We compare the performance of static random access memory (SRAM) cells based on negative capacitance (NC) FinFETs and reference FinFETs at the 7-nm technology node. We use a physics-based model for NC FinFETswhere we couple the Landau–Khalatnikovmodel of ferroelectric materials with the standard BSIM-CMG model of FinFET. For the reference FinFETs, we use the predictive model parameters optimized for SRAM design as per the ASAP7 PDK. We exploit the unique characteristics of NC-FinFETs and demonstrate that for ferroelectric thickness below a critical value, SRAMs with higher hold and read stability, better write-ability, lower leakage as well as faster read access time can be designed at the cost of increased write delay.