Abstract
For the first time, we propose a 3D-monolithic SRAM architecture with a local back-plane for top-tier transistors enabling local back-bias assist techniques without area penalty as well as the capability to route two additional row-wise signals on individual back-planes. Experimental data are extracted from a 14nm planar Fully-Depleted-Silicon-on-Insulator (FDSOI) $0.078\mu \mathrm{m}^{2}$ SRAM in order to properly model 3D top-tier cells. Simulations show this technique yields a 7% bitline capacitance reduction, a 12%/16% read/write access time improvement at $V_{DD}=0.8\mathrm{V}$ and a reduction of minimum operating voltage $V_{min}$ by 60mV at $6\sigma$ w.r.t. planar SRAMs.
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