Partition Bound Random Number-Based Particle Swarm Optimization for Analog Circuit Sizing

Document Type

Article

Publication Title

IEEE Access

Abstract

This work introduces a Partition Bound Particle Swarm Optimization (PB-PSO) algorithm to enhance convergence rates in analog circuit optimization. Two new parameters, $\zeta {1}$ and $\zeta {2}$ , are incorporated to adaptively update particle velocities based on iteration numbers. The parameter $\zeta {1}$ depends on the non-linear convergence factor ( $\alpha $ ) and the number of iterations, $N$. The results indicate that $\zeta {1}$ 's optimal value occurs with $\alpha = 4.~\zeta{2}$ partitions iterations into two regions, aiding local and global search. The PB-PSO algorithm, implemented in Python, demonstrates higher convergence rates than existing methods, with successful designs verified through Cadence-Virtuoso circuit simulations. The proposed PB-PSO algorithm converges in 15 and 13 iterations for differential amplifier and two-stage op-amp respectively. For a case study of two-stage amplifier, it achieves a gain of 60.4 dB with a phase margin of 79.76°, meeting input specifications within constraints. The figure of merit was then evaluated using the obtained parameters, which turns out to be 0.275 $V^{-2}$.

First Page

123577

Last Page

123588

DOI

10.1109/ACCESS.2023.3329698

Publication Date

1-1-2023

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