IEEE Access (Jan 2020)

Ready-to-Fabricate RF Circuit Synthesis Using a Layout- and Variability-Aware Optimization-Based Methodology

  • Fabio Passos,
  • Elisenda Roca,
  • Ricardo Martins,
  • Nuno Lourenco,
  • Saiyd Ahyoune,
  • Javier Sieiro,
  • Rafael Castro-Lopez,
  • Nuno Horta,
  • Francisco V. Fernandez

DOI
https://doi.org/10.1109/ACCESS.2020.2980211
Journal volume & issue
Vol. 8
pp. 51601 – 51609

Abstract

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In this paper, physical implementations and measurement results are presented for several Voltage Controlled Oscillators that were designed using a fully-automated, layout- and variability-aware optimization-based methodology. The methodology uses a highly accurate model, based on machine-learning techniques, to characterize inductors, and a multi-objective optimization algorithm to achieve a Pareto-optimal front containing optimal circuit designs offering different performance trade-offs. The final outcome of the proposed methodology is a set of design solutions (with their GDSII description available and ready-to-fabricate) that need no further designer intervention. Two key elements of the proposed methodology are the use of an optimization algorithm linked to an off-the-shelf simulator and an inductor model that yield EM-like accuracy but with much shorter evaluation times. Furthermore, the methodology guarantees the same high level of robustness against layout parasitics and variability that an expert designer would achieve with the verification tools at his/her disposal. The methodology is technology-independent and can be used for the design of radio frequency circuits. The results are validated with experimental measurements on a physical prototype.

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