Efficient simulation of jitter tolerance for all-digital data recovery circuits

Author

Ahmed, S.I. ; Kwasniewski, Tad A.

Author_Institution

Carleton Univ., Ottawa

fYear

2007

fDate

5-8 Aug. 2007

Firstpage

1070

Lastpage

1073

Abstract

Clock and data recovery (CDR) Circuits are being increasingly marketed as intellectual property (IP) blocks for complex system-on-chip (SoC) and network-on-chip (NoC) products. As part of the mixed-signal design flow, an early estimation of system-level performance requires efficient simulation techniques and models to establish design requirements. In this paper we present some of the challenges associated with and efficient methods to estimate the jitter tolerance of an all-digital data recovery circuit. The key insight is that since it is the maximum slope of the phase-modulating sinusoid that causes transient bit errors, an arbitrary waveform with the same maximum slope can be used for a shorter simulation study. We also present known limitations associated with the general usage of this newly proposed method.

Keywords

clocks; jitter; synchronisation; all-digital data recovery circuit; arbitrary waveform; clock circuit; intellectual property block; jitter tolerance; mixed-signal design flow; network-on-chip; phase-modulating sinusoid; system-on-chip; transient bit error; Circuit simulation; Clocks; Discrete event simulation; Hardware design languages; Intellectual property; Jitter; Macrocell networks; Network-on-a-chip; System-on-a-chip; Testing; BERT; Behavioral; Data Recovery; Jitter Tolerance; PRBS; SoC; Verilog-A;

fLanguage

English

Publisher

ieee

Conference_Titel

Circuits and Systems, 2007. MWSCAS 2007. 50th Midwest Symposium on

Conference_Location

Montreal, Que.

ISSN

1548-3746

Print_ISBN

978-1-4244-1175-7

Electronic_ISBN

1548-3746

Type

conf

DOI

10.1109/MWSCAS.2007.4488745

Filename

4488745