In automated design of Very Large Scale of Integration (VLSI) digital circuits with a standard cell approach, accurate timing analysis is of utmost importance. Due to the strong impact of the input (rise/fall) transition time on the delay of succeeding gates in nanometer technologies, the output transition time of CMOS gates must be modeled with adequate accuracy [1]. In this paper, a simple and an accurate output transition time model based on the approach in [2]-[5] are proposed. Extensive model validation has been made by means of Spectre simulations on a 90 nm technology, which confirm the good accuracy of the models.
Alioto, M., Poli, M., Palumbo, G. (2007). Efficient and Accurate Models of Output Transition Time in CMOS Logic. In Proc. of ICECS 2007 (pp.1264-1267). New York : IEEE [10.1109/ICECS.2007.4511227].
Efficient and Accurate Models of Output Transition Time in CMOS Logic
Alioto M.;
2007-01-01
Abstract
In automated design of Very Large Scale of Integration (VLSI) digital circuits with a standard cell approach, accurate timing analysis is of utmost importance. Due to the strong impact of the input (rise/fall) transition time on the delay of succeeding gates in nanometer technologies, the output transition time of CMOS gates must be modeled with adequate accuracy [1]. In this paper, a simple and an accurate output transition time model based on the approach in [2]-[5] are proposed. Extensive model validation has been made by means of Spectre simulations on a 90 nm technology, which confirm the good accuracy of the models.
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https://hdl.handle.net/11365/17294
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