Abstract: A method and system are disclosed for managing cache memory in a dual-pipelined CABAC encoder. A request for a context model is received from both encoder pipelines. If the requested context model is not stored in cache, the requested context model is retrieved from a context table. At least one context model stored in cache is written to the context table. The retrieved context model is updated and written to the cache. If the requested context model is stored in cache, and if the requested context model was updated in the previous clock cycle, the requested context model is retrieved from the pipeline, updated, and written to cache. If the requested context model is not stored in cache, and if the requested contest model was not updated in the previous clock cycle, the requested context model retrieved from cache, updated, and written back to cache.

Abstract: Semiconductor devices include: (a) a semiconductor substrate containing a source region and a drain region; (b) a gate structure supported by the semiconductor substrate between the source region and the drain region; (c) a composite drift region in the semiconductor substrate, the composite drift region extending laterally from the drain region to at least an edge of the gate structure, the composite drift region including dopant having a first conductivity type, wherein at least a portion of the dopant is buried beneath the drain region at a depth exceeding an ion implantation range; and (d) a well region in the semiconductor substrate, wherein the well region has a second conductivity type and wherein the well region is configured to form a channel therein under the gate structure during operation of the semiconductor device. Methods for the fabrication of semiconductor devices are described.

Abstract: In an integrated circuit, a clock monitor circuit detects when an analog clock signal output by an on-chip crystal oscillator has stabilized. The clock monitor circuit uses an envelope follower circuit to monitor the envelope of the analog clock signal and compare the amplitude of the envelope with a predetermined amplitude value. When the predetermined value is reached and the envelope has remained steady for a predetermined time, an oscillator okay signal is generated. If an oscillator okay signal is not detected within another predetermined time, then an oscillator failure signal may be generated.

Abstract: A cache-coherent multiprocessor system comprising processing units, a shared memory resource accessible by the processing units, the shared memory resource being divided into at least one shared region, at least one first region, and at least one second region, a first cache, a second cache, a coherency unit, and a monitor unit, wherein the monitor unit is adapted to generate an error signal, when the coherency unit affects the at least one first region due to a memory access from the second processing unit and/or when the coherency unit affects the at least one second region due to a memory access from the first processing unit, and a method for detecting failures in a such a cache-coherent multiprocessor system.

Abstract: A memory cell includes a single bi-directional resistive memory element (BRME) having a first terminal directly connected to a first power rail and a second terminal coupled to an internal node; and a first transistor having a control electrode coupled to the internal node, and a first current electrode coupled to a first bitline, and a second current electrode coupled to one of a group consisting of: a read wordline and the first power rail.

Abstract: The present application relates to a mode-controlled voltage excursion detector apparatus for monitoring a supply voltage of a power supply applied to a load and a method of operating thereof. A voltage monitor is configured to detect an excursion event if the supply voltage exceeds or falls below at least one defined threshold, to generate an excursion event signal upon detection of the excursion event and to provide the generated excursion event signal to the excursion event output for being outputted via an excursion event output. A sensitivity control module is configured to receive a signal indicative of potential voltage excursions. A sensitivity control module is further operatively coupled to the sensitivity control input and configured to disable the outputting of an excursion event signal generated during a defined period of time in response to the reception of the signal, which triggers the disabling of the outputting.

Abstract: A method for detecting a freeze-frame condition comprises receiving a sequence of images from at least one digital device; selectively encoding a first subset of the sequence of images using a first coding scheme that causes an adjustment to an image characteristic of the selected images being encoded; selectively encoding a second subset of the sequence of images using a second coding scheme; storing the first encoded subset and second encoded subset; retrieving the stored first encoded subset and second encoded subset; selectively decoding the first subset of the selected images using the first coding scheme and selectively decoding the second subset of the selected images using the second coding scheme to re-create the sequence of images. A freeze-frame condition in the re-created sequence of images is identifiable based on a plurality of decoded images being different with respect to the image characteristic across multiple decoded image frames.

