DocumentCode
233795
Title
A New Sensitivity-Driven Process Variation Aware Self-Repairing Low-Power SRAM Design
Author
Yadav, Nakul ; Dutt, Souradeep ; Sharma, G.K.
Author_Institution
ABV - Indian Inst. of Inf. & Manage. Gwalior, Gwalior, India
fYear
2014
fDate
5-9 Jan. 2014
Firstpage
116
Lastpage
121
Abstract
Variation in process parameters results in an appalling number of SRAM failures which jeopardize design yield. These variations are expected to get further aggravate with technology scaling. Adaptive Body Bias (ABB) and Dynamic Voltage Scaling (DVS) are the useful techniques to alleviate the impact of process variation. However, with continued technology scaling, the achievable performance by ABB or DVS alone is becoming limited. In this paper, we propose a process corner based sensitivity-driven approach for self-restoring SRAM design by amalgamating ABB with DVS. More importantly, we leverage the contradiction between read-write stabilities and uneven conduct of inter-die process variation to Noise Margins (NMs) as a blessing of low-power SRAM design. Simulation results based on PTM 32nm CMOS technology quantify the viability and effectiveness of the scheme. Proposed approach meliorate Static Noise Margin (SNM), Read Noise Margin (RNM) and Write Margin (WM) by 12.6%, 59.2%and 6.1%, respectively. In addition, leakage current is reduced by 57.1% and a power redeem of 67.9%, 13.1% and 5.2% is achieved in hold, read and write mode, respectively.
Keywords
CMOS digital integrated circuits; SRAM chips; integrated circuit design; low-power electronics; sensitivity; ABB; DVS; PTM CMOS technology; RNM; SNM; WM; adaptive body bias; dynamic voltage scaling; hold mode; interdie process variation; process corner; read noise margin; read-write stabilities; self-repairing low-power SRAM design; sensitivity-driven process variation awareness; size 32 nm; static noise margin; technology scaling; write margin; Circuit stability; Noise; SRAM cells; Stability analysis; Threshold voltage; Voltage control;
fLanguage
English
Publisher
ieee
Conference_Titel
VLSI Design and 2014 13th International Conference on Embedded Systems, 2014 27th International Conference on
Conference_Location
Mumbai
ISSN
1063-9667
Type
conf
DOI
10.1109/VLSID.2014.27
Filename
6733116
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