A Verilog Piecewise-Linear Analog Behavior Model for Mixed-Signal Validation

Author

Liao, Shengcai ; Horowitz, Mark

Author_Institution

Dept. of Electr. Eng., Stanford Univ., Stanford, CA, USA

Volume

61

Issue

8

fYear

2014

fDate

Aug. 2014

Firstpage

2229

Lastpage

2235

Abstract

Full chip mixed-signal validation requires simulating the entire design through a large number of test vectors, which makes fast, event-based Verilog models of analog circuits essential. We describe an extensible approach to creating these models that maps continuous signals into piecewise linear waveforms by creating analog events which contain a value and slope. By breaking analog circuits into sub-blocks with mostly unidirectional ports, we avoid explicit time integration, thus fitting well into an event-driven digital framework. The result is Verilog analog functional models that are pin-accurate, fast to simulate, and capture the key dynamics in analog circuits. A 250 Ms/s open-loop track and hold circuit, 2.5 V-1.8 V buck converter, and 1 GHz PLL models are demonstrated.

Keywords

analogue circuits; electronic engineering computing; hardware description languages; phase locked loops; piecewise linear techniques; power convertors; sample and hold circuits; PLL model; Verilog analog functional model; Verilog piecewise-linear analog behavior model; analog circuit; analog circuit essential; buck converter; continuous signals; event-based Verilog model; event-driven digital framework; explicit time integration; full-chip mixed-signal validation; open-loop track and hold circuit; piecewise linear waveform; unidirectional ports; Equations; Hardware design languages; Mathematical model; Noise; Phase locked loops; SPICE; Transfer functions; Analog functional modeling; mixed-signal; validation;

fLanguage

English

Journal_Title

Circuits and Systems I: Regular Papers, IEEE Transactions on

Publisher

ieee

ISSN

1549-8328

Type

jour

DOI

10.1109/TCSI.2014.2332265

Filename

6847746