Multi-time simulation of voltage-controlled oscillators

Author

Narayan, Onuttom ; Roychowdhury, Jaijeet

Author_Institution

California Univ., Santa Cruz, CA, USA

fYear

1999

fDate

1999

Firstpage

629

Lastpage

634

Abstract

We present a novel formulation. Called the WaMPDE, for solving systems with forced autonomous components. An important feature of the WaMPDE is its ability to capture frequency modulation (FM) in a natural and compact manner. This is made possible by a key new concept: that of warped time, related to normal time through separate time scales. Using warped time, we obtain a completely general formulation that captures complex dynamics in autonomous nonlinear systems of arbitrary size or complexity. We present computationally efficient numerical methods for solving large practical problems using the WaMPDE. Our approach explicitly calculates a time-varying local frequency that matches intuitive expectations. Applied to VCOs, WaMPDE-based simulation results in speedups of two orders of magnitude over transient simulation

Keywords

circuit simulation; frequency modulation; nonlinear network analysis; partial differential equations; voltage-controlled oscillators; WaMPDE; autonomous nonlinear systems; complex dynamics; computationally efficient numerical methods; forced autonomous components; frequency modulation; intuitive expectations; multi-time simulation; time scales; time-varying local frequency; voltage-controlled oscillators; warped multirate partial differential equation; Biological system modeling; Biological systems; Computational modeling; Frequency modulation; Nonlinear systems; Permission; Pervasive computing; Phase locked loops; Voltage control; Voltage-controlled oscillators;

fLanguage

English

Publisher

ieee

Conference_Titel

Design Automation Conference, 1999. Proceedings. 36th

Conference_Location

New Orleans, LA

Print_ISBN

1-58113-092-9

Type

conf

DOI

10.1109/DAC.1999.782019

Filename

782019