A Hardware-Embedded Delay Physical Unclonable Function (“HELP PUF”) leverages entropy by monitoring path stability and measuring path delays from core logic macros. Reliability and security enhancing techniques for the HELP PUF reduce bit flip errors during regeneration of the bitstring across environmental variations and improve cryptographic strength along with the corresponding difficulty of carrying out model building attacks. A voltage-based enrollment process screens unstable paths on normally synthesized (glitchy) functional units and reduces bit flip errors by carrying out enrollment at multiple supply voltages controlled using on-chip voltage regulators.

An integrated circuit includes an internal circuit and an attack detection circuit including at least one sensor configured to sense at least one abnormal condition of the internal circuit. The at least one abnormal condition is a parameter of the internal circuit that is outside of a predetermined range. The attack detection circuit is configured to sense an external attack on the internal circuit based on the at least one abnormal condition. The attack detection circuit further includes a security built-in-self-test (BIST) circuit configured to sense a physical attack on the attack detection circuit.

An integrated circuit includes an internal circuit and an attack detection circuit including at least one sensor configured to sense at least one abnormal condition of the internal circuit. The at least one abnormal condition is a parameter of the internal circuit that is outside of a predetermined range. The attack detection circuit is configured to sense an external attack on the internal circuit based on the at least one abnormal condition. The attack detection circuit further includes a security built-in-self-test (BIST) circuit configured to sense a physical attack on the attack detection circuit.

Embodiments relate to a billboard circuit that stores context information received from various component circuits in an electronic device. The context information indicates an operating status of the corresponding component circuit, system or shared resources. The stored context information may be retrieved by one or more component circuits when events (e.g., turning on of a component circuit) are detected. By using the billboard circuit, a component circuit may detect changes in the operating status of other components circuits and configure or update its operations even when the changes occurred while the component circuit was asleep or disabled. The billboard circuit may monitor updating of the context information by the component circuit and initiate notification to other components circuits when certain entries of the context information is updated.

Various systems and methods for locking computing devices are described herein. In an example, a portable device comprises an electro-mechanical lock; and a firmware module coupled to the electro-mechanical lock, the firmware module configured to: receive an unlock code; validate the unlock code; and unlock the electro-mechanical lock when the unlock code is validated. In another example, device for managing BIOS authentication, the device comprising an NFC module, the NFC module comprising an NFC antenna; and a firmware module, wherein the firmware module is configured to: receive an unlock code from an NFC device via the NFC antenna; validate the unlock code; and unlock a BIOS of the device when the unlock code is validated.

Various systems and methods for locking computing devices are described herein. In an example, a portable device comprises an electro-mechanical lock; and a firmware module coupled to the electro-mechanical lock, the firmware module configured to: receive an unlock code; validate the unlock code; and unlock the electro-mechanical lock when the unlock code is validated. In another example, device for managing BIOS authentication, the device comprising an NFC module, the NFC module comprising an NFC antenna; and a firmware module, wherein the firmware module is configured to: receive an unlock code from an NFC device via the NFC antenna; validate the unlock code; and unlock a BIOS of the device when the unlock code is validated.

A retrofitting module for a process automation field device comprising field device electronics with at least one communication interface, characterized in that the retrofitting module has a security module, wherein the security module cooperates with the field device electronics such that a predetermined IT security level is achieved.

A method and a device are disclosed for providing a notification indicating a loss of a terminal, the method including obtaining a matching relation between first feature information of a current user of a target terminal and second feature information of a predetermined user. The method also includes controlling a related terminal associated with the target terminal to output a loss notification in response to determining that the matching relation indicates that the first feature information and the second feature information do not match. The loss notification indicates a loss of the target terminal.

Technologies for composing a managed node with multiple processors on multiple compute sleds to cooperatively execute a workload include a memory, one or more processors connected to the memory, and an accelerator. The accelerator further includes a coherence logic unit that is configured to receive a node configuration request to execute a workload. The node configuration request identifies the compute sled and a second compute sled to be included in a managed node. The coherence logic unit is further configured to modify a portion of local working data associated with the workload on the compute sled in the memory with the one or more processors of the compute sled, determine coherence data indicative of the modification made by the one or more processors of the compute sled to the local working data in the memory, and send the coherence data to the second compute sled of the managed node.

A computer-implemented method, a computer system and a computer program product operate a secure code segment on a processor core of a processing unit, wherein the processing unit is configured with at least one processor core. The method comprises requesting exclusive secure execution of a secure code segment of the program code on the at least one processor core. The method also comprises setting the at least one processor core to exclusive secure execution for the secure code segment. The method further comprises executing the secure code segment on the at least one processor core uninterruptably. In addition, the method comprises wiping an architected state and a non-architected state of a physical processor core from the at least one processor core. Lastly, the method comprises setting the at least one processor core to the first execution mode for program code on the at least one processor core.