A single-ended low leakage and low voltage 10T SRAM cell with high yield

This paper presents a low leakage power 10T single-ended SRAM cell in the sub-threshold region that improves read, write, and hold stability. While at low voltages, the write-ability is increased by temporarily floating the data node, the read stability of the cell is maintained approximately as equal as the hold state by separating the data-storage node from the read bit line by using only a single transistor. According to Simulations using HSPICE software in 10 nm FinFET technology, the read stability of the proposed cell is approximately 4.8x higher than the conventional 6T at 200 mV. Furthermore, the proposed cell is found to have the lowest static power dissipation, as it tends to be 4% lower than the standard six-transistor cell at this voltage. This study shows that the yield of the proposed cell is higher than 6 sigma in all operations, and supply voltages down to 200 mV.