A 290-mV, 7-nm Ultra-Low-Voltage One-Port SRAM Compiler Design Using a 12T Write Contention and Read Upset Free Bit-Cell

In this paper, we present an ultra-low voltage one-port static random access memory (SRAM) compiler targeting small to medium array sizes to provide a smaller area solution compared to conventional 6T-based SRAMs. A 12T write contention and read upset free bit-cell are used in the design. Array architecture employs a read–modify–write scheme to support bit-write (BW) masking and column multiplexing. Built-in-self-test (BIST) and synchronous write-through (SWT) options are also supported to provide testability features, while power management (PM) option is included to provide low-leakage sleep and shut-down modes. The proposed design is fabricated in 7-nm FinFET technology and achieves the lowest reported $V_{\mathrm {min}}$ of 290 mV in this technology.