Reliability of hardware security devices is of paramount importance when deployed in a System-On-Chip along-with the IoT sensor nodes. A bit flip could cause the node to be unrecognizable by the trusted source and increase costs due to replacement and re-deployment. To tackle these problems we fabricate a weak PUF in 65nm CMOS which can be used for chip ID applications. The design is based on “OFF” devices which consume only leakage current, and more importantly, provide large drain current mismatch and therefore output voltage dispersion. This large dispersion results in lower instability and Bit Error Rate (BER), making the design ideal for integration with IoT devices. To this end we measure instability of 2.81% over 2000 evaluations, and native BER of 0.48%. Native BER is below 2.5% over both temperature (−40-80° C) and voltage range (0.8-1.2V). Additionally, reconfiguration aids in reducing the instability/BER to 0.63%/0.047%, implying excellent reproducibility of the key. High throughput of 9.6 Gb/s is measured by implementing SRAM-style array for parallel read-out. Core energy/bit is measured to be 5.99 fJ/bit.