A 16-Kb 9T Ultralow-Voltage SRAM with Column-Based Split Cell-VSS, Data-Aware Write-Assist, and Enhanced Read Sensing Margin in 28-Nm FDSOI

This work proposes an static random access memory (SRAM) with column-based split cell-VSS (CS-CVSS), data-aware write-assist (DAWA), and enhanced read sensing margin in 28-nm FDSOI technology. The proposed CS-CVSS and DAWA techniques improve both half-selected (HS) static noise margin (SNM) and write margin. They also improve HS dynamic noise margin (HS-DNM) by leveraging write through virtual ground with reduced load in the proposed write port. The proposed 3T read port enhances sensing margin by minimizing read bitline leakage through negative gate-to-source voltage regardless of cell data. A 16-kb 9T SRAM test chip demonstrated the minimum operating voltage for write and read operations as 0.47 and 0.25 V, respectively. The minimum energy of 6.72 pJ is achieved at 0.5 V.