Title :
Design technology co-optimization for enabling 5nm gate-all-around nanowire 6T SRAM
Author :
Trong Huynh-Bao ; Sakhare, Sushil ; Ryckaert, Julien ; Yakimets, Dmitry ; Mercha, Abdelkarim ; Verkest, Diederik ; Thean, Aaron Voon-Yew ; Wambacq, Piet
Author_Institution :
Imec, Leuven, Belgium
Abstract :
This paper presents a comprehensive benchmarking and co-optimization of 6T SRAM bitcells designed with 5nm vertical and lateral gate-all-around nanowire FET technology for the first time. A variety of 6T SRAM bitcells configurations combined with different device integration scenarios will be discussed. Our results show that an ultra-dense SRAM bitcell (0.01 um2) can be achieved with vertical FET architecture. The bitcell designed with vertical FET are preferably targeted for low power applications while the lateral FET-based SRAM bitcells could provide 4.5x higher in performance, but resulting in a penalty of 17x increasing in the leakage current compared to the vertical designs. A Vmin of 0.45 V could be obtained for 122 SRAM bitcells implemented with vertical devices.
Keywords :
SRAM chips; circuit optimisation; field effect transistors; integrated circuit design; leakage currents; nanowires; 6T SRAM bitcells configurations; design technology cooptimization; device integration; gate-all-around nanowire 6T SRAM; gate-all-around nanowire FET technology; lateral FET-based SRAM bitcells; leakage current; size 0.01 mum; size 5 nm; ultra-dense SRAM bitcell; vertical FET architecture; vertical devices; voltage 0.45 V; Circuit stability; Computer architecture; Field effect transistors; Leakage currents; Logic gates; Random access memory; 5nm; 6T SRAM; CMOS scaling; DTCO; Vmin; embedded memory; gate-all-around FETs; nanowire; on-chip variation; parametric yield; vertical FET;
Conference_Titel :
IC Design & Technology (ICICDT), 2015 International Conference on
Conference_Location :
Leuven
DOI :
10.1109/ICICDT.2015.7165874
