Description

Flip-flops and latches are used as data storage elements. Such data storage can be used for storage of state.. Flip-flops can be either simple (transparent or opaque) or clocked (synchronous or edge-triggered). Here, we propose a design of low power SRAM architecture using CMOS technology. The proposed memory CMOS design is based on Swapped MOS technology. Our work, the proposed system is to design of 6T, 8T, 10T with sleep transistor based data storage architecture. Then to optimize the data storage devise and to reduce the power consumption. The portability in the electronic circuits are achieved by the use of battery. So we have make designs for low power consumption. As the technology in electronic circuits is improving, the complexity in the circuits also increases. The complexity in the circuits leads to the need of that type of circuits which are portable and fast circuits. The SRAM design is used to reduce the power consumption level, during the read and write operation. In this architecture, our work is to design a 8*8 bit 6T-sram memristor with sleep transistor architecture design. This design is to reduce the circuit complexity level and power consumption level. Existing system is to design a 7T-sram memristor CMOS design is to modify the storage process. This design is to implement the multi threshold CMOS function. This existing function is to optimize the read and writing process for memristor storage unit and to reduce the overall leakage power level. Our proposed work is to design the 6T based SRAM architecture with sleep transistor technique and we design the 8 * 8 SRAM cell design. This sleep transistor design is reduce leakage power when these operate in “stand-by mode” due to inefficient passing of the voltages (pass-transistors property). Our proposed work is to reduce the power and circuit complexity level. This work is to reduce the overall transistor count for memory cell storage operation.