Scaling trends for random telegraph noise in deca-nanometer Flash memories

Author

Ghetti, A. ; Compagnoni, C. Monzio ; Biancardi, F. ; Lacaita, A.L. ; Beltrami, S. ; Chiavarone, L. ; Spinelli, A.S. ; Visconti, A.

Author_Institution

R&D - Technol. Dev., Numonyx, Agrate Brianza

fYear

2008

fDate

15-17 Dec. 2008

Firstpage

1

Lastpage

4

Abstract

We present a thorough investigation of the random telegraph noise scaling trend for both NAND and NOR floating-gate flash memories, including experimental and physics-based modeling results. The statistical distribution of the random telegraph noise amplitude is computed using conventional 3D TCAD simulations, establishing a direct connection with cell parameters. The analysis results in a simple formula for the random telegraph noise amplitude standard deviation as a function of cell width, length, substrate doping, tunnel oxide thickness and drain bias. All the simulation results are in good agreement with experimental data and are of utmost importance to understand the random telegraph noise instability and to control it in the development of next generation flash technologies.

Keywords

NAND circuits; NOR circuits; flash memories; integrated circuit noise; random noise; statistical distributions; technology CAD (electronics); 3D TCAD simulation; deca-nanometer flash memories; drain bias; random telegraph noise; standard deviation; statistical distribution; substrate doping; tunnel oxide thickness; Computational modeling; Distributed computing; Doping; Flash memory; Noise generators; Noise level; Nonvolatile memory; Semiconductor process modeling; Statistical distributions; Telegraphy;

fLanguage

English

Publisher

ieee

Conference_Titel

Electron Devices Meeting, 2008. IEDM 2008. IEEE International

Conference_Location

San Francisco, CA

ISSN

8164-2284

Print_ISBN

978-1-4244-2377-4

Electronic_ISBN

8164-2284

Type

conf

DOI

10.1109/IEDM.2008.4796827

Filename

4796827