Computer-aided design and characterization of digital MOS integrated circuits

Abstract

A computer-aided circuit-simulation method is developed to enable the design, characterization, and optimization of MOS integrated circuits. The computation of dc and transient characteristics is done in terms of physical device parameters extracted from processing information and incorporated in an analytical device model. It is demonstrated that any MOS circuit configuration (with its associated series resistances and parasitic devices) can be analyzed in terms of an equivalent inverter. Input-output transfer characteristics are obtained by superposition of the load and transistor I-V characteristics, providing the necessary information for dc > `worst-case' design. A simple device model was used to compute circuit transient response. All the computed characteristics are in good agreement with measurements performed on integrated circuits.