Abstract: The present application provides a calibration device for calibrating a crank angle of a calibrateable combustion engine, the calibrateable combustion engine and a method for calibrating. The calibration device is provided to determine a trigger wheel angle offset from a combustionless driving of the combustion engine in that an in-cylinder pressure profile is recorded, on the basis of which a trigger wheel angle offset is determined and stored at an offset memory of the combustion engine. The combustion engine is configured to determine a crank angle on the basis of a measured trigger wheel angle and the stored trigger wheel angle offset.

Abstract: A system on a chip comprising: a first communication controller; at least one second communication controller operably coupled to the first communication controller; at least one processing core operably coupled to the first communication controller and arranged to support software running on a first partition and a second partition; and a virtual machine monitor located between the first and second partitions, and the at least one processing core and arranged to support communications there between. The first communication controller is arranged to: generate or receive at least one data frame; and communicate the at least one data frame to the at least one second communication controller; such that the at least one second communication controller is capable of routing the at least one data frame to the second partition bypassing the virtual machine monitor.

Abstract: A method for protecting a data item against unauthorized access and a data processing device is disclosed comprising a memory unit and a memory control unit to protect data items stored in the memory unit against prohibited access. Upon a write access the memory control unit forms a first data word comprising a data item and a first key; computes a first error-detection code; and stores the data item along with the first error-detection code. Upon a read access the memory control unit reads the data item and the first error-detection code; forms a second data word comprising the data item and a second key; computes a second error-detection code to the second data word; and determines a syndrome on the basis of the first error-detection code and the second error-detection code, wherein the syndrome is indicative of whether or not the first and second data words are identical.

Abstract: Forming a semiconductor device in an NVM region and in a logic region using a semiconductor substrate includes forming a dielectric layer and forming a first gate material layer over the dielectric layer. In the logic region, a high-k dielectric and a barrier layer are formed. A second gate material layer is formed over the barrier and the first material layer. Patterning results in gate-region fill material over the NVM region and a logic stack comprising a portion of the second gate material layer and a portion of the barrier layer in the logic region. An opening in the gate-region fill material leaves a select gate formed from a portion of the gate-region fill material adjacent to the opening. A control gate is formed in the opening over a charge storage layer. The portion of the second gate material layer is replaced with a metallic logic gate.

Abstract: A detection circuit for an alternator regulator, and method therefor. The detection circuit comprises an input circuit arranged to receive a phase signal from an alternator regulator and to output an attenuated sense signal representative of the received phase signal, a detection component operably coupled to the input circuit and arranged to receive the attenuated sense signal output by the input circuit, and a blocking capacitance operably coupled between the input circuit and the detection component and arranged to block a DC component of the attenuated sense signal. The detection component is arranged to compare the received attenuated sense signal to at least one reference voltage signal, and to output a signal representative of a frequency of the phase signal from the alternator regulator based at least partly on the comparison of the received attenuated sense signal to the at least one reference voltage signal.

Abstract: The embodiments described herein provide a digital-to-analog converter (DAC). The DAC implements a stepped return-to-zero (RZ) pulse scheme, where the DAC output includes the superposition of multiple time-offset RZ pulses. In one embodiment, the DAC includes a first switching element, a second switching element, a current source, and a current sink. The first switching element generates first RZ pulses, and the second switching element generates second RZ pulses, where the second RZ pulses are time-offset from the first RZ pulses. The first RZ pulses and second RZ pulses are combined to provide stepped RZ pulse output signal.

Abstract: A phase locked loop (PLL) system generates an oscillator signal by providing a fixed control voltage to a programmable voltage to current converter having switch selection inputs and a variable current output. Logic values are provided to the switch selection inputs to adjust a control current at the variable current output and a frequency of the oscillator signal is adjusted based on the control current. The logic values are fixed when a first condition is reached, which is based on the frequency of the oscillator signal, a division factor, and an input reference signal frequency. The fixed control voltage provided to the programmable voltage to current converter is then replaced with a charge pump control voltage based on an error signal. The error signal is based on a comparison of the input reference signal frequency and a fraction of the oscillating frequency.

