Abstract: An integrated circuit hierarchical design tool apparatus comprises a processor arranged to support a block coupling reconfiguration unit. The block coupling reconfiguration unit is capable of receiving block layout data comprising block placement, terminal location data and intra-block connectivity data. The block coupling reconfiguration unit is arranged to identify from the block layout data a block placement level block having a terminal respectively coupled to a plurality of other block placement level blocks by a plurality of nets, and to provide the block with an additional terminal capable of providing the same function as the terminal. The block coupling reconfiguration unit is also arranged to replace a net of the plurality of nets that is coupled to the terminal with a replacement net coupled to the additional terminal.

Abstract: Methods and systems are disclosed for non-intrusive debug processing of network frames. For certain embodiments, a frame parser processes frames from a network interface and generates frame metadata. A key generation engine processes each frame and its related metadata to generate a normal key and a debug key. The same key composition rule formats and key generation engine are used to generate the normal key and the debug key to provide non-intrusive debug processing. Frame classification logic compares the normal key to classification tables to determine a frame classification for the received frame. Separate debug comparison logic compares the debug key to debug reference data/masks to generate debug markers for the received frame. The frame classification and the debug markers for each frame are provided to frame marking logic, and a frame processing engine then processes the resulting marked/classified frames.

Abstract: A structure for preventing charge induced leakage of a semiconductor device includes a shield separated from a first interconnect by at least a first lateral spacing and separated from a second interconnect by at least a second lateral spacing. The first interconnect is connected to a first junction and the second interconnect is connected to a second junction. A shield bias is connected to the shield to terminate an electromagnetic field on the shield. The shield between the first and second lateral spacings has a minimum width to substantially prevent formation of a conductive channel between the first and second junctions. The shield may be formed over a portion of the first junction and over a portion of the second junction to substantially prevent formation of another conductive channel between the first and second junctions at a location that does not have the first and second lateral spacings.

Abstract: A low dropout regulator (LDO) is disclosed. The LDO includes a transistor loop including a first transistor coupled to a second transistor. The first transistor and the second transistor coupled to a first resistor and a second resistor. The first resistor being coupled to ground and second resister coupled to the first resistor. The LDO further includes an output transistor coupled to the second transistor and a power supply line. The output transistor further coupled to a pair of input transistors coupled to the power supply line. One of the input transistors coupled to a third resistor, wherein the third resistor coupled to a fourth resistor and the fourth resistor coupled to ground. The LDO also includes a fifth resistor coupled to an output of the output transistor. The fifth resistor is coupled to the first transistor.

Abstract: Embodiments of a method are disclosed. One embodiment is a method for securely updating firmware in a computing device, in which the computing device includes a host processor and a non-volatile memory. The method involves receiving a double-encrypted firmware image from an external firmware source, wherein the double-encrypted firmware image is generated from firmware that is encrypted a first time using a first crypto-key and then encrypted a second time using a second crypto-key. The method also involves receiving the second crypto-key from an external key source, decrypting the double-encrypted firmware image using the second crypto-key to produce an encrypted firmware image, storing the encrypted firmware image in the non-volatile memory of the computing device, reading the encrypted firmware image from the non-volatile memory of the computing device, decrypting the encrypted firmware image using the first crypto-key, and executing the firmware on the computing device.

Abstract: One example discloses a voltage regulator, comprising: a power supply input; a regulated voltage output; an output transistor configured to provide a first current from the power supply input to the regulated voltage output based on a control voltage; and a current amplifier configured to provide a second current from the power supply input to the regulated voltage output based on the control voltage; wherein the output transistor and the current amplifier are coupled in parallel between the power supply input and the regulated voltage output.

Abstract: A method and apparatus for identifying a search window of carrier-frequency-offset-corrected samples in which a first intermediate signal from a demodulator does not exceed a predetermined threshold, convolving a second intermediate signal from the demodulator within the search window with a predefined pattern to provide a convolution result, determining if an absolute peak of the convolution result exceeds a preamble pattern confirmation threshold, in response to the absolute peak of the convolution result exceeding the preamble confirmation threshold, confirming a preamble pattern detection event to provide a confirmed preamble pattern detection event of a confirmed preamble pattern, and receiving a signal including the confirmed preamble pattern to provide a received digital signal extracted from the signal.

Abstract: A method of operating an emulated electrically erasable (EEE) memory system includes entering a quick write mode for a predetermined amount of time, upon detection of imminent power loss of the EEE memory system. A first write request is received immediately subsequent to entering the quick write mode, where the first write request includes a first address of an emulated memory of the EEE memory system and associated first data to be written at the first address. A first new record is created in non-volatile memory of the EEE memory system during the quick write mode, where the first new record includes the first address, the associated first data, and a blank record status identifier. The first new record is updated to have a quick record status ID, in response to a determination that record data of the first new record passes verification.

Abstract: In accordance with various example embodiments, a method of receiving a protocol in the receiver, wherein the legacy protocol includes non-biphase encoded information, decoding the legacy protocol using a biphase decoder to produce a detected code, and correlating the detected code with a known code to verify the non-biphase encoded information.

Abstract: A peripheral integrated circuit (IC) device for providing support to a data processing IC device. The peripheral IC device comprises a fault detection component arranged to detect an occurrence of fault conditions within the data processing IC device. The peripheral IC device further comprises a safe state control component. Upon detection of a fault condition occurring within the data processing IC device by the fault detection component, the safe state control component is arranged to cause at least one I/O cell of the data processing IC device to be configured into at least one scan-chain, and cause at least one predefined control signal to be scanned into the at least one scan-chain to configure the at least one I/O cell into a state corresponding to the predefined control signal.

