Low Leakage and PDP Optimized FinFET based 8T SRAM Design

The paper proposes a Fin Field Effect Transistors (FinFETs) based SRAM design comprising of 8 transistors. The circuit utilizes channel length of 22 nanometers. The operation of this circuit is dependent upon the control switch CS that decides the operating mode and minimizes the leakage current flowing in the cell which in turn lowers the leakage power to a minimal value of 0.331pW. The read buffer available in the design provides a different path for read mode and also enhances the Read Static Noise Margin (RSNM), thus enhancing the readability of the circuit.This design is also able to operate at a minimal voltage of 70mV, thus efficiently utilizing the power available. It also optimizes the power delay product (PDP) for both read and write operations

Ultra-low Power FinFET SRAM Cell with improved stability suitable for low power applications

In this paper, a new 11T SRAM cell using FinFET technology has been proposed, the basic component of the cell is the 6T SRAM cell with 4 NMOS access transistors to improve the stability and also makes it a dual port memory cell. The proposed cell uses a header scheme in which one extra PMOS transistor is used which is biased at different voltages to improve the read and write stability thus, helps in reducing the leakage power and active power. The cell shows improvement in RSNM (Read Static Noise Margin) with LP8T by 2.39x at sub-threshold voltage 2.68x with D6T SRAM cell, 5.5x with TG8T. The WSNM (Write Static Noise Margin) and HM (Hold Margin) of the SRAM cell at 0.9V is 306mV and 384mV. At sub-threshold operation also it shows improvement. The Leakage power reduced by 0.125x with LP8T, 0.022x with D6T SRAM cell, TG8T and SE8T. Also, impact of process variation on cell stability is discussed