Abstract: The embodiments of the present disclosure identify a target chip from among multiple chips coupled to a shared bus and customize an optimization parameter for the particular chip. Stated differently, in a communication system where only one chip (or a subset of chips) on a shared bus is the intended target, the system can customize an optimization parameter for the specific location of the target chip on the bus. As new data is received that is intended for a different chip—i.e., the target chip changes—the system can dynamically change the parameter based on the location of the new target chip on the bus.

Abstract: An optical electromagnetic radiation (EM) emitter and receiver are located upon a printed circuit board (PCB) layer and are connected to an optical security pathway. A predetermined reference flux is determined, the reference flux being the expected EM transmitted by the optical security pathway and received by the receiver. When the PCB is subject to an unauthorized access thereof (e.g., drilled, sawed, cut, etc.), the optical EM transferred by optical security pathway is altered. An optical monitoring device that monitors the flux of the optical EM received by the receiver detects a change in flux, in relation to the reference flux, and passes a tamper signal to one or more computer system devices to respond to the unauthorized access. For example, one or more cryptographic adapter card or computer system functions or secured crypto components may be disabled.

Abstract: An optical electromagnetic radiation (EM) emitter and receiver are located upon a printed circuit board (PCB) layer and are optically connected to an optical security pathway that is between a pair of signal traces. A predetermined reference flux is determined, the reference flux being the expected EM transmitted by the optical security pathway and received by the receiver. When the PCB is subject to an unauthorized access thereof (e.g., drilled, sawed, cut, etc.), the optical EM transferred by optical security pathway is altered. An optical monitoring device that monitors the flux of the optical EM received by the receiver detects a change in flux, in relation to the reference flux, and passes a tamper signal to one or more computer system devices to respond to the unauthorized access. For example, one or more cryptographic adapter card or computer system functions or secured crypto components may be disabled.

Abstract: A method and structure are provided for implementing stub-less printed circuit board (PCB) vias and custom interconnect through laser-excitation conductive track structures. Stub-less printed PCB vias are formed which terminate at desired signal layers by controlled laser excitation without stubs or the need to back-drill to remove such stubs.

Abstract: A method and structure are provided for implementing stub-less printed circuit board (PCB) vias and custom interconnect through laser-excitation conductive track structures. Stub-less printed PCB vias are formed which terminate at desired signal layers by controlled laser excitation without stubs or the need to back-drill to remove such stubs.

Abstract: A method and circuit are provided for implementing voltage sense point switching for regulators. A regulator voltage sensing circuit includes at least two sense points enabling a regulator to compensate for voltage drop at the sense points and providing at least one of the sense points at a location to be switched. Switched loads have gains at the sense points to compensate for the voltage drop in a transistor switch at maximum load. A non-switched output is sensed and functions as an over-voltage protection to limit the transistor switch voltage drop.

Abstract: A computing system for tampering detection for digital images is disclosed. The computing system uses a LTI filter to filter time series data representing images in one or both of two videos and/or a still image of a live photo captured by a camera. A causal relationship in time existed between the images in the two videos and the still image when they were captured by the camera. The computing system determines whether the filtered output data representing an image by using the LTI filter is causal. If the computing system determines that the filtered output data representing the image is non-causal, it asserts a signal indicating that the image has been modified after it was captured.

Abstract: A system includes a transmit equalizer to equalize a data stream using a set of transmit parameters to generate an input signal. The system further includes a communication channel to receive the input signal. The system further includes a receive equalizer to receive an output signal from the communication channel in response to the input signal and detect the data stream from the output signal using a set of receive parameters. The system additionally includes a controller to change the set of transmit parameters in response to a condition, where the transmit parameters, the receive parameters, and the condition are selected to both enable the receive equalizer to detect the data stream from the output signal and reduce the likelihood of an external circuit detecting the data stream from the output signal.

Abstract: A system includes a transmit equalizer to equalize a data stream using a set of transmit parameters to generate an input signal. The system further includes a communication channel to receive the input signal. The system further includes a receive equalizer to receive an output signal from the communication channel in response to the input signal and detect the data stream from the output signal using a set of receive parameters. The system additionally includes a controller to change the set of transmit parameters in response to a condition, where the transmit parameters, the receive parameters, and the condition are selected to both enable the receive equalizer to detect the data stream from the output signal and reduce the likelihood of an external circuit detecting the data stream from the output signal.

