CMOS逆变器驱动损耗传输线能量耗散的综合研究

Proceedings of the IEEE 2002 Custom Integrated Circuits Conference (Cat. No.02CH37285) Pub Date : 2002-08-07 DOI:10.1109/CICC.2002.1012895

P. Heydari, S. Abbaspour, Massoud Pedram

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引用次数: 12

摘要

本文给出了CMOS逆变器驱动的损耗传输线能量耗散的新公式，并提出了一种新的时延约束下的能量优化性能指标。利用损耗耦合传输线驱动点阻抗的近似表达式得到了能量表达式，而驱动点阻抗本身是通过求解电报方程得到的。对各种栅极进行了全面的能量分析。驱动晶体管的宽高比。为了完成这项任务，需要合成两个能够在宽频率范围内对传输线进行建模的稳定电路。实验结果表明，用这些等效电路计算的能量与直接求解更复杂的传输线方程计算的能量几乎相等。其次，利用一种新的性能度量，研究了时延约束下互连和驱动器的几何变化对能量优化的影响。实验结果验证了模型的准确性。

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A comprehensive study of energy dissipation in lossy transmission lines driven by CMOS inverters

In this paper, new formulations for the energy dissipation of lossy transmission lines driven by CMOS inverters are provided, and a new performance metric for the energy optimization under the delay constraint is proposed. The energy formulations are obtained by using approximated expressions for the driving-point impedance of lossy coupled transmission lines which itself is derived by solving Telegrapher's equations. A comprehensive analysis of energy is performed for a wide variety range of the gate. aspect-ratios of the driving transistors. To accomplish this task, two stable circuits that are capable of modeling the transmission line for a broad range of frequencies are synthesized. Experimental results show that the energy calculated using these equivalent circuits are almost equal to the one calculated by solving the more complicated transmission line equations directly. Next, using a new performance metric the effect of geometrical variations of the interconnect and the driver on the energy optimization under the delay constraint is studied. The experimental results verify the accuracy of our models.

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Proceedings of the IEEE 2002 Custom Integrated Circuits Conference (Cat. No.02CH37285)

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