PRACTICAL METHODS FOR WORST-CASE AND YIELD ANALYSIS OF ANALOG INTEGRATED CIRCUITS

Worst-case analysis is commonly used in integrated circuit design to verify a satisfactory circuit performance with regard to changes in the manufacturing conditions. However, worst-case analysis is often carried out using approximate worst-case parameter sets. This paper presents a new approach to the worst-case design of integrated circuits that takes account of fluctuations in the operating conditions. It provides exact and unique worst-case manufacturing conditions and worst-case operating conditions for given circuit specifications. These specifications may be either performance limits or minimum yield requirements. The method is illustrated with the parametric design of integrated CMOS bias stages.