Abstract: A system includes a transmit equalizer to equalize a data stream using a set of transmit parameters to generate an input signal. The system further includes a communication channel to receive the input signal. The system further includes a receive equalizer to receive an output signal from the communication channel in response to the input signal and detect the data stream from the output signal using a set of receive parameters. The system additionally includes a controller to change the set of transmit parameters in response to a condition, where the transmit parameters, the receive parameters, and the condition are selected to both enable the receive equalizer to detect the data stream from the output signal and reduce the likelihood of an external circuit detecting the data stream from the output signal.

Abstract: A cryptographic printed circuit board (PCB) includes a patch antenna threat event detection layer and a resonant frequency monitoring component. The patch antenna threat event detection layer is embedded within a PCB layer stack of the cryptographic PCB and includes at least one antenna. The resonant frequency monitoring component is configured to monitor a resonant frequency associated with the at least one antenna and to trigger one or more tamper response operations responsive to detecting a resonant frequency shift.

Abstract: The embodiments of the present disclosure identify a target chip from among multiple chips coupled to a shared bus and customize an optimization parameter for the particular chip. Stated differently, in a communication system where only one chip (or a subset of chips) on a shared bus is the intended target, the system can customize an optimization parameter for the specific location of the target chip on the bus. As new data is received that is intended for a different chip—i.e., the target chip changes—the system can dynamically change the parameter based on the location of the new target chip on the bus.

Abstract: Embodiments of the present disclosure provide methods and apparatus for providing feed forward equalization to a communication line by providing a resistance and a capacitance to the communication line. The method includes determining the resistance based on a desired value of feed forward equalization to provide to a communication line, determining the capacitance based on the desired value of feed forward equalization to provide to the communication line, providing a layer of resistive material between a first conductor and a second conductor of the communication line, wherein a dimension of the layer of resistive material is determined based on the determined resistance and providing a layer of dielectric material between the first conductor and the second conductor, wherein a dimension of the layer of dielectric material is determined based on the determined capacitance.

Abstract: The embodiments of the present disclosure identify a target chip from among multiple chips coupled to a shared bus and customize an optimization parameter for the particular chip. Stated differently, in a communication system where only one chip (or a subset of chips) on a shared bus is the intended target, the system can customize an optimization parameter for the specific location of the target chip on the bus. As new data is received that is intended for a different chip—i.e., the target chip changes—the system can dynamically change the parameter based on the location of the new target chip on the bus.

Abstract: An ophthalmic device is described that includes a frame and an optically active component comprising a bistable dielectric electroactive polymer. The bistable dielectric electroactive polymer changes shape when exposed to a sufficiently strong electric field and does not completely revert to its former shape when the electric field is deactivated. The refractive properties of the ophthalmic devices described herein are adjusted by exposing the devices to electric fields.

Abstract: A method and structure are provided for implementing stub-less printed circuit board (PCB) vias and custom interconnect through laser-excitation conductive track structures. Stub-less printed PCB vias are formed which terminate at desired signal layers by controlled laser excitation without stubs or the need to back-drill to remove such stubs.

Abstract: Embodiments herein discuss tuning a testing apparatus to better match the input response of a target system in which a cable will be used. For example, conductors in the cable may have a different skew depending on the system in which they are used. The testing apparatus may be tuned using frequency information regarding the type of signals that will be driven on the cable when installed in the target system. In one embodiment, the testing apparatus uses the frequency information to configure a programmable clock source that can be used to shape a reference clock and control a driver to match the signals in the target system. Using the clock source to modify the reference clock results in the driver outputting a testing signal that better reflects the actual signals that will be transmitted on the cable in the target system.

Abstract: A method and circuit are provided for implementing voltage sense point switching for regulators. A regulator voltage sensing circuit includes at least two sense points enabling a regulator to compensate for voltage drop at the sense points and providing at least one of the sense points at a location to be switched. Switched loads have gains at the sense points to compensate for the voltage drop in a transistor switch at maximum load. A non-switched output is sensed and functions as an over-voltage protection to limit the transistor switch voltage drop.

Abstract: The embodiments of the present disclosure identify a target chip from among multiple chips coupled to a shared bus and customize an optimization parameter for the particular chip. Stated differently, in a communication system where only one chip (or a subset of chips) on a shared bus is the intended target, the system can customize an optimization parameter for the specific location of the target chip on the bus. As new data is received that is intended for a different chip—i.e., the target chip changes—the system can dynamically change the parameter based on the location of the new target chip on the bus.

Abstract: A method and circuit are provided for implementing voltage sense point switching for regulators. A regulator voltage sensing circuit includes at least two sense points enabling a regulator to compensate for voltage drop at the sense points and providing at least one of the sense points at a location to be switched. Switched loads have gains at the sense points to compensate for the voltage drop in a transistor switch at maximum load. A non-switched output is sensed and functions as an over-voltage protection to limit the transistor switch voltage drop.