Abstract: The present disclosure presents various systems and methods for implementing a physical unclonable function device. One such method comprises providing an integrated circuit having a plurality of set/reset flip flop logic circuits, wherein each of the set/reset flip flop logic circuits enters a metastable state for a particular input sequence. The method includes varying circuit parameters for each of the plurality of set/reset flip flop logic circuits to account for manufacturing variations in the set/reset flip flop logic circuits and enable generating a stable but random output in response to the particular input sequence. Thus, by applying the particular input sequence to the integrated circuit, a unique identifier for the integrated circuit can be derived from an output response of the plurality of set/reset flip flop logic circuits.

Abstract: A system and method of protecting against control-flow attacks provides two complementary, transparent, and strong security policies for the RTL design at a hardware level. The approach performs static analysis of controller, followed by lightweight instrumentation, such that CFI is enforced in-place and at runtime. The modified controller follows conservative CFG with the help of a monitor.

Abstract: The present disclosure presents various systems and methods for implementing a physical unclonable function device. One such method comprises providing an integrated circuit having a plurality of set/reset flip flop logic circuits, wherein each of the set/reset flip flop logic circuits enters a metastable state for a particular input sequence. The method includes varying circuit parameters for each of the plurality of set/reset flip flop logic circuits to account for manufacturing variations in the set/reset flip flop logic circuits and enable generating a stable but random output in response to the particular input sequence. Thus, by applying the particular input sequence to the integrated circuit, a unique identifier for the integrated circuit can be derived from an output response of the plurality of set/reset flip flop logic circuits.

Abstract: A system and method of protecting against control-flow attacks provides two complementary, transparent, and strong security policies for the RTL design at a hardware level. The approach performs static analysis of controller, followed by lightweight instrumentation, such that CFI is enforced in-place and at runtime. The modified controller follows conservative CFG with the help of a monitor.

Abstract: The present disclosure presents various systems and methods for implementing a physical unclonable function device. One such method comprises providing an integrated circuit having a plurality of set/reset flip flop logic circuits, wherein each of the set/reset flip flop logic circuits enters a metastable state for a particular input sequence. The method includes varying circuit parameters for each of the plurality of set/reset flip flop logic circuits to account for manufacturing variations in the set/reset flip flop logic circuits and enable generating a stable but random output in response to the particular input sequence. Thus, by applying the particular input sequence to the integrated circuit, a unique identifier for the integrated circuit can be derived from an output response of the plurality of set/reset flip flop logic circuits.

Abstract: The present disclosure describes various embodiments of hardware trojan triggering (HTT) signal analysis. As such, an exemplary method comprises capturing switching activity of nodes for a design of an integrated circuit during a simulation of an application of a test pattern to the design; identifying one or more nodes in a graphical representation of the design that do not toggle within an individual window of time across multiple windows of time; determining unique paths that can be formed by the identified nodes within each of the multiple windows of time; determining one or more unique paths that occur across consecutive windows of time; appending the one or more unique paths that occur across consecutive windows of time in a set; and outputting the one or more unique paths in the set as rare trojan horse triggering paths for the design. Other systems and methods are also presented.