Abstract: A method is provided for detecting a race condition of a parallel task when accessing a shared resource in a multi-core processing system. The method requires that a core requires only a read access to the data set of another core, thereby ensuring better decoupling of the tasks. In an initialisation phase, initial values of global variables are assigned, in an activation phase, each core determines if the other core has written new values to the variables and if so, detects a race condition. Initial values are restored for each variable in a deactivation phase.

Abstract: Integrated circuit dies within a semiconductor wafer are separated using an approach that may facilitate mitigation of warpage, cracking and other undesirable aspects. As may be implemented in accordance with one or more embodiments, a semiconductor wafer is provided with a plurality of integrated circuit dies and first and second opposing surfaces, and with the second surface of the wafer being ground. A first mold compound is applied to the ground second surface, and the integrated circuit dies are separated along saw lanes while using the first mold compound to hold the dies in place. The integrated circuit dies are encapsulated with the mold compounds, by applying the second mold compound to the first surface and along sidewalls of the integrated circuit dies.

Abstract: A charge pump comprises a charge pump circuit with bipolar switching devices with a common emitter. A collector line which comprises a first current source connects to the high potential provider. An emitter line connects the common emitter to a low potential provider and comprises a second current source. The output is provided by or connected to the collector of the second bipolar switching device and provides said output voltage. A driving stage circuit applies a charge pump circuit driving signal across the bases of the bipolar switching devices and controls the charge pump circuit driving signal in accordance with a driving stage input signal. The driving stage circuit effects a shift of a DC operating point of the charge pump circuit driving signal as an increasing function of the output voltage function of the output voltage of the charge pump circuit.

Abstract: A memory is provided. The memory includes an array of non-volatile memory (NVM) cells arranged in a plurality sectors. A control gate driver circuit has an output coupled to control gates of the NVM cells in a sector in the plurality of sectors. An address decoder is coupled to the control gate driver circuit. And a latch circuit is coupled between the address decoder and the control gate driver circuit. The latch circuit stores a first value, and based on the stored first value, the control gate driver circuit output is floating.

Abstract: A method and device for simulating a semiconductor IC is provided, which comprises generating a high level description of the IC, generating a low level description of the IC comprising a plurality of instances describing the operation of the IC, conducting a low level function analysis of the IC based on metrics values associated with the instances, and performing a design optimization scheme. The scheme comprises mapping the metric values of instances describing functional units different from standard cells, to standard cells logically connected to said instances, by dividing each of the instance metrics values between a group of standard cells logically connected to the corresponding instance and adding each resulting portion of said instance metric value to the metric value of each of the group of standard cells, respectively.

Abstract: An integrated circuit for a radar device comprises at least one transmitter and at least one receiver. The integrated circuit comprises: a direct digital synthesizer, DDS, configured to output a control signal; and a multiplier configured to receive a local oscillator input signal and a further input signal from the DDS. In a first mode of operation, the DDS and multiplier cooperate to generate at least one transmitter signal to be transmitted from the radar device; and in a second mode of operation the DDS and multiplier cooperate to generate at least one low frequency modulated transmitter signal to be internally routed to the at least one receiver for calibrating the at least one receiver.

Abstract: A buck converter is described having a buck converter output for outputting an output supply voltage; a first power supply domain operably coupled to a power source; a second power supply domain; a power supply controller coupled to the first power supply domain, the second power supply domain and the buck converter output; wherein the power supply controller is configured to supply power to the second power supply domain from the first power supply domain or the buck converter output, in dependence of the buck converter output supply voltage. Changing the current supplied to the second power supply domain to the buck converter output may reduce the quiescent current consumption from a battery power source, prolonging battery life.

Abstract: The present invention provides a current source comprising a first bias current control element, the first bias current control element being configured to generate a first current if the control value is lower than a reference value and configured to generate a second current if the control value equal to or higher than the reference value. In addition or alternatively the bias current source comprises a second bias current control element, the second bias current control element being configured to generate a third current if the control value is lower than or equal to the reference value and configured to generate a fourth current if the control value is higher than the reference value. Furthermore, the present invention provides an integrated circuit and a method.

Abstract: A semiconductor device package that incorporates a combination of ceramic, organic, and metallic materials that are coupled using silver is provided. The silver is applied in the form of fine particles under pressure and a low temperature. After application, the silver forms a solid that has a typical melting point of silver, and therefore the finished package can withstand temperatures significantly higher than the manufacturing temperature. Further, since the silver is an interfacial material between the various combined materials, the effect of differing material properties between ceramic, organic, and metallic components, such as coefficient of thermal expansion, is reduced due to low temperature of bonding and the ductility of the silver.

Abstract: An integrated circuit includes a clock gate that is used to prevent timing exception paths from affecting data being captured by scan chain registers during at-speed scan testing. A single clock gate can be used to control multiple timing-exception paths, so the amount of X-bounding circuitry inserted into the IC can be drastically reduced compared to that required by conventional X-bounding methodologies.

Abstract: A system and module for, and a method of correcting, memory misalignment in a phase shift keying receiver is disclosed. Embodiments include a system having: an analog front end for receiving a demodulated signal having a preamble portion, and for generating a digital register input signal including a received preamble portion; a finite state machine for selecting a memory address of the demodulated signal based on the received preamble portion; a preamble memory for storing all possible preambles contained within the demodulated signal and for supplying a selected preamble memory output corresponding to the selected memory address; and a memory alignment module configured to compare phase information of symbols of the preamble portion and preamble phase information of symbols of the selected preamble memory output. This system checks that the preamble portion of the register input signal aligns with the selected preamble memory output and makes corrections when necessary.

