DocumentCode
3351910
Title
Influence of bit line twisting on the faulty behavior of DRAMs
Author
Al-Ars, Zaid ; Herzog, Martin ; Schanstra, Ivo ; Van de Goor, Ad J.
Author_Institution
CatRam Solutions, Delft, Netherlands
fYear
2004
fDate
9-10 Aug. 2004
Firstpage
32
Lastpage
37
Abstract
Bit line twisting is an effective design method commonly used to reduce the impact of bit line coupling noise in high density memory devices. This paper investigates the way bit line twisting influences the faulty behavior of DRAMs, based on an analytical evaluation of coupling effects on the one hand, and a simulation-based fault analysis using a Spice simulation model on the other. Two different DRAM twisting schemes, in addition to a third untwisted bit line scheme, are presented and analyzed. Both the analytical and the simulation-based evaluation results show that each scheme has its own specific impact on the faulty behavior. The same approach presented in the paper can be used to analyze the impact of other bit line twisting schemes on the memory faulty behavior.
Keywords
DRAM chips; SPICE; circuit simulation; integrated circuit noise; DRAM twisting; Spice simulation model; bit line coupling noise; bit line twisting; coupling effects; crosstalk noise; defect simulation; effective design method; high density memory devices; memory faulty behavior; simulation-based fault analysis; Analytical models; Crosstalk; Design engineering; Design methodology; Laboratories; Mathematics; Noise cancellation; Noise reduction; Random access memory; Testing;
fLanguage
English
Publisher
ieee
Conference_Titel
Memory Technology, Design and Testing, 2004. Records of the 2004 International Workshop on
ISSN
1087-4852
Print_ISBN
0-7695-2193-2
Type
conf
DOI
10.1109/MTDT.2004.1327981
Filename
1327981
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