PMOS-based temperature compensated read-assist circuits for low-Vmin 6T SRAM bitcells realized in nanometer scale (e.g., 7 nm) CMOS FinFET technologies generate maximum wordline lowering (lower wordline voltages) at higher temperatures and minimum wordline lowering (higher wordline voltages) at lower operating temperatures in way that is substantially process independent and avoids post-silicon tuning. A read-assist PMOS transistor is connected between an associated wordline and VSS and controlled by a temperature compensation signal produced at an intermediate node between weak pull-up and strong pull-down PMOS transistors that are connected in series between VDD and VSS and respectively controlled by VDD and VSS during read operations. This configuration generates the temperature compensation signal at a level closer to VSS at high temperatures than at low temperatures, whereby write-ability is not impacted by the read-assist circuit at low temperature. An optional actuation circuit disables the temperature compensation circuit during non-active cycles to prevent current leakage.