Design of High-Reliability Memory Cell to Mitigate Single Event Multiple Node Upsets

Abstract

As technology scaling down, the sensitivity of SRAM cells to radiation-induced Single Event Upsets (SEUs) increases, and Single Event Multiple Node Upsets (SEMNUs) due to charge sharing has also become one of the major concerns in memory cell designs. In this paper, a high-reliability radiation hardened memory cell (RH-14T) is proposed to mitigate SEMNUs. SPICE simulations and 3D technology computer aided design mixed-mode simulations were performed to verify the high robustness of the RH-14T cell to SEUs. Compared with previous radiation hardened memory cells, the proposed RH-14T cell has similar read access time, smaller write access time, and the read access time and write access time are less sensitive to process variations. The Read Static Noise Margin (RSNM) and Write Margin (WM) of the RH-14T cell are larger than those of the unhardened conventional 6T SRAM cell. The improvement of reliability is often a trade-off with area, power consumption and performance. In order to achieve high reliability, the RH-14T cell employs more transistors, so it has 1.5 times the power consumption overhead of 6T and a larger area penalty.