Systematic Design of Loop Circuit Topologies Using C/I DS Methodology

Herein, a systematic approach for designing loop topology circuits, such as ring oscillators (ROs), latches, and frequency dividers, is proposed. The design flow is devised to implement the target circuits with minimum power dissipation at the desired operating frequency. Using a modified [Formula Omitted] methodology, several design examples in different technology nodes are provided showing less than ±5% error in the estimated circuit performance, confirmed by experimental data in 0.18 [Formula Omitted] technology. A standardized procedure has been developed to extract fundamental device characteristics for different technology nodes, which are subsequently fed into an optimizer script. Examples for implementing current-steering ROs and frequency dividers will be provided. The proposed approach can be employed to custom design high-speed sequential logic circuits, as well as voltage-controlled oscillators (VCOs), digitally controlled oscillators (DCOs), and frequency dividers for applications such as clock generators, sequential circuits, and serial data transceivers in modern integrated systems.