Title :
Row/column redundancy to reduce SRAM leakage in presence of random within-die delay variation
Author :
Goudarzi, Maziar ; Ishihara, Takuya
Author_Institution :
Syst. LSI Res. Center, Kyushu Univ., Fukuoka, Japan
Abstract :
Traditionally, spare rows/columns have been used in two ways: either to replace too leaky cells to reduce leakage, or to substitute faulty cells to improve yield. In contrast, we first choose a higher threshold voltage (Vth) and/or gate-oxide thickness (Tox) for SRAM transistors at design time to reduce leakage, and then substitute the resulting too slow cells by spare rows/columns. We show that due to within-die delay variation of SRAM cells only a few cells violate target timing at higher Vth or Tox; we carefully choose the Vth and Tox values such that the original memory timing-yield remains intact for a negligible extra delay. On a commercial 90 nm process assuming 3% variation in SRAM cell delay, we obtained 47% leakage reduction by adding only 5 redundant columns at negligible area, dynamic power and delay costs.
Keywords :
SRAM chips; delays; transistors; SRAM transistors; column redundancy; gate-oxide thickness; leaky cells replacement; random within-die delay variation; row redundancy; size 90 nm; threshold voltage; Circuits; Delay; Gate leakage; Large scale integration; Manufacturing processes; Permission; Random access memory; Redundancy; Threshold voltage; Timing; SRAM; delay variation; leakage power; power reduction; process variation; random variation; redundancy; spare column; spare row;
Conference_Titel :
Low Power Electronics and Design (ISLPED), 2008 ACM/IEEE International Symposium on
Conference_Location :
Bangalore
Print_ISBN :
978-1-4244-8634-2
Electronic_ISBN :
978-1-60558-109-5
DOI :
10.1145/1393921.1393947
