Reliable and low power Negative Capacitance Junctionless FinFET based 6T SRAM cell

Abstract

The increasing demand of portable gadgets for emerging VLSI applications call for the low power 6 T static random-access memory (SRAM) cell design. In this work, a 6 T SRAM cell has been designed using Negative Capacitance Junctionless FinFET (NC-JL FinFET) device. Further, the NC-JL FinFET based 6 T SRAM cell is evaluated for its power, stability and delay performance for read, write, and hold states and compared with conventional JL FinFET and published JL FinFET based SRAM. To investigate the reliability, the impact of ferroelectric thickness (TFE) and supply voltage (VDD) on the performance of NC-JL FinFET SRAM has also been investigated. It is shown that NC-JL FinFET SRAM dissipates 20% and ∼33% less static and dynamic power, with 1.2-, 1.5- and 1.18-times enhanced static noise margins in read, write, and hold state, respectively than JL FinFET SRAM. It also provides 37% and 20% faster read and write operations.