6T CMOS SRAM Stability in Nanoelectronic Era: From Metrics to Built-in Monitoring

The digital technology in the nanoelectronic era is based on intensive data processing and battery-based devices. As a consequence, the need for larger and energy-efficient circuits with large embedded memories is growing rapidly in current system-on-chip (SoC). In this context, where embedded SRAM yield dominate the overall SoC yield, the memory sensitivity to process variation and aging effects has aggressively increased. In addition, long-term aging effects introduce extra variability reducing the failure-free period. Therefore, although stability metrics are used intensively in the circuit design phases, more accurate and non-invasive methodologies must be proposed to observe the stability metric for high reliability systems. This chapter reviews the most extended memory cell stability metrics and evaluates the feasibility of tracking SRAM cell reliability evolution implementing a detailed bit-cell stability characterization measurement. The memory performance degradation observation is focused on estimating the threshold voltage (Vth) drift caused by process variation and reliability mechanisms. A novel SRAM stability degradation measurement architecture is proposed to be included in modern memory designs with minimal hardware intrusion. The new architecture may extend the failure-free period by introducing adaptable circuits depending on the measured memory stability parameter