Low VDDmin Swing-Sample-and-Couple Sense Amplifier and Energy-Efficient Self-Boost-Write-Termination Scheme for Embedded ReRAM Macros Against Resistance and Switch-Time Variations.

The designs of resistive RAM (ReRAM) macros are limited by 1) a small sensing margin, limited read-VDDmin, and slow read access time (T AC) caused by a high cell-resistance and small cell-resistance-ratio (R-ratio) and 2) poor power integrity and increased energy waste attributable to a large SET dc-current (I DC-SET) resulting from the wide distribution of write (SET)-times (T SET). This study proposes a swing-sample-and-couple (SSC) voltage-mode sense amplifier (VSA) to enable an approximately 1.8+x greater sensing margin for lower VDDmin and a 1.7+x faster read speed across a wide VDD range, compared with conventional VSAs. A 4T self-boost-write-termination (SBWT) scheme is proposed to cut off the I DC-SET of devices with a rapid T SET. The SBWT scheme reduces \99+\% of the I DC-SET with an area penalty below 0.5%. A fabricated 512 row 28 nm 1 Mb ReRAM macro achieved T AC =\404 ns when VDD=\0.27 V and confirmed the I DC-SET cutoff by the SBWT. [ABSTRACT FROM PUBLISHER]