Automatic layout synthesis of analog ICs using circuit recognition and constraint analysis techniques

Abstract

A systematic method for automatic layout synthesis of analog integrated circuit modules is presented. This method uses analog circuit recognition and critical net analysis techniques to derive proper layout constraints for analog circuit performance optimization. These layout constraints are analyzed and prioritized according to the recognized analog circuit topologies and classified net sensitivities. The weighted constraints are then used to drive the physical layout generation process to obtain a high-quality custom circuit layout. An efficient, constraint-driven analog floorplanning technique based on a zone-sensitivity partitioning algorithm is specially developed to generate a slicing floorplan incorporating the layout constraints. This layout synthesis approach has three key advantages. First, it can produce a satisfactory analog circuit performance with negligible degradation due to the layout-introduced parasitic effects. Second, it allows a complete automation for netlist-to-layout synthesis so that the layout tool can be used by VLSI system designers. Finally, this method is quite general and can be applied to handle a wide variety of analog circuits. Experimental results in CMOS operational amplifiers and a comparator are presented.