Title :
Strained SOI FINFET SRAM Design
Author :
Kerber, P. ; Kanj, Rouwaida ; Joshi, Rajiv V.
Author_Institution :
IBM, Yorktown Heights, NY, USA
Abstract :
Impact of strained silicon effects in double-gated FinFET structures on static random access memory (SRAM) cell functionality is presented. Three FinFET silicon-on-insulator (SOI) SRAM cell embodiments representing unstrained, strained, and NFET-only-strained devices are compared against a planar PDSOI SRAM cell design. The metrics encompass both static and dynamic behavior of the cell and are analyzed through 2-D process hardware-calibrated device models (Lg=25 nm). The key findings of this letter are: 1) PFET devices with tensile strain are found to degrade the FinFET cell Read Noise Margin and cell ability to write a strong “1”; 2) by restricting the tensile strain to the NFET devices FinFET SRAM cell Read stability and access times improve by 10%-20% relative to their unstrained FinFET and NFET-only strained PDSOI counterparts.
Keywords :
MOSFET; SRAM chips; semiconductor device models; silicon; silicon-on-insulator; 2D process hardware-calibrated device model; NFET-only-strained device; PFET device; SRAM cell functionality; Si; access time; cell read stability; double-gated FinFET structure; dynamic behavior; planar PDSOI SRAM cell design; read noise margin; silicon-on-insulator; static behavior; static random access memory; strained SOI FinFET SRAM design; strained silicon effect; tensile strain; FinFET; TCAD; silicon-on-insulator (SOI); static random access memory (SRAM); strained silicon-on-insulator (SSOI);
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2013.2264620
