Sharif Digital Repository

SRAM cell stability assessment is traditionally based on static criteria of data stability requiring three coincident points in DC butterfly curves. This definition is based on static (DC) characteristics of the cell transistors. We introduce the dynamic criteria of cell data stability knowing that the cell operates in a dynamic environment alternating between access and non-access conditions. The proposed definition of the dynamic data stability criteria introduces a new bound for the cell static noise margin (SNM). It reveals that the true noise margin of the cell can be made considerably higher than the conventional SNM once the cell access time is sufficiently shorter than the cell... 

A fast statistical method for the analysis of the Read SNM of a 6 T SRAM cell in near/subthreshold region is proposed. The method is based on the nonlinear behavior of the cell. DIBL and body effects are thoroughly considered in the derivation of an accurate closed form solution for the Read Static Noise Margin (SNM) of the near/subthreshold SRAM cell. This method uses the state space equation to derive the Read SNM of the cell as a function of threshold voltage of cell transistors. This function shows the dependency of the Read SNM on sizing, VDD, temperature, and threshold voltage variations. It provides a fast reliability analysis for a cell array of a given size and a supply voltage. It... 

This brief introduces a differential eight-transistor static random access memory (SRAM) cell for subthreshold SRAM applications. The symmetric topology offers a smaller area overhead compared with other symmetric cells for the same stability in the read operation. Two transistors isolate the cell storage nodes from the read operation path to maintain the data stability of the cell. This topology improves the data stability at the expense of read operation delay. Thorough postlayout Monte Carlo worst corner simulations in 45-nm CMOS technology are conducted. The proposed cell operates down to 0.35 V with a read noise margin of 74 mV and a write noise margin of 92 mV. Under this condition,... 

Based on the dynamic criteria for data stability, we introduce segmented virtual grounding architecture with extended read, write noise margin to realize a low leakage current, energy efficient SRAM module. The architecture offers subthreshold operation for the entire module, except for the selected segments. In addition, a new operational mode for the SRAM cell is introduced which allows only the bitlines of the selected columns to be discharged in an operation. The stability of the cells is enhanced in both read and write operation by controlling the cell access time and cell supply voltage, respectively. A 2048$, imes,$20 bit eSRAM unit is implemented in a regular 0.13 $muhbox{m} $ CMOS...