| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 542675 | Integration, the VLSI Journal | 2016 | 9 Pages |
•A new robustness model that estimates robustness of both design variability and performance uncertainty.•A two-way mapping design framework that integrates design space robustness and performance space robustness.•A surrogate-based optimization procedure for the proposed design methodology.•Promising robustness improvements compared with the conventional robust design approach.
With the increase in device variability, the performance uncertainty poses a daunting challenge to analog/mixed-signal circuit design. This situation requires a robust design approach to add large margins to the circuit and system-level specification to ensure correct operation and the overall yield. In this paper, we propose a new robust design approach by using norm metrics to quantify the robustness for both design parameters and performance uncertainty. In addition, we adopt a surrogating procedure to achieve robustness in design space and to reduce uncertainty in performance space. The end result of the proposed method is a Pareto-surface that provides the designer with trade-offs between design robustness and performance uncertainty. One advantage of this new approach is the ability to take into account the strong nonlinear relationship between performance and design parameters. Considering a set of highly nonlinear circuit performances, we demonstrate the effectiveness of this robust design framework on a fully CMOS operational amplifier circuit.
