Abstract: A refresh circuit selects a candidate bank for refreshing from various banks of a dynamic random access memory (DRAM). Initially, the refresh circuit checks if any bank is idle (e.g., is not targeted for memory operations). If two or more banks are idle, the candidate bank is selected based on a count of accesses targeted to each occupied bank and bank-pair distances between each pair of idle and occupied banks. Conversely, if all banks are occupied, the refresh circuit selects the candidate bank based on a count of data accesses targeted to each bank and/or a count of parity accesses targeted to each bank. Each data access has the same type as that scheduled for execution on the DRAM. Once the candidate bank is selected, the refresh circuit triggers the refresh of the candidate bank.

Abstract: An embodiment of a semiconductor device includes a semiconductor substrate, a first dielectric layer, a first current-carrying electrode, and a second current-carrying electrode formed over the semiconductor substrate. A control electrode is formed over the semiconductor substrate and disposed between the first current-carrying electrode and the second current-carrying electrode. A conductive element formed over the first dielectric layer, adjacent the control electrode, and between the control electrode and the second current-carrying electrode, includes a first region formed a first distance from the upper surface of the semiconductor substrate and a second region formed a second distance from the upper surface of the semiconductor substrate. An insulating region is formed between the control electrode and the conductive element.

Abstract: A processor is configured to receive a plurality of sounds signals from a respective plurality of microphones. One or more localization algorithms is applied to the received plurality of sound signals to determine a plurality of source directions. A plurality of tracking directions is determined based on current values for the determined plurality of source directions and previous values for the determined plurality of source directions. An onset detection algorithm is applied to the received plurality of sound signals, and in response to detecting an onset, the processor is configured to determine an onset direction that represents the direction from the microphones to the source of the detected onset. A score is attributed to each of the determined plurality of tracking directions based on any determined onset directions and the one of the determined plurality of tracking directions that has the highest score is provided as a direction-output-signal.

Abstract: A device includes a package body including a central flange and an amplifier module mounted to the central flange of the surface-mount device. The amplifier module includes a module substrate mounted to the central flange. The module substrate includes a first die mount window, a first circuitry on a first surface of the module substrate, a second circuitry on the first surface of the module substrate, and a first amplifier die mounted on the central flange. The first amplifier die is at least partially disposed within the first die mount window and the first amplifier die is electrically connected to the first circuitry and the second circuitry. The first circuitry is electrically connected to a first lead of the package body and the second circuitry is electrically connected to a second lead of the package body.

Abstract: A method of forming an assembly is provided. The method includes attaching a packaged semiconductor device to a substrate. An isolation structure is formed and located between the packaged semiconductor device and the substrate. An underfill material is dispensed between the packaged semiconductor device and the substrate. The isolation structure prevents the underfill material from contacting a first conductive connection formed between the packaged semiconductor device and the substrate.

Abstract: An interface circuit includes an analogue to digital converter having an input configured to receive an input signal having an unknown DC bias voltage via an input resistance and provide an output signal to an ADC feedback loop. The ADC feedback loop includes a digital filter arranged to digitally filter the fedback output signal. A digital to analogue converter (DAC) forming a DC feedback loop with the ADC and arranged to convert the digitally filtered fedback output signal to an analogue signal that is provided to the input of the ADC, wherein the analogue signal that is provided to the input of the ADC is arranged to include a DC bias component that is comparable to a DC bias component of a current of the input signal passing through the input resistor.

Abstract: A system includes test control circuitry and a memory. The memory includes a memory array, a pre-decode circuit, and a plurality of address latches. Each address latch of the plurality of address latches is configured to operate in a scan chain of a plurality of scan chains for scan testing. A first set of the plurality of address latches each has a data input coupled to a corresponding address pin of the first memory and each has an output coupled to the pre-decode circuit. A second set of the plurality of address latches, mutually exclusive of the first set, each has a data input coupled to a data input of at least one latch in the first set of the plurality of latches and each is configured to not provide any input to the pre-decode circuit.

Abstract: A method and apparatus are disclosed for a multi-processor SoC which includes an execution domain processor for running an execution domain; a control point processor that is physically and programmatically independent from the execution domain processor and configured to generate control data for controlling access by the execution domain to one or more SoC resources by identifying at least a first SoC resource that the execution domain is allowed to access; and an access control circuit connected between the execution domain and the SoC resources and including a programmable front end which is connected to receive the control data from the control point processor, and a signals-based back end which is configured to provide a dynamic runtime isolation barrier in response to the control data, thereby controlling access to the one or more system-on-chip resources by the execution domain.

Abstract: An antenna system for a mobile communications base station and a method of operating a communications network including a base station is described. The antenna system includes an antenna array for beamforming and is configured either as a radar sensor, a communications antenna or a combined radar sensor. A radar image may be used to determine a map of objects in the vicinity of the antenna system and to adapt the beamsteering or beamforming of the antenna system.

Abstract: Various embodiments relate to a system for provisioning a cryptographic device, including: a memory; a processor coupled to the memory, wherein the processor is further configured to: determine the maximum key generation seed size, maximum PQC private key size, maximum PQC public key size, and maximum PQC updater size of a plurality of post quantum cryptography algorithms; provision memory in the cryptographic device to store a key generation seed, PQC private key, PQC public key, and PQC updater based upon the determined maximum key generation seed size, maximum PQC private key size, maximum PQC public key size, and maximum PQC updater size; and provision the cryptographic device with a non-PQC secret key, a non-PQC public key, and non-PQC algorithm code configured to carry out non-PQC cryptographic algorithms.

