅在无线垂直链路的利用率高于阈值时，通过切断发射机中的偏置电压来停止晶体管。同时，当利用率低于阈值时，整个无线垂直链路将被关闭，以降低无线3D noc的功耗。使用来自真实芯片实现的功率参数进行的全系统多核仿真表明，所提出的低功耗技术将功耗降低了43.8% - 55.0%，而在无线拓扑无关的3D NoC中，平均性能开销为1.4%。

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Dynamic Power Consumption Optimization for Inductive-Coupling based Wireless 3D NoCs

Inductive-coupling is yet another 3D integration technique that can be used to stack more than three knowngood-dies in a SiP without wire connections. Its power consumed for communication by inductive coupling link is one of big problems. A dynamic on/off link control for topology-agnostic 3D NoC (Network on Chip) architecture using inductive-coupling is proposed. The proposed low-power techniques stop the transistors by cutting off the bias voltage in the transmitter of the wireless vertical links only when their utilization is higher than the threshold. Meanwhile, the whole wireless vertical link will be shut down when the utilization is lower than the threshold in order to reduce the power consumption of wireless 3D NoCs. Full-system many-core simulations using power parameters derived from a real chip implementation show that the proposed low-power techniques reduce the power consumption by 43.8–55.0%, while the average performance overhead is 1.4% in wireless topology-agnostic 3D NoC.

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来源期刊

IPSJ Transactions on System LSI Design Methodology Engineering-Electrical and Electronic Engineering

CiteScore

1.20

自引率

0.00%

发文量