Patent application number | Description | Published |
20080266151 | Method of CABAC Coefficient Magnitude and Sign Decoding Suitable for Use on VLIW Data Processors - This invention decodes coefficient magnitudes in compressed video data using a selected context and speculatively decodes a coefficient sign. The next context selection depends upon a number of iterations. This invention confirms the speculatively decoded coefficient sign upon completion of the magnitude decode. This invention operates in a loop until reaching the number of significant coefficients within the block. The method exits the loop and decodes an escape code if an iteration count is greater than a predetermined number. An embodiment of this invention collects both a count up and a count down in an escape code decode in one loop. An embodiment of this invention estimates the number of significant coefficients in a block and selects the inventive or a prior art decode. | 10-30-2008 |
20080267513 | Method of CABAC Significance MAP Decoding Suitable for Use on VLIW Data Processors - This invention decodes a next significance symbol using a selected context. The invention operates in a loop for each symbol decode for a whole block until the number of decoded map elements reaches a maximum number of coefficients for the block type or a last significant coefficient marker is decoded updating loop variables accordingly. This invention counts the number of decoded significance symbols indicating a significant coefficient and stores the locations of such significant coefficients in an array. An embodiment of this invention estimates the number of significant coefficients in a block and selects the inventive method or a prior art decode method. | 10-30-2008 |
20090006037 | Accurate Benchmarking of CODECS With Multiple CPUs - An accurate and simple benchmarking method for multiple processor systems. Instead of a central timer as used in the prior art, a counter is implemented in each processor that counts the processor's clock cycles. The counter may be read after the processor's completes a benchmark task. This eliminates the timing skew common in the prior art. | 01-01-2009 |
20090006664 | Linked DMA Transfers in Video CODECS - A new mechanism submits multiple DMA requests that are becoming more common in the newer video codec standards. This feature improves system performance and allows bus accesses to be more efficient. An artificial burst is created by aggregating multiple requests which normally would be distributed to be more localized in time, thus creating a burst of traffic. | 01-01-2009 |
20090006665 | Modified Memory Architecture for CODECS With Multiple CPUs - The solution proposed in this invention is a nearest neighborhood access protocol, where not every processor is given access to every other memory block. It is shown by analyzing the pipeline that it is adequate to have no more than two masters (CPU's) in particular and 3 CPU's in general. In the case of the 2 CPU approach one of these CPU's is a producer, and the other CPU is a consumer. In the 3 CPU case the third owner may be a DMA channel. | 01-01-2009 |
20110280314 | SLICE ENCODING AND DECODING PROCESSORS, CIRCUITS, DEVICES, SYSTEMS AND PROCESSES - A video decoder includes a memory ( | 11-17-2011 |
20110310966 | SYNTAX ELEMENT DECODING - Techniques for efficient syntax element decoding in a system employing context-based adaptive binary arithmetic decoding are disclosed herein. In some embodiments, a video decoding system includes a context-based adaptive binary arithmetic code (“CABAC”) decoder. The decoder includes a processor and decode logic executed by the processor. The decode logic is configured to decompress a CABAC encoded syntax element. The decode logic includes a table embodying a set of rules that determine whether syntax element decoding is complete based on table addressing derived from a decoded syntax element binary value. | 12-22-2011 |
20110317762 | VIDEO ENCODER AND PACKETIZER WITH IMPROVED BANDWIDTH UTILIZATION - Techniques for managing a video encoding pipeline are disclosed herein. In one embodiment, a video encoder includes a multi-stage encoding pipeline. The pipeline includes an entropy coding engine and a transform engine. The entropy encoding engine is configured to, in a first pipeline cycle, entropy encode a transformed first macroblock and determine that a predetermined slice size will be exceeded by adding the entropy encoded macroblock to a slice. The transform engine is configured to provide a transformed macroblock to the entropy coding engine. The transform engine is also configured to determine, in a third pipeline cycle, coding and prediction mode to apply to the first macroblock, based on the entropy coding engine determining, in the first pipeline cycle, that the predetermined slice size will be exceeded by adding the encoded macroblock to a slice. | 12-29-2011 |
20120017067 | ON-DEMAND PREDICATE REGISTERS - In accordance with at least some embodiments, a digital signal processor (DSP) includes an instruction fetch unit and an instruction decode unit in communication with the instruction fetch unit. The DSP also includes a register set and a plurality of work units in communication with the instruction decode unit. The register set includes a plurality of legacy predicate registers. Separate from the legacy predicate registers, a plurality of on-demand predicate registers are selectively signaled without changing the opcode space for the DSP. | 01-19-2012 |
20120066415 | METHODS AND SYSTEMS FOR DIRECT MEMORY ACCESS (DMA) IN-FLIGHT STATUS - In accordance with at least some embodiments, a system includes a processing entity configured to run multiple threads. The system also includes a direct memory access (DMA) engine coupled to the processing entity, the DMA engine being configured to track DMA in-flight status information for each of a plurality of DMA channels. The processing entity is configured to manage overlapping DMA requests to a DMA channel of the DMA engine based on said DMA in-flight status information. | 03-15-2012 |
