Abstract: Systems for physical unclonable function (“PUF”) generation, PUF devices, and methods for manufacturing PUF devices. In one implementation, the system includes a plurality of PUF devices and an electronic controller. Each of the plurality of PUF devices include a first electrochemically-inactive electrode, a second electrochemically-inactive electrode, and a layer of silicon suboxide. The layer of silicon suboxide is positioned directly between the first electrochemically-inactive electrode and the second electrochemically-inactive electrode. The electronic controller is communicably coupled to the plurality of PUF devices. The electronic controller is configured to read binary values associated with the plurality of PUF devices.

Abstract: A physical unclonable functions (PUF) device including a first copper electrode, a second electrode, and a silicon oxide layer positioned directly between the first copper electrode and the second electrode; a method of producing a PUF device; an array comprising a PUF device; and a method of generating a secure key with a plurality of PUF devices.

Abstract: Lateral programmable metallization cells may comprise a solid electrolyte layer, an anode coupled to the solid electrolyte layer, and a cathode coupled to the solid electrolyte layer. Exemplary solid electrolyte layers may comprise a first layer comprising an oxide electrolyte and a copper species and a second layer comprising at least one copper species, the second layer coupled to the first layer.

Abstract: Programmable interposers for connecting integrated circuits, methods for programming programmable interposers, and integrated circuit packaging are provided. The programmable interposers are electrically reconfigurable to allow custom system-in-package (SiP) operation and configuration, field configurability, and functional obfuscation for secure integrated circuits fabricated in non-trusted environments. The programmable interposer includes, in one implementation, an interposer substrate and a programmable metallization cell (PMC) switch. The PMC switch is formed on the interposer substrate and is coupled between a signal input and a signal output. The PMC switch is electrically configurable between a high resistance state and a low resistance state.

Abstract: A physical unclonable functions (PUF) device including a first copper electrode, a second electrode, and a silicon oxide layer positioned directly between the first copper electrode and the second electrode; a method of producing a PUF device; an array comprising a PUF device; and a method of generating a secure key with a plurality of PUF devices.

Abstract: Programmable interposers for connecting integrated circuits, methods for programming programmable interposers, and integrated circuit packaging are provided. The programmable interposers are electrically reconfigurable to allow custom system-in-package (SiP) operation and configuration, field configurability, and functional obfuscation for secure integrated circuits fabricated in non-trusted environments. The programmable interposer includes, in one implementation, an interposer substrate and a programmable metallization cell (PMC) switch. The PMC switch is formed on the interposer substrate and is coupled between a signal input and a signal output. The PMC switch is electrically configurable between a high resistance state and a low resistance state.

Abstract: A physical unclonable functions (PUF) device including a first copper electrode, a second electrode, and a silicon oxide layer positioned directly between the first copper electrode and the second electrode; a method of producing a PUF device; an array comprising a PUF device; and a method of generating a secure key with a plurality of PUF devices.

Abstract: Systems for physical unclonable function (“PUF”) generation, PUF devices, and methods for manufacturing PUF devices. In one implementation, the system includes a plurality of PUF devices and an electronic controller. Each of the plurality of PUF devices include a first electrochemically-inactive electrode, a second electrochemically-inactive electrode, and a layer of silicon suboxide. The layer of silicon suboxide is positioned directly between the first electrochemically-inactive electrode and the second electrochemically-inactive electrode. The electronic controller is communicably coupled to the plurality of PUF devices. The electronic controller is configured to read binary values associated with the plurality of PUF devices.

Abstract: Programmable interposers for connecting integrated circuits, methods for programming programmable interposers, and integrated circuit packaging are provided. The programmable interposers are electrically reconfigurable to allow custom system-in-package (SiP) operation and configuration, field configurability, and functional obfuscation for secure integrated circuits fabricated in non-trusted environments. The programmable interposer includes, in one implementation, an interposer substrate and a programmable metallization cell (PMC) switch. The PMC switch is formed on the interposer substrate and is coupled between a signal input and a signal output. The PMC switch is electrically configurable between a high resistance state and a low resistance state.

