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Fast Simulation of Analog Circuit Blocks Under Nonstationary Operating Conditions.

Authors :
Bradde, Tommaso
Grivet-Talocia, Stefano
Toledo, Pedro
Proskurnikov, Anton V.
Zanco, Alessandro
Calafiore, Giuseppe C.
Crovetti, Paolo
Source :
IEEE Transactions on Components, Packaging & Manufacturing Technology. Sep2021, Vol. 11 Issue 9, p1355-1368. 14p.
Publication Year :
2021

Abstract

This article proposes a black-box behavioral modeling framework for analog circuit blocks (CBs) operating under small-signal conditions around nonstationary operating points. Such variations may be induced either by changes in the loading conditions or by event-driven updates of the operating point for system performance optimization, e.g., to reduce power consumption. An extension of existing data-driven parameterized reduced-order modeling techniques is proposed, which considers the time-varying bias components of the port signals as nonstationary parameters. These components are extracted at runtime by a low-pass filter and used to instantaneously update the matrices of the reduced-order state-space model realized as a SPICE netlist. Our main result is a formal proof of quadratic stability of such linear parameter varying (LPV) models, enabled by imposing a specific model structure and representing the transfer function in a basis of positive functions whose elements constitute a partition of unity. The proposed quadratic stability conditions are easily enforced through a finite set of small-size linear matrix inequalities (LMIs), used as constraints during model construction. Numerical results on various CBs, including voltage regulators, confirm that our approach not only ensures the model stability but also provides speedup in runtime up to two orders of magnitude with respect to full transistor-level circuits. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
21563950
Volume :
11
Issue :
9
Database :
Academic Search Index
Journal :
IEEE Transactions on Components, Packaging & Manufacturing Technology
Publication Type :
Academic Journal
Accession number :
153649027
Full Text :
https://doi.org/10.1109/TCPMT.2021.3099215