A routing methodology for analog integrated circuits

Abstract

A general methodology for the design of the interconnections of analog circuits to meet high-level constraints on performance is described. In this approach, sensitivities of performance to parasitics are computed, and a set of bounding constraints for parasitics is determined. Sensitivities are then used to generate the weights for a cost function-driven analog area router. After the routing is completed, the actual values of critical parasitics are used to check if the user-defined constraints on circuit performance are met. If the requirements have not been satisfied, the bounding constraints generated on the parasitics are used to increase the weights associated with the parasitics which violated the constraints, and the circuit is rerouted. Results validating the effectiveness of this approach for layout-design automation of analog circuits are reported.<>