Memory has been facing several problems in which the leakage current is the most severe. Many techniques have been proposed to withstand leakage control such as power gating and ground gating. In this paper a new 8T SRAM cell, which adopts a single bit line scheme has been proposed to limit the leakage current as well as to gain high hold static noise margin. The proposed cell with low threshold voltage, high threshold voltage and dual threshold voltage are used to effectively reduce leakage current, and delay. Additionally, the comparison has been performed between conventional 6T SRAM cell and the new 8T SRAM cell. The proposed circuit consumes 671.22 pA leakage current during idle state of the circuit which is very less as compare to conventional 6T SRAM cell with sleep and hold transistors and with different b ratio. The proposed new 8T SRAM cell shows highest noise immunity 0.329mv during hold state. Furthermore, the proposed new 8T SRAM circuit represents minimum read and write access delays 114.13ps and 38.56ps respectively as compare to conventional 6T SRAM cell with different threshold voltages and b ratio.keywords: SRAM, static noise margin, single bit line, threshold voltage, leakage current, b ratio.
This paper presents a novel low-leakage 10T SRAM cell along with its new read circuitry. It utilizes isolated read path for the read operation that enhances the read stability of the cell as compared to conventional 6T SRAM cell. The proposed cell has been introduced for IoT applications where low power devices are the primary requirement in order to enhance the battery life. To minimize the leakage current, the PMOS transistor has been employed at the read circuitry which assists to minimize the leakage current due to induced stacking effect. The leakage current is 37.66%, 40.11% and 67.39% less as compared to 6T SRAM, 8T SRAM and RDPFC 9T SRAM cells, respectively. The read delay for the proposed cell is 39.80%, 89.13% and 42.33% less as compared to 6T SRAM, 8T SRAM and RDPFC 9T SRAM cells, respectively. Also, the results depict the speed improvement of 48.60%, 52.49% and 55.71% during write “0” and 46.97%, 57.5% and 54.52% improvement during write “1” operation as compared to 6T SRAM, 8T SRAM and RDFC 9T SRAM cells, respectively. The RSNM of the proposed cell is 649 mV that shows enhanced read stability over conventional 6T SRAM cell. The proposed cell proves its robustness against worst-case process variations. All the simulation work has been completed on the Cadence Virtuoso environment at 180 nm technology node.
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