DocumentCode
3518066
Title
32nm Embedded DRAM Reaching 400MHz and 0.1mm²/Mb on a Low Cost and Low Power Process
Author
Vernet, M. ; Jeantet, O. ; Parashar, A. ; Degoirat, H. ; Verma, P. Kumar ; Yadav, S. Kumar ; Chawla, K. ; Atif, M. ; Handa, T. ; Sharad, S. ; Penaka, G.P. ; Kundu, R. ; Nantet, S. ; Crémer, S. ; Goducheau, O.
Author_Institution
STMicroelectronics, Crolles, France
fYear
2011
fDate
22-25 May 2011
Firstpage
1
Lastpage
4
Abstract
This paper presents an embedded DRAM memory design on 32 nm Low Power process using recently introduced Capacitor Over Low-K (COLK) bitcell architecture. It consists in the 1st functional silicon demonstration of 32 nm embedded DRAM macrocell with unrivalled density of O.lmmVMbit. The memory features a high performance sense amplifier with tunable reference level, an overdriven reliability-friendly row decoder with adjusted voltage and a low swing although flexible data transfer scheme. Making low cost eDRAM with 2.5 ns cycle time available on 32 nm low power platform opens new opportunities for consumer electronics devices such as advanced smartphones or graphical handheld devices.
Keywords
DRAM chips; amplifiers; capacitors; consumer electronics; integrated circuit reliability; integrated logic circuits; low-power electronics; COLK bitcell architecture; amplifier; capacitor over low-K bitcell architecture; consumer electronics device; embedded DRAM macrocell; embedded DRAM memory design; flexible data transfer scheme; frequency 400 MHz; graphical handheld device; low cost process; low power process; overdriven reliability-friendly row decoder; size 32 nm; smartphone; time 2.5 ns; tunable reference level; Capacitors; Computer architecture; Driver circuits; Macrocell networks; Performance evaluation; Random access memory; Reliability;
fLanguage
English
Publisher
ieee
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
Type
conf
DOI
10.1109/IMW.2011.5873202
Filename
5873202
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