Scaling of conventional CMOS circuit tends to have short channel effects due to which, effect such as drain induced barrier lowering, hot electron effect, punch through etc takes place and hence leakage increases in the transistor. To minimize short channel effects, double gate FinFET is used. FinFET may be the most promising device in the LSI (large scale integration) circuits because it realizes the self-aligned double-gate structure easily. In this paper, six transistors SRAM cell is designed using the tied gate DG FinFET. Subthreshold leakage current and gate leakage current of internal transistors are observed and compared with the conventional structure of 6T SRAM cell. DG FinFET SRAM cell is applied with self controllable voltage level technique and then leakage current is observed. Simulation is performed with cadence virtuoso tool in 45 nm technology. The total leakage of DG FinFET SRAM cell is reduced by 34% after applying self controllable voltage level technique.
Scaling of devices in bulk CMOS technology leads to short-channel effects and increase in leakage. Static random access memory (SRAM) is expected to occupy 90% of the area of SoC. Since leakage becomes the major factor in SRAM cell, it is implemented using FinFET. Further, double-gate FinFET devices became a better choice for deep submicron technologies. With this consideration in our research work, 6T SRAM cell is implemented using independent-gate DG FinFET in which both the opposite sides of gates are controlled independently which provides better scalability to the SRAM cell. The device is implemented using different leakage reduction techniques such as gated-Vdd technique and multithreshold voltage technique to reduce leakage. Therefore, power consumption in the SRAM cell is reduced and provides better performance. Independent-gate FinFET SRAM cell using various leakage reduction techniques has been simulated using Cadence virtuoso tool in 45 nm technology.
In this paper we have proposed a FinFET based 6T static random access memory (SRAM) cell. FinFET devices can be used to improve the performance, reduce the leakage current and power dissipation. The purpose of this article is to reduce the leakage current and leakage power of FinFET based 6T SRAM cell using various techniques in 45 nm technology. FinFET based 6T SRAM cell has been designed and analysis has been carried out for leakage current and leakage power. For low power memory design the most important problem is to minimize the sub-threshold leakage current and gate leakage current. This work introduces a technique based on threshold voltage, gate oxide thickness and power supply setting together to minimize sub-threshold and gate leakage current of 6T SRAM cell. These simulation results are carried out using Cadence Virtuoso Tool at 45 nm technology.
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