Title :
Impact of Single Trap Random Telegraph Noise on Heterojunction TFET SRAM Stability
Author :
Pandey, Rashmi ; Saripalli, Vinay ; Kulkarni, Jaydeep P. ; Narayanan, Vijaykrishnan ; Datta, Soupayan
Author_Institution :
Pennsylvania State Univ., University Park, PA, USA
Abstract :
We investigate the effect of a single charge trap random telegraph noise (RTN)-induced degradation in III-V heterojunction tunnel FET (HTFET)-based SRAM. Our analysis focuses on Schmitt trigger (ST) mechanism-based variation tolerant ten-transistor SRAM. We compare iso-area SRAM cell configurations in Si-FinFET and HTFET. Our results show that HTFET ST SRAMs provide significant energy/performance enhancements even in the presence of RTN. For sub-0.2 V operation (Vcc), HTFET ST SRAM offers 15% improvement in read-write noise margins along with better variation immunity from RTN over Si-FinFET ST SRAM. A comparison with iso-area 6T Si-FinFET SRAM with wider size transistors shows 43% improved read noise margin in 10T HTFET ST SRAM at Vcc=0.175 V. In addition, HTFET ST SRAM exhibits 48X lower read access delay and 1.5X reduced power consumption over Si-FinFET ST SRAM operating at their respective Vcc-min.
Keywords :
III-V semiconductors; SRAM chips; field effect transistors; low-power electronics; trigger circuits; tunnel transistors; III-V heterojunction tunnel FET; RTN-induced degradation; Schmitt trigger; energy-performance enhancements; heterojunction TFET SRAM stability; iso-area SRAM cell configurations; power consumption; random telegraph noise; read access delay; read-write noise margins; single charge trap; variation immunity; variation tolerant ten-transistor; voltage 0.175 V; voltage 0.2 V; Degradation; Heterojunctions; Noise; SRAM cells; Transistors; Heterojunction TFET; SRAM; TCAD simulation; electrical noise; random telegraph noise (RTN); trap;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2014.2300193
