Memory cell circuitry is disclosed. The memory cell circuitry includes a first transistor configured to have a threshold voltage of the first transistor modulated by hot carrier injection, a second transistor coupled to the first transistor and configured to have a threshold voltage of the second transistor modulated by hot carrier injection, a word line coupled to a gate of the first transistor and to a gate of the second transistor, a first bit line coupled to the first transistor and a second bit line coupled to the second transistor. In addition, the memory cell circuitry includes a source line coupled to the drain of the first transistor and to the drain of the second transistor, the word line and the source line configured to cause hot carrier injection (HCI) into the first transistor when a first supply voltage is applied to the word line and the source line, and the second bit line is floated and the first bit line is grounded. The word line and the source line are configured to cause hot carrier injection into the second transistor when the first supply voltage is applied to the word line and the source line, and the first bit line is floated and the second bit line is grounded. Methods utilizing this technology for generating a multi-time programmable non-volatile memory and a random number generator for physical unclonable function applications are included in this disclosure.