20120117360 | DEDICATED INSTRUCTIONS FOR VARIABLE LENGTH CODE INSERTION BY A DIGITAL SIGNAL PROCESSOR (DSP) - In accordance with at least some embodiments, a digital signal processor (DSP) includes an instruction fetch unit and an instruction decode unit in communication with the instruction fetch unit. The DSP also includes a register set and a plurality of work units in communication with the instruction decode unit. The DSP selectively uses a dedicated insert instruction to insert a variable number of bits into a register. | 05-10-2012 |
20130185538 | PROCESSOR WITH INTER-PROCESSING PATH COMMUNICATION - A processor includes a scalar processor core and a vector coprocessor core coupled to the scalar processor core. The scalar processor core is configured to retrieve an instruction stream from program storage. The instruction stream includes scalar instructions executable by the scalar processor core and vector instructions executable by the vector coprocessor core. The scalar processor core is configured to pass the vector instructions to the vector coprocessor core. The vector coprocessor core configured to process a plurality of data values in parallel while executing each vector instruction passed by the scalar processor core. The vector coprocessor core includes a plurality of processing paths arranged in parallel to process the data values. Each of the processing paths includes an execution unit. Each of the execution units is configured to communicate a result of processing to each other of the execution units. | 07-18-2013 |
20130185539 | PROCESSOR WITH TABLE LOOKUP AND HISTOGRAM PROCESSING UNITS - A processor includes a scalar processor core and a vector coprocessor core coupled to the scalar processor core. The scalar processor core is configured to retrieve an instruction stream from program storage, and pass vector instructions in the instruction stream to the vector coprocessor core. The vector coprocessor core includes a register file, a plurality of execution units, and a table lookup unit. The register file includes a plurality of registers. The execution units are arranged in parallel to process a plurality of data values. The execution units are coupled to the register file. The table lookup unit is coupled to the register file in parallel with the execution units. The table lookup unit is configured to retrieve table values from one or more lookup tables stored in memory by executing table lookup vector instructions in a table lookup loop. | 07-18-2013 |
20130185540 | PROCESSOR WITH MULTI-LEVEL LOOPING VECTOR COPROCESSOR - A processor includes a scalar processor core and a vector coprocessor core coupled to the scalar processor core. The scalar processor core includes a program memory interface through which the scalar processor retrieves instructions from a program memory. The instructions include scalar instructions executable by the scalar processor and vector instructions executable by the vector coprocessor core. The vector coprocessor core includes a plurality of execution units and a vector command buffer. The vector command buffer is configured to decode vector instructions passed by the scalar processor core, to determine whether vector instructions defining an instruction loop have been decoded, and to initiate execution of the instruction loop by one or more of the execution units based on a determination that all of the vector instructions of the instruction loop have been decoded. | 07-18-2013 |
20130185544 | PROCESSOR WITH INSTRUCTION VARIABLE DATA DISTRIBUTION - A vector processor includes a plurality of execution units arranged in parallel, a register file, and a plurality of load units. The register file includes a plurality of registers coupled to the execution units. Each of the load units is configured to load, in a single transaction, a plurality of the registers with data retrieved from memory. The loaded registers corresponding to different execution units. Each of the load units is configured to distribute the data to the registers in accordance with an instruction selectable distribution. The instruction selectable distribution specifies one of plurality of distributions. Each of the distributions specifies a data sequence that differs from the sequence in which the data is stored in memory. | 07-18-2013 |
20140355893 | VECTOR PROCESSOR CALCULATION OF LOCAL BINARY PATTERNS - A method (and system) of determining a local binary pattern in an image includes selecting an orientation. For each pixel in the image, the method further includes determining a binary decision for each such pixel relative to one neighboring pixel of the orientation, selecting a new orientation, and repeating the determination of the binary decision for each pixel in the image relative to one neighboring pixel of the newly selected orientation. | 12-04-2014 |
Patent application number | Description | Published |
20120262138 | SYSTEM AND METHOD FOR LOAD CURRENT DEPENDENT OUTPUT BUFFER COMPENSATION - A load current compensating output buffer circuit and method are disclosed. The circuit includes a buffer amplifier coupled to a supply voltage and the inverting input receives an input voltage and the non-inverting input couples to an output capacitive load. A feedback impedance with a variable resistance circuit and a Miller capacitance in series is coupled to an output of the buffer amplifier and the capacitive load. A pass transistor couples to the supply voltage and the output capacitive load, the pass transistor having a gate terminal coupled to the output of the output buffer amplifier and the feedback impedance, a load current passing through the pass transistor. A sense circuit is configured to sense the load current and apply a control voltage to the variable resistance circuit to vary the resistance of the variable resistance circuit based on the load current. | 10-18-2012 |
