Energy-Efficient Monolithic 3-D SRAM Cell With BEOL MoS2 FETs for SoC Scaling

In this article, we propose an energy-efficient monolithic 3-D (M3D) three-tier SRAM cell with back-end-of-the-line (BEOL) back-gated (BG) MoS 2 FETs. The impacts of wire routing resistance and capacitance, gate topology of MoS 2 FETs, and the layout optimization of multitier 6T SRAM cells have been comprehensively analyzed for SoC scaling through system-technology co-optimization. SRAM plays an integral role in the performance of SoCs, and the performance can be improved by SRAM on logic integration. Compared with one-tier BG SRAM cell design, the proposed monolithic three-tier BG SRAM cell releases the impact of metal line resistance and shows a 44.3% reduction in cell area, 28.4% improvement in read access time, 21.3% improvement in dynamic energy, and 43.6% improvement in energy-delay product. The energy- and area-efficient three-tier BG SRAM cell enables intelligent functionalities for the area- and energy-constrained edge computing devices.