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Using “capacitive” crossbar arrays for compute-in-memory (CIM) offers higher energy efficiency compared to “resistive” crossbar arrays. The non-volatile capacitive (nvCap) synapse has been recently reported in MFM and MFS stacks with asymmetric electrode interfaces. In this work, a foundry FeFET is leveraged as the capacitive synapse for the first time, where the tunable gate-to-drain and gate-to-source capacitances (C {₆₃} and C {₆ₒ}) are exploited as the capacitive memory states. High capacitance on/off ratio (~25) is obtained by relatively low program/erase voltages (±3. 5V). Furthermore, it is demonstrated by TCAD simulation that the physical origins of on-state and off-state capacitance are dominated by the inversion capacitance and the overlap capacitance, respectively. Based on these results, design guidelines are presented to further increase the on/off ratio.
Kim et al. (Fri,) studied this question.
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