A methodology for the automatic synthesis of full-custom IC layout with analog constraints is presented. The methodology guarantees that all performance constraints are met when feasible, or otherwise infeasibility is detected as soon as possible, thus providing a robust and efficient design environment. In the proposed approach, performance specifications are translated into lower level bounds on parasitics or geometric parameters, using sensitivity analysis. Bounds can be used by a set of specialized layout tools performing stack generation, placement, routing and compaction. For each tool, a detailed description is provided of its functionality, of the way constraints are mapped and enforced, and of its impact on the design flow. Examples drawn from industrial applications are reported to illustrate the effectiveness of the approach. Keywords--- Layout, Analog Design, Constraint-Driven Layout. I. Introduction The layout of analog circuits is intrinsically more difficult than the d...

In a constraint-driven layout synthesis environment, parasitic constraints are generated and implemented in each phase of the design process to meet a given set of performance specifications. The success of the synthesis phase depends in great part on the effectiveness and the generality of the constraint generation process. None of the existing approaches to the constraint generation problem however are suitable for a number of parasitic effects in active and passive devices due to non-deterministic process variations. To address this problem a novel methodology is proposed based on the separation of all variables associated with non-deterministic parasitics, thus allowing the translation of the problem into an equivalent one in which conventional constrained optimization techniques can be used. The requirements of the method are a well-defined set of statistical properties for all parasitics and a reasonable degree of linearity of the performance measures relevant to design. 1