20130058329 | WIRELESS ROUTER SYSTEM - Conventional routers employ a wired backplane that employs “long reach” serializer/deserializer (SerDes) links, but this type of architecture is complicated, costly, and uses a considerable amount of power. To address some of these issues, a new wireless backplane architecture is provided here. This wireless backplane employs direct millimeter wave links between line cards that replaces the convention, wired switching fabric. | 03-07-2013 |
20130058330 | WIRELESS BRIDGE IC - Conventional routers employ a wired backplane that employs “long reach” serializer/deserializer (SerDes) links, but this type of architecture is complicated, costly, and uses a considerable amount of power. To address some of these issues, a new wireless backplane architecture is provided here. This wireless backplane employs direct millimeter wave links between line cards that replaces the convention, wired switching fabric. | 03-07-2013 |
20130207221 | EMBEDDED TUNGSTEN RESISTOR - A high TCR tungsten resistor on a reverse biased Schottky diode. A high TCR tungsten resistor on an unsilicided polysilicon platform geometry. A high TCR tungsten resistor between two parallel polysilicon leads on remaining contact etch stop dielectric. A high TCR tungsten resistor embedded in a intermetal dielectric layer above a lower interconnect layer and below an upper interconnect layer. A method of forming a high TCR tungsten resistor on a reverse biased Schottky diode. A method of forming high TCR tungsten resistor on an unsilicided polysilicon platform geometry. A method of forming high TCR tungsten resistor between two parallel polysilicon leads on remaining contact etch stop dielectric. A method of forming high TCR tungsten resistor embedded in a inter metal dielectric layer above a lower interconnect layer and below an upper interconnect layer. | 08-15-2013 |
20130300627 | TERMINATIONLESS POWER SPLITTER/COMBINER - An apparatus is provided. First and second hybrid couplers are provided with each having a first port, a second port, a third port, a fourth port and with each being substantially curvilinear. The fourth ports of the first and second hybrid couplers are first and second isolation port that are mutually coupled. The first port of the first hybrid coupler is configured to carry a first portion of a differential signal, and the first port of the second hybrid coupler is configured to carry a second portion of the differential signal. | 11-14-2013 |
Patent application number | Description | Published |
20140070853 | RF LOGIC DIVIDER - An apparatus is provided. Latches are coupled in series with one another in a ring configuration. Each latch includes a tri-state inverter, a first resistor-capacitor (RC) network, and a second RC network. The tri-state inverter has a first clock terminal and a second clock terminal. The first RC network is coupled to the first clock terminal. The second RC network is coupled to the second clock terminal. A biasing network is also provided. The biasing network has a first bias voltage generator that is coupled to the first RC network for each latch and a second bias voltage generator that is coupled to the second RC network for each latch. | 03-13-2014 |
20140139297 | BALUN WITH INTEGRATED DECOUPLING AS GROUND SHIELD - An apparatus is provided. Transmission line cells are formed in a first region. A first metallization layer is formed over the transmission line cells within a portion of the first region. At least a portion of the first metallization layer is electrically coupled to the plurality of transmission line cells. A second metallization layer is formed over the first metallization layer with an interconnect portion, and overlay portion, and a first balun. The interconnect portion at least partially extends into the first region, and the overlay portion is within the first region. The first balun winding is electrically coupled to the overlay portion and partially extends into a second region. The first region partially surrounds the second region. A third metallization layer is formed over the second metallization layer having a second balun winding within the second region, where the second winding is generally coaxial with the first balun winding. | 05-22-2014 |
20140198550 | FREQUENCY MULTIPLIER - An apparatus is provided. A differential pair of transistors is configured to receive a first differential signal having a first frequency, and a transformer, having a primary side and a secondary side is provided. The primary side of the transformer is coupled to the differential pair of transistors, and the secondary side of the transformer is configured to output a second differential signal having a second frequency, where the second frequency is greater than the first frequency. A first transistor is coupled to the first supply rail, the primary side of the transformer, and the differential pair of transistors, where the first transistor is of a first conduction type. A second transistor is coupled to the second supply rail, the primary side of the transformer, and the differential pair of transistors, where the second transistor is of a second conduction type. | 07-17-2014 |
20150071380 | METHOD AND CIRCUITRY FOR TRANSMITTING DATA - Data transfer devices and methods for transferring data between first and second circuits are disclosed. A data transfer device includes a first circuit having a plurality of data channels, wherein at least one of the data channels is an active data channel. A serializer has a plurality of inputs and an output, wherein the inputs are coupled to the plurality of data channels. The serializer is for coupling only one active channel at a time to the output. An isolation barrier is coupled to the output of the serializer, the isolation attenuates transients and passes the fundamental frequency. A second circuit includes a deserializer having an input and at least one output, the input is coupled to the isolation barrier, the at least one output is at least one active data channel. | 03-12-2015 |