Cell Variability Impact on the One-Selector One-Resistor Cross-Point Array Performance

This paper investigates the impact of cell variability on the read performance of the one-selector one-resistor (1S1R) cross-point array. A variability-aware array-sizing analysis methodology is introduced, considering three independent variability sources, namely, the data pattern randomness, the selector variability, and the resistive switching element (RSE) variability. By analyzing the impact of each variability factor separately, we show that the data pattern randomness is not an important contributor for the read margin (RM) degradation. While the intrinsic RSE variability reflected in the narrowing of the ON/OFF RSE window degrades the RM, the selector variability adds to this further, mainly affecting the ON-state readout current, and causing extra RM degradation. To accommodate cell variability and guarantee acceptable read performance, additional cell performance margin is required. The 1S1R requirements are extrapolated for 1-Mb array, assuming variability-affected cells. It is found that, with a typical selector variability, a minimal RSE window of 5 and a selector half-bias nonlinearity of ~8000 are required to achieve at least 10% RM.