An energy-efficient 2.5D through-silicon interposer I/O with self-adaptive adjustment of output-voltage swing

机译：具有自适应调节输出电压摆幅的高能效2.5D硅中介层I / O

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A self-adaptive output swing adjustment is introduced for the design of energy-efficient 2.5D through-silicon interposer (TSI) I/Os. Instead of transmitting signal with large voltage swing, Q-learning based self-adaptive adjustment is deployed to adjust I/O output-voltage swing under constraints of both power budget and bit error rate (BER). Experimental results show that the adaptive 2.5D TSI I/Os designed in 65nm CMOS can achieve an average of 13mW I/O power, 4GHz bandwidth and 3.25pJ=bit energy efficiency for one channel under 10 BER, which has 21.42% reduction of power and 14.47% energy efficiency improvement.

机译：引入了自适应输出摆幅调整，以设计节能的2.5D直插式硅中介层（TSI）I / O。代替传输具有大电压摆幅的信号，部署了基于Q学习的自适应调整来在功率预算和误码率（BER）的约束下调整I / O输出电压摆幅。实验结果表明，在65nm CMOS上设计的自适应2.5D TSI I / O可以在10 BER下实现一个通道的平均13mW I / O功率，4GHz带宽和3.25pJ =位能量效率，从而降低了21.42％的功率并提高了14.47％的能源效率。

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《IEEE/ACM International Symposium on Low Power Electronics and Design》||93-98|共6页
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Dongjun Xu; Sai Manoj P.D.; Hantao Huang; Ningmei Yu; Hao Yu;
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2.5D integration; I/O Channel controller; Q-learning; TSI I/O; output-voltage swing tuning;

机译：2.5D集成; I / O通道控制器; Q学习; TSI I / O;输出电压摆幅调整;

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1. Signal Integrity Design and Analysis of Differential High-Speed Serial Links in Silicon Interposer With Through-Silicon Via [J] . Cho Kyungjun, Kim Youngwoo, Lee Hyunsuk, Components, Packaging and Manufacturing Technology, IEEE Transactions on . 2019,第1期

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2. Interfacial electromagnetic-thermal characterization of a shielded pair through-silicon via a silicon interposer [J] . Liao Chenguang, Zhu Zhangming, Yang Yintang Semiconductor science and technology . 2018,第11期

机译：通过硅中介层对屏蔽硅对的界面电磁热特性
3. Low-Loss Air-Isolated Through-Silicon Vias for Silicon Interposers [J] . H. Oh, P. A. Thadesar, G. S. May, IEEE microwave and wireless components letters . 2016,第3期

机译：用于硅中介层的低损耗空气隔离式硅通孔
4. An energy-efficient 2.5D through-silicon interposer I/O with self-adaptive adjustment of output-voltage swing [C] . Dongjun Xu, Sai Manoj P.D., Hantao Huang, IEEE/ACM International Symposium on Low Power Electronics and Design . 2014

机译：具有自适应输出电压摆幅的能量效率的2.5D直通硅插入器I / O
5. Self-adaptive, scalable and energy-efficient algorithms for unattended sensor networks [D] . Ma, Ming 2007

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6. A Theory for Energy-Optimized Operation of Self-Adaptive Vibration Energy Harvesting Systems with Passive Frequency Adjustment [O] . Mario Mösch, Gerhard Fischerauer 2019

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7. Electrical, optical and fluidic through-silicon vias for silicon interposer applications [O] . Mahavir S. Parekh, Paragkumar A. Thadesar, Muhannad S. Bakir 2011

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8. Self-Adaptive Energy-Efficient Framework for Large Unattended Wireless Sensor Networks. Final Report May 15, 2009-August 15, 2014. [R] . 2014

机译：大型无人值守无线传感器网络的自适应节能框架。最终报告2009年5月15日至2014年8月15日。

An energy-efficient 2.5D through-silicon interposer I/O with self-adaptive adjustment of output-voltage swing

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