Title :
Gate load delay computation using analytical models
Author :
Kahng, Andrew B. ; Muddu, Sudhakar
Author_Institution :
Dept. of Comput. Sci., California Univ., Los Angeles, CA, USA
Abstract :
With submicron technologies, gate delays are dominated by gate load delays rather than intrinsic gate delays. While the common approach for computing gate load delay (or total gate delay) is through delay tables (or k-factor equations), there are important methodology problems associated with the delay table approach. In this paper, we propose a gate driver model with a Thevenin equivalent circuit consisting of a ramp voltage source whose slew time is obtained from the gate slew tables, and a driver resistance in series with the gate load. We then develop analytical gate delay formulas using this Thevenin driver model and modeling the load with various gate load models under both rising and falling ramp input
Keywords :
VLSI; delays; digital integrated circuits; equivalent circuits; integrated circuit interconnections; integrated circuit modelling; Thevenin equivalent circuit; analytical models; driver resistance; falling ramp input; gate driver model; gate load delay computation; ramp voltage source; rising ramp input; slew time; submicron technologies; total gate delay; Analytical models; Capacitance; Capacitors; Delay effects; Delay estimation; Driver circuits; Libraries; Load modeling; Propagation delay; Voltage;
Conference_Titel :
Circuits and Systems, 1996., IEEE Asia Pacific Conference on
Conference_Location :
Seoul
Print_ISBN :
0-7803-3702-6
DOI :
10.1109/APCAS.1996.569308
