Title :
Bridging Lithography Processes with NAND Flash ECC Complexity
Author :
Poliakov, P. ; Blomme, P. ; Pret, A. Vaglio ; Corbalan, M. Miranda ; Van Houdt, J. ; Dehaene, W.
Author_Institution :
Process Technol. Div., Imec, Leuven, Belgium
Abstract :
The NAND Flash memory is the technological driver for both critical dimensions scaling and process technologies. In order to keep pace with the Moore´s Law, the scale chip dimensions decrease to the point where variability effects become significant. Particularly, when printed features go down below the 20 nm, transistors structures are strongly affected by pattern roughness caused by the randomness in advanced lithographies (e.g. Extreme UV), leading to variability induced data errors in the memory functionality. Two treatments for variability are known: roughness smoothing processes at the process stage and on-chip error correcting algorithms. This paper describes a holistic framework, which trades-off between lithography processes and error control codes complexity to ensure data integrity in probabilistic 16 nm memories.
Keywords :
NAND circuits; error correction codes; flash memories; lithography; probability; transistors; Moore Law; NAND flash memory ECC complexity; data integrity; error control code; holistic framework; lithography process; on-chip error correcting code algorithm; probabilistic memory; roughness smoothing process; scale chip dimension; size 16 nm; transistor structure; variability induced data error; Arrays; Couplings; Error correction codes; Flash memory; Interference; Lithography; Transistors;
Conference_Titel :
Memory Workshop (IMW), 2011 3rd IEEE International
Conference_Location :
Monterey, CA
Print_ISBN :
978-1-4577-0225-9
Electronic_ISBN :
978-1-4577-0224-2
DOI :
10.1109/IMW.2011.5873235