Abstract: A memory system capable of running a variety of different read retry sequences includes a memory controller that has a boot ROM with stored code for executing a read retry sequence. A non-volatile memory device such as a NAND flash includes a read retry register and receives command instructions including a read retry instruction from the memory controller and in response provides read data. A second non-volatile memory that is external to the NAND flash has a read retry table describing read retry sequence items that include a command, a read retry register address, and read retry data for updating the read retry register.

Abstract: Arbitrary instruction execution from context memory. In some embodiments, an integrated circuit includes a processor core; a context management circuit coupled to the processor core; and a debug support circuit coupled to the context management circuit, where: the context management circuit is configured to halt a thread running on the processor core and save a halted thread context for that thread into a context memory distinct from the processor core, where the halted thread context comprises a fetched instruction as the next instruction in the execution pipeline; the debug support circuit is configured instruct the context management circuit to modify the halted thread context in the context memory by replacing the fetched instruction with an arbitrary instruction; and the context management circuit is further configured to cause the thread to resume using the modified thread context to execute the arbitrary instruction.

Abstract: An ESD protection device is fabricated in a semiconductor substrate that includes a semiconductor layer having a first conductivity type. A first well implantation procedure implants dopant of a second conductivity type in the semiconductor layer to form inner and outer sinker regions. The inner sinker region is configured to establish a common collector region of first and second bipolar transistor devices. A second well implantation procedure implants dopant of the first conductivity type in the semiconductor layer to form respective base regions of the first and second bipolar transistor devices. Conduction of the first bipolar transistor device is triggered by breakdown between the inner sinker region and the base region of the first bipolar transistor device. Conduction of the second bipolar transistor device is triggered by breakdown between the outer sinker region and the base region of the second bipolar transistor device.

Abstract: Configurable per-task state counters for processing cores in multi-tasking processing systems are disclosed along with related methods. In part, the disclosed embodiments include a work scheduler and a plurality of processing cores. The work scheduler assigns tasks to the processing cores, and the processing cores concurrently process multiple assigned tasks using a plurality of processing states. Further, task state counters are provided for each assigned task, and these task state counters are incremented for each cycle that the task stays within selected processing states to generate per-task state count values for the assigned tasks. These per-task state count values are reported back to the work scheduler when processing for the task ends. The work scheduler can then use one or more of the per-task state count values to adjust how new tasks are assigned to the processing cores.

Abstract: An equalizer includes an equalizer circuit including a signal input to receive a first frequency-domain signal, another signal input to receive a second frequency-domain signal, and an equalized signal output to provide a first equalized signal based upon the first and second frequency-domain signals. Another equalizer circuit includes a signal input to receive a third frequency-domain signal, another signal input to receive a fourth frequency-domain signal, and an equalized signal output to provide a second equalized signal based upon the third and fourth frequency-domain signals. A third equalizer circuit includes a signal input coupled to the equalized signal output of the first equalizer circuit to receive the first equalized signal, another signal input coupled to the equalized signal output of the second equalizer circuit to receive the second equalized signal, and an equalized signal output to provide a third equalized signal based upon the first and second equalized signals.

Abstract: An apparatus for debugging operational code of a target program comprises a memory storing the operational code and a set of instructions representing a debugger program for debugging the operational code. A microprocessor is configured to execute the operational code and the debugger program. The debugger program can inject a jump to a breakpoint handling routine into the operational code and let a compiler program create code pieces for the breakpoint handling routine.

Abstract: A base transceiver station (BTS) includes dedicated memories to store uplink real-time (RT) data received by way of an antenna of the BTS and downlink RT data generated by processors of the BTS. The dedicated memories serve a dedicated number of processors, which prevents over-run and under-run of antenna buffers and provides deterministic data flow necessary to stream time-critical uplink and downlink RT data. Thus, a high and dedicated bandwidth for the uplink and downlink RT data is ensured.

Abstract: Embodiments include packaged semiconductor devices and methods of manufacturing packaged semiconductor devices. A semiconductor die includes a conductive feature coupled to a bottom surface of the die. The conductive feature only partially covers the bottom die surface to define a conductor-less region that spans a portion of the bottom die surface. The die is encapsulated by attaching the encapsulant material to the bottom die surface (e.g., including over the conductor-less region). The encapsulant material includes an opening that exposes the conductive feature. After encapsulating the die, a heatsink is positioned within the opening, and a surface of the heatsink is attached to the conductive feature. Because the heatsink is attached after encapsulating the die, the heatsink sidewalls are not directly bonded to the encapsulant material.

Abstract: An over-current protection circuit including, a current supply switch with a first terminal coupled to a supply current input and with a second terminal coupled to a supply current output. The current supply switch is switchable at least between an on-state, in which the current supply switch provides a conductive connection between the first terminal and the second terminal, and an off-state, in which the current supply switch interrupts the conductive connection between the first terminal and the second terminal. The over-current protection circuit receives a supply current via the supply current input and provides the supply current via the supply current output if the switch is in the on-state. The current supply switch includes a High Electron Mobility Transistor.

Abstract: In an embodiment, an electronic device includes a first amplifier having a non-inverting input configured to receive a reference voltage and an inverting input coupled to a first output node, where the first amplifier is configured to produce a first output voltage at the first output node. The electronic device also includes a second amplifier having a non-inverting input coupled to a ground reference level, and an inverting input coupled to the first output node via a first resistor and to a second output node via a second resistor, where the second amplifier is configured to produce a second output voltage at the second output node.