Title :
Generic and Accurate Whitebox Behavioral Model for Fast Simulation of Analog Effects in Nanometer CMOS Digital Logic Circuits
Author :
Loeckx, Johan ; Gielen, Georges G E
Author_Institution :
MICAS, Katholieke Univ. Leuven, Leuven
fDate :
5/1/2009 12:00:00 AM
Abstract :
Digital CMOS circuits are praised because of their noise immunity. However, lowering power supply voltages and shrinking device sizes, in combination with the rising electromagnetic pollution, have made this statement no longer true. An accurate behavioral model is presented for the analog simulation of digital logic circuits. The model building is automated and scalable in the sense that it allows a tradeoff between model-building speed and accuracy. The proposed model is validated on a seven-stage CMOS ring oscillator and a 112-transistor 4-bit adder, excellent test cases to demonstrate the accuracy. The RMS error remains below 5% in case of electromagnetic interference, and below 2% in all other cases, while achieving speed-ups up to 400times.
Keywords :
CMOS digital integrated circuits; CMOS logic circuits; adders; electromagnetic interference; oscillators; CMOS ring oscillator; bit adder; electromagnetic interference; electromagnetic pollution; nanometer CMOS digital logic circuits; noise immunity; power supply voltages; transistor; white box behavioral model; CMOS analog integrated circuits; CMOS digital integrated circuits; CMOS logic circuits; Circuit noise; Circuit simulation; Electromagnetic devices; Logic circuits; Power supplies; Semiconductor device modeling; Voltage; Behavioral modeling; digital immunity; electromagnetic interference (EMI); electromagnetic susceptibility; integrated circuits;
Journal_Title :
Electromagnetic Compatibility, IEEE Transactions on
DOI :
10.1109/TEMC.2009.2014072