Abstract: A physical unclonable functions (PUF) device including a first copper electrode, a second electrode, and a silicon oxide layer positioned directly between the first copper electrode and the second electrode; a method of producing a PUF device; an array comprising a PUF device; and a method of generating a secure key with a plurality of PUF devices.

Abstract: Random number generator systems and method for tuning a randomness characteristic of the system are described. The random number generator system includes at least one programmable metallization cell (PMC) device and is configured to provide a random output word based on random telegraph noise caused by the at least one PMC device.

Abstract: Random number generator systems and method for tuning a randomness characteristic of the system are described. The random number generator system includes at least one programmable metallization cell (PMC) device and is configured to provide a random output word based on random telegraph noise caused by the at least one PMC device.

Abstract: A method of detecting a covert marking including applying a fluorescent ink to a dendritic structure to generate an ink-coated dendrite and imaging the ink-coated dendrite with a device to visualize the ink-coated dendrite. A method of detecting a covert marking on an object including applying UV light to an object including a dendritic structure and illuminating the dendritic structure with the UV light. A dendritic structure including a unique metallic structure at least partially coated with a fluorescent ink that is not visible to the naked eye in ambient light and is visible to the naked eye when exposed to UV light.

Abstract: In one embodiment, a method of operating a resistive switching device includes applying a signal comprising a pulse on a first terminal of a two terminal resistive switching device having the first terminal and a second terminal. The resistive switching device has a first state and a second state. The pulse includes a first ramp from a first voltage to a second voltage over a first time period. The first time period is at least 0.1 times a total time period of the pulse.

Abstract: In one embodiment, a method of operating a resistive switching device includes applying a signal comprising a pulse on a first terminal of a two terminal resistive switching device having the first terminal and a second terminal. The resistive switching device has a first state and a second state. The pulse includes a first ramp from a first voltage to a second voltage over a first time period. The first time period is at least 0.1 times a total time period of the pulse.

Abstract: In one embodiment, a method of operating a resistive switching device includes applying a signal comprising a pulse on a first terminal of a two terminal resistive switching device having the first terminal and a second terminal. The resistive switching device has a first state and a second state. The pulse includes a first ramp from a first voltage to a second voltage over a first time period. The first time period is at least 0.1 times a total time period of the pulse.

Abstract: The present invention relates generally to electrical devices. The present invention relates more particularly to electrical devices including dendritic metal electrodes. One aspect of the present invention is an electrical device comprising a first electrode comprising at least one dendritic metal structure; a second electrode; and an electrically active structure disposed between the dendritic metal structure and the second electrode.

Abstract: In one embodiment, a method of operating a resistive switching device includes applying a signal comprising a pulse on a first terminal of a two terminal resistive switching device having the first terminal and a second terminal. The resistive switching device has a first state and a second state. The pulse includes a first ramp from a first voltage to a second voltage over a first time period. The first time period is at least 0.1 times a total time period of the pulse.

Abstract: The present invention relates generally to plasmonic structures, methods for making them, and devices including them. In one aspect, a plasmonic structure includes a plurality of metal particles disposed on a substrate; and one or more metal structures electrically coupled to and disposed on a surface of each of the plurality of metal particles. The metal structures have a structure that is different than the structure of the metal particles. The metal structures can be grown, for example, by electrodeposition on the metal particles. Growth of such metal structures can tune the response of the plasmonic structure.

Abstract: The present invention relates generally to microphone devices useful, for example, in hearing aid devices. The present invention relates more particularly to tunable microphone devices, and methods used to tune them. One aspect of the present invention is a microphone device that includes at least one microphone element. Each microphone element comprises a diaphragm suspended by a substrate; a solid electrolyte disposed on the diaphragm; an anode electrically coupled to the solid electrolyte; and a cathode electrically coupled to the solid electrolyte. The solid electrolyte is disposed between the anode and the cathode, such that ions flowing from the anode to the cathode travel through the solid electrolyte and electrons can flow in the opposite direction.