Title :
Variation-Aware Structural Synthesis of Analog Circuits via Hierarchical Building Blocks and Structural Homotopy
Author :
McConaghy, Trent ; Palmers, Pieter ; Steyaert, Michiel ; Gielen, Georges G E
Abstract :
This paper presents MOJITO-R, a tool that performs variation-aware structural synthesis of analog circuits. It returns trustworthy topologies by searching across a space of thousands of possible topologies defined by hierarchically organized analog structural building blocks. ldquoStructural homotopyrdquo conducts search at several objective-function tightening levels (numbers of process corners) simultaneously. Multiobjective evolutionary search returns sized topologies which trade off power, area, performances, and yield. An experimental validation run returned 78 643 Pareto-optimal designs, having 982 sized topologies with various specification/yield combinations. A decision tree is extracted to visualize the performance-topology relationship.
Keywords :
Pareto optimisation; analogue circuits; MOJITO-R; Pareto-optimal designs; analog circuits; decision tree; hierarchical building blocks; objective-function tightening levels; performance-topology relationship; structural homotopy; variation-aware structural synthesis; Analog; design automation; integrated circuit; multiobjective optimization; process variation;
Journal_Title :
Computer-Aided Design of Integrated Circuits and Systems, IEEE Transactions on
DOI :
10.1109/TCAD.2009.2023195
