Analytical Modeling of SRAM Dynamic Stability

Author

Zhang, Bin ; Arapostathis, Ari ; Nassif, Sani ; Orshansky, Michael

Author_Institution

Dept. of Electr. & Comput. Eng., Univ. of Texas, Austin, TX

fYear

2006

Firstpage

315

Lastpage

322

Abstract

In this paper, for the first time, a theory for evaluating dynamic noise margins of SRAM cells is developed analytically. The results allow predicting the transient error susceptibility of an SRAM cell using a closed-form expression. The key innovation involves using the methods of nonlinear system theory in developing the model. It is shown that when a transient noise of given magnitude affects a sensitive node of a cell, the bi-stable, feedback-driven nature of the cell determines whether the noise will be suppressed or will evolve to eventually flip state. The specific formal and quantitative result is a closed-form expression that can be used to predict whether a cell flip will occur for a noise signal with specific characteristics, and for a given SRAM cell design. Experiments show excellent match between the analytical prediction and the SPICE simulation results

Keywords

SRAM chips; integrated circuit noise; SRAM dynamic stability; dynamic noise margin; nonlinear system theory; Analytical models; Closed-form solution; Nonlinear dynamical systems; Nonlinear systems; Predictive models; Random access memory; SPICE; Signal design; Stability analysis; Technological innovation;

fLanguage

English

Publisher

ieee

Conference_Titel

Computer-Aided Design, 2006. ICCAD '06. IEEE/ACM International Conference on

Conference_Location

San Jose, CA

ISSN

1092-3152

Print_ISBN

1-59593-389-1

Electronic_ISBN

1092-3152

Type

conf

DOI

10.1109/ICCAD.2006.320052

Filename

4110192