Abstract: A wafer-scale die packaging device is fabricated by providing a high-k glass carrier substrate having a ceramic region which includes a defined waveguide area and extends to a defined die attach area, and then forming, on a first glass carrier substrate surface, a differential waveguide launcher having a pair of signal lines connected to a radiating element that is positioned adjacent to an air cavity and surrounded by a patterned array of conductors disposed over the ceramic region in a waveguide conductor ring. After attaching a die to the glass carrier substrate to make electrical connection to the differential waveguide launcher, a molding compound is formed to cover the die, differential waveguide launcher, and air cavity, and an array of conductors is formed in the molding compound to define a first waveguide interface perimeter surrounding a first waveguide interface interior.

Abstract: An electronic device includes a bias generator to generate a plurality of bias currents and a testing module to test the bias generator by successively testing each subset of bias currents of a plurality of subsets of bias currents grouped from the plurality of bias currents as a corresponding single test current. The testing module can include a variable resistor, wherein the testing module is to test the bias generator by, for each subset of bias currents, configuring the variable resistor to have a corresponding resistance based on the number of bias currents represented in the subset, conducting a corresponding test current through the variable resistor configured to the corresponding resistance, the test current representing a combination of all bias currents of the corresponding subset, and determining a test status for the subset of bias currents based on a voltage across the variable resistor resulting from the corresponding test current.

Abstract: Aspects of the present disclosure are directed to wireless communications involving successively-received messages. As may be implemented consistent with one or more aspects characterized herein, a preamble section (122) of a currently-received message (120) is used in decoding a previously-received message (110), for wireless transmissions from a wireless transmitter (102) on a wireless communications channel (101). The current and previous message are received in succession with a time gap (130) therebetween.

Abstract: There is disclosed an amplifier circuit comprising: an amplifier having input and output terminals; a temperature dependent variable impedance unit comprising: a first terminal, a second terminal and a variable impedance unit control terminal; a transistor comprising a transistor control terminal coupled to the variable impedance unit control terminal; a first resistor coupled in parallel with the conduction channel; a capacitor coupled in series with the conduction channel between the conduction channel and one of: the first terminal; and the second terminal; and wherein: the first terminal is coupled to one of: the input terminal and the output terminal; the second terminal is for coupling to a reference node; and the variable impedance unit control terminal is configured to receive a control signal that is based on a measured temperature indicative of a temperature of the amplifier circuit and thereby provide a temperature dependent variable impedance for the amplifier circuit.

Abstract: In a hardware-accelerated computing systems, calls are made from a processor to an accelerator core. The hardware-accelerated computing system includes a processor core having a stack, an accelerator, and an accelerator scheduler. The computing system is configured to process an accelerator command by the processor core issuing an accelerator command to the accelerator scheduler during execution of a task the accelerator scheduler receiving the accelerator command and requesting data from the stack, the processor sending the requested data from the stack to the accelerator scheduler, the accelerator scheduler sending the requested data to the accelerator and sending a write response to the processor, the accelerator processing the accelerator command, and the processor continuing execution of the task. The processor pauses execution of the task upon issuing the accelerator command and resumes execution of the task upon receiving the write response from the accelerator scheduler.

Abstract: Various embodiments relate to a fault detection system and method for a digital signature algorithm, including: producing a digital signature of a message using a digital signature algorithm; storing parameters from a last round of the digital signature algorithm; executing the last round of the digital signature algorithm using the stored parameters to produce a check signature; comparing the digital signature to the check signature; and outputting the digital signature when the digital signature is the same as the check signature.

Abstract: A motion plan safety analysis is performed by processing vehicle sensor signals to generate a motion plan which includes a reference trajectory value, by processing the reference trajectory value at a first MPC to generate a first current setpoint and a first plurality of future setpoints, by processing the first plurality of future setpoints at a second MPC to generate a second plurality of future setpoints, by processing the second plurality of future setpoints at the first MPC to generate a first plurality of predicted trajectory states, by processing the first plurality of future setpoints at the second MPC to generate a second plurality of predicted trajectory states, by evaluating the predicted trajectory states to generate a predetermined safety reaction for the vehicle, and by choosing between the first and second current setpoints based on the safety reaction to provide a safest setpoint to a vehicle actuator in the vehicle.

Abstract: One example discloses a wireless Access Point (AP) device, configured to operate within a wireless local area network (WLAN), including: a controller configured to generate a reserve slot time trigger frame and a request to transmit trigger frame; wherein the controller is configured to be coupled to an antenna; wherein the antenna is configured to transmit the trigger frames over a physical media to a set of user station devices (STAs) and exchange traffic with the set of STAs over the physical media; wherein the reserve slot time trigger frame is configured to reserve a slot time on the physical media; and wherein the request to transmit trigger frame is configured to command a first STA from the set of STAs to transmit data buffered in the first STA to the AP device.

Abstract: A semiconductor device has first and second current terminals and a control terminal that can be biased to form an electrically conductive path from the first current terminal to the second current terminal through a channel region is provided with a temperature-sensitive current limiting device. The current-limiting device is integrally formed from semiconductor material of the control terminal and is configured to cause a reduction in electrical current flowing through the channel region when the temperature of the device in the channel region exceeds a predetermined threshold temperature.

Abstract: An embodiment of passive phase shifter comprises a ground shield, a pair of ground walls electrically connected to the ground shield having a first height above the ground shield; and a signal line positioned between the ground walls and electrically isolated from the ground shield. The signal line may comprise an intermediate signal line separated a second height above the ground shield; a top signal line separated from the intermediate signal line at a third height above the ground shield and electrically connected to the intermediate signal line by one or more conductive vias; and a plurality of blocks positioned between and electrically isolated from the intermediate signal line and the top signal line.