Abstract: An electronic device detects erroneous key selection entries or inaccurate actuation of a keypad. The device has a keypad with aligned keys. Each of the keys is partitioned into two sensor sub regions. A first one of the sub-regions includes at least a first sensor and a second one of the sub-regions includes a second sensor. A processor with a keypad sensor inputs is selectively coupled to the first and second sensors of each of the sub-regions. The second sensor of the first key and a proximal first sensor of an adjacent second key are coupled to a common keypad sensor input to provide indistinguishable sub-regions of adjacent keys. The processor is programmed to detect an erroneous key selection entry when only a key actuation signal is provided from the common keypad sensor.

Abstract: Multiple resets in a system-on-chip (SOC) during boot where on-board regulators and low voltage detector circuits have different trimmed and untrimmed values may be avoided by the inclusion of a series of latches that latch the trimmed values during boot and retain the trim values even during a SOC reset event. The SOC is prevented from entering into a reset loop during boot or when exiting reset for any reason other than boot. A power-on-reset comparator circuit that does not depend on any trim values enables the latches and only clears the latched trim values if its own supply voltage falls below a preset level.

Abstract: An integrated circuit (IC) that operates in high and low power modes includes high and low power regulators, first and second sets of circuits, a switch connecting the high power regulator and the second set of circuits, and a wake-up control system. The wake-up control system includes a state machine that enables the high power regulator when the IC is in the high power mode, and enables the low power regulator when the IC is in the low power mode. The switch is closed when the high power regulator reaches a first threshold voltage. The state machine operates on a low frequency clock signal when the IC is in the low power mode and during wake-up, and on a high frequency clock signal in the high power mode after the switch is closed.

Abstract: A method and apparatus are used to predistort input signal samples according to Volterra Series Approximation Model using one or more digital predistortion blocks (300) having a plurality of predistorter cells (301-303), each including an input multiplication stage (366-367) for combining absolute sample values received from an absolute sample delay line (362) into a first stage output, a lookup table (368) connected to be addressed by the first stage output for generating an LUT output, and a plurality of output multiplication stages (371-372, 373-374) for combining the LUT output with samples received from the amplitude sample delay line (362) and signal sample delay line (363) to generate an output signal sample yQ from said predistorter cell, where the output signal samples yQ from the predistorter cells are combined at an output adder circuit (375) to generate one or more Volterra terms of a combined signal (yOUT[n]).

Abstract: A method and circuit for generating a shifted strobe signal for sampling data read from a memory device includes generating an instantiation of a shifted strobe signal by applying both a coarse adjustment delay value and a fine adjustment delay value to a clock. Data read from a predetermined, programmed memory location or locations of the memory device is sampled using the shifted strobe signal. At least one of the applying steps is repeated and the read data is sampled again using the current instantiation of the shifted strobe signal. The process is repeated until the current instantiation of the shifted strobe signal is aligned with a valid data window of the memory device. The method can be used in both single data rate and double data rate applications.

Abstract: A variable-bias power amplifier is provided, comprising: a first variable voltage source generating first bias voltages based on bias control signals; a first amplifier circuit amplifying an output RF signal to generate a first amplified signal based on the first bias voltages; a second variable voltage source generating second bias voltages based on the bias control signals; a second amplifier circuit amplifying the output RF signal to generate a second amplified signal based on the second bias voltages; and a DC isolation circuit between the first amplifier circuit and the second amplifier circuit, electrically isolating DC currents at the first amplifier from DC currents at the second amplifier, wherein the first variable voltage source can be controlled independently from the second variable voltage source, and the first amplifier circuit, the second amplifier circuit, and the DC isolation circuit are all formed on a single die.