Abstract: A method of performing a keyed cryptographic operation mapping an input message to an output message, wherein the input message comprises m input data and the output message comprises m output data and wherein the cryptographic operation includes at least one round and the cryptographic operation specifies a substitution box for mapping input data into output data, including: transforming each of the m input data into n output data using n split substitution boxes, wherein the n split substitution boxes sum to the specified substitution box; and mixing and combining the m×n output data.

Abstract: The present application relates to an apparatus for verifying the integrity of image data comprising mapped texture data is provided and a method of operating thereof. A fragment shader unit is coupled to first and second frame buffers and at least one texture buffer. A first texture sampler unit is configured to output texture mapped fragments to the first frame buffer. A second texture sampler unit is configured to output texture mapped fragments to the second frame buffer. A comparator unit is further configured to compare the image data stored in the first frame buffer and in the second frame buffer. A fault indication signal is issued in case the image data of the first and the second frame buffers mismatch.

Abstract: A method of testing a data transmission and reception system comprises sending a test signal from a transmitter (14) of the system to a receiver (12) of the system, and analyzing the received signal. A duty cycle relationship is varied between the test signal and the timing signal used by the receiver of the system, and the effect of the duty cycle variation is analyzed. Varying the duty cycle relationship provides duty cycle distortion (DCD), and this can be considered as a form of embedded jitter insertion. This type of jitter can be measured relatively easily.

Abstract: A carrier aggregation controller for providing an aggregated baseband signal from a plurality of baseband signals is provided. The controller comprises an accumulating memory, a selector and a time domain transformer. The selector is configured to add at least a first list of frequency domain samples obtained for the first baseband signal to first consecutive locations in the accumulating memory centered at a first preset location associated with the first baseband signal, and a second list of frequency domain samples obtained for the second baseband signal to second consecutive locations in the accumulating memory centered at a second preset location associated with the second baseband signal. The time domain transformer is configured to apply at least an inverse discrete Fourier transform to the frequency domain samples accumulated in the accumulating memory, obtaining the aggregated baseband signal.

Abstract: A sensor system includes a microelectromechanical systems (MEMS) sensor, processing circuitry, measurement circuitry, stimulus circuitry and memory. The system is configured to provide an output responsive to physical displacement within the MEMS sensor to the measurement circuitry. The stimulus circuitry is configured to provide a stimulus signal to the MEMS sensor to cause a physical displacement within the MEMS sensor. The measurement circuitry is configured to process the output from the MEMS sensor and provide it to the processing circuitry, which is configured to generate stimulus signals and provide them to the stimulus circuitry for provision to the MEMS sensor. Output from the measurement circuitry corresponding to the physical displacement occurring in the MEMS sensor is monitored and used to calculate MEMS sensor characteristics. Methods for monitoring and calibrating MEMS sensors are also provided.

Abstract: A series-type Doherty amplifier circuit includes a first amplifier, a second amplifier, and a directional coupler. The first amplifier is of a first type and has an input for receiving a radio frequency input signal, and an output. The second amplifier is of a second type and has an input and an output. The directional coupler has a first terminal coupled to the output of the first amplifier, a second terminal coupled to the input of the second amplifier, and a third terminal coupled to the output of the second amplifier for providing a radio frequency output signal. The series-type Doherty amplifier circuit may also include variable phase and attenuation circuits for adjusting the phase and attenuation of input signal for the second amplifier. The ability to adjust phase and attenuation allows high operating efficiency for any saturation power level.

Abstract: An arrangement for modifying a printed circuit antenna of the type used in mobile communication devices includes introducing one or more discontinuities into a printed circuit pattern of the antenna so that it is not activated at undesired frequencies. Examples of discontinuities include localized narrowing the printed circuit strip, localized widening of the printed circuit strip and localized changing of the shape of the printed circuit strip.

Abstract: Various exemplary embodiments relate to a method for improving reception of transmissions with first adjacent interference signals, the method including selecting one or more time samples from each of two or more antennas; generating a lower first adjacent interference (LFAI) signal, a desired signal, and an upper first adjacent interference (UFAI) signal for each of the time samples; calculating a lower weighting co-efficient based on the LFAI signal; calculating a middle weighting co-efficient based on the desired signal; calculating a upper weighting co-efficient based on the UFAI signal; combining the lower weighting co-efficient with a filtered LFAI signal into a weighted lower signal; combining the middle weighting co-efficient with a filtered desired signal into a weighted middle signal; combining the upper weighting co-efficient with a filtered UFAI signal into a weighted upper signal; and combining the weighted lower signal, the weighted middle signal, and the weighted upper signal.

Abstract: Various aspects of the present disclosure are directed toward methods and apparatus that include a lead frame with a fixed external pin pitch. A differential signal path is provided that is characterized by bond-pad pitch range, wire length and wire diameter. The differential signal path carries signals in a frequency range between 5 GHz and 16.1 GHz with less than about 25 dB differential return loss (DDRL). Further, the signals are processed at a signal-processing node that is electrically coupled to the differential signal path by using the differential signal path to carry signals in a frequency range between 5 GHz and about 16.1 GHz.