Title :
Design of a 32nm 7T SRAM Cell based on CNTFET for low power operation
Author :
Prasad, S. Rajendra ; Madhavi, B.K. ; Kishore, K. Lal
Author_Institution :
Dept. of ECE, ACE Eng. Coll., Hyderabad, India
Abstract :
The SRAM which functions as the cache for system-on-chip is vital in the electronic industry. Carbon Nanotube FETs (CNTFETs) are considered to be the possible “beyond CMOS” device due to its 1-D transport properties that include low carrier scattering and ballistic transport. Therefore Design of SRAM Cell based on CNTFET is important for Low-power cache memory. In cells, the bit-lines are the most power consuming components because of larger power dissipation in driving long bit-line with large capacitance. The cache write consumes considerable large power due to full voltage swing on the bit-line. This Paper proposes a novel 7T SRAM cell based on CNTFET that only depends on one of bit lines for Write operation and reduce the write-power consumption. The read cycle also improved because of careful transistor sizing. HSPICE simulations of this circuit using Stanford CNFET model shows that 37.2% write power saving, read cycle improvement of 38.6%.
Keywords :
CMOS memory circuits; SRAM chips; cache storage; carbon nanotube field effect transistors; integrated circuit design; system-on-chip; 1D transport properties; CNTFET; HSPICE simulations; SRAM cell design; Stanford CNFET model; ballistic transport; beyond-CMOS device; cache write; carbon nanotube FET; carrier scattering; electronic industry; low-power cache memory; low-power operation; power dissipation; read cycle; size 32 nm; system-on-chip; transistor sizing; voltage swing; write-power consumption; Benchmark testing; CNTFETs; Random access memory;
Conference_Titel :
Devices, Circuits and Systems (ICDCS), 2012 International Conference on
Conference_Location :
Coimbatore
Print_ISBN :
978-1-4577-1545-7
DOI :
10.1109/ICDCSyst.2012.6188756
