Abstract: A method of determining optimal FEC configuration parameters, a communications controller, a communications link and a communications node is disclosed. In one embodiment, the communications controller, includes: (1) a processor, (2) a communications system information collector configured to receive operational information from a communications system having a block encoder, a block decoder and a decision feedback equalizer, (3) a code determiner configured to employ the operational information to select, from a set of candidate codes, a random error correction code or a burst error correction code that has a least error correction capability and satisfies a target performance specification for the communications system and (4) a parameter selector configured to select configuration parameters associated with the selected random error correction code or the selected burst error correction code and send the selected configuration parameters to the block encoder and the block decoder.

Abstract: According to particular embodiments, an illumination system includes a light source that generates light for use in illuminating a spatial light modulator and an assembly of two optical elements spatially separated by a gap that receives the light from the light source, changes the shape of the light, and transmits the light onto the spatial light modulator.

Abstract: Slim spacers are implemented in transistor fabrication. More particularly, wide sidewall spacers are initially formed and used to guide dopants into source/drain regions in a semiconductor substrate. The wide sidewall spacers are then removed and slim sidewall spacers are formed alongside a gate stack of the transistor. The slim spacers facilitate transferring stress from an overlying pre metal dielectric (PMD) liner to a channel of the transistor, and also facilitate reducing a resistance in the transistor by allowing silicide regions to be formed closer to the channel. This mitigates yield loss by facilitating predictable or otherwise desirable behavior of the transistor.

Abstract: An electronic device (100) with one or more semiconductor chips (102) has an inductor (101) assembled on or under the chips. The inductor includes a ferromagnetic body (111) and a wire (104) wrapped around the body to form at least a portion of a loop; the wire ends (104a) are connected to the chips. The assembly is attached to a substrate (103), which may be a leadframe. The device may be encapsulated in molding compound (140) so that the inductor can double as a heat spreader (111c), enhancing the thermal device characteristics.

Abstract: A multibit sigma delta modulator for conveting an analog input signal (Vin) into a multibit digital output signal is disclosed. In one embodiment, the multibit sigma modulator includes a first analog filter for filtering the analog input error signal, a quantizer including multiple single bit noise shaped modulators for quantizing the filtered analog input error signal outputted by the first analog filter for generating a multibit digital output signal, and a first feedback arrangement with at least one digital-to-analog converter (DAC) coupled to the quantizer for supplying to the first analog filter at least one quantizer feedback signal based on the multibit digital output signal.

Abstract: A discrete-time, single-amplifier, second-order, delta-sigma analog-to-digital converter (DT-SADS ADC) and a method of operating the same. The DT-SADS ADC combines switched-capacitor input sampling with switched-capacitor feedback and passive summing junction capacitor integration.

Abstract: A receiver 30 has an adjustable gain control circuit 32 that provides gain control base on the magnitude of the signal at the input of an analog-to-digital converter 22. The magnitude of a gain increase or decrease can be based on the most significant bits of the analog-to-digital output, indicating whether the analog-to-digital converter is close to saturation, approaching saturation, or well below saturation.

Abstract: A novel mechanism for detecting the presence of powered devices over a network. A unique, infinite pseudo-random sequence of pulses are generated and transmitted over the network to the link partner attached to the other end of the cable. At each time unit, the PSE decides whether or not to transmit a pulse at that time. Thus, the pulses generated have pseudo-random inter-pulse delays between them. In addition, each pulse is pseudo-randomly selected to have either positive or negative polarity. If the link partner is a powered device it will be in loopback mode and the transmitted pulses will be looped back to the transmitter (i.e. the PSE). The PSE, at each time unit regardless of whether or not a pulse was transmitted, opens a search window in which it listens to the RX line for the appropriate expected behavior. If a pulse was transmitted, the PSE expects to see a pulse looped back. Similarly, if no pulse was transmitted, the PSE does not expect to receive a signal during the search window.

Abstract: An integrated circuit includes a SRAM array including a plurality of SRAM cells arranged in a plurality of rows and columns and having a plurality of word lines and bit lines for accessing rows and columns of cells. A power supply controller has an input operable for receiving an operation signal indicative of whether the array is in a read or write operation. The power supply controller is operable to provide a variable low voltage for the array (VSSM) coupled to a low voltage supply terminal of the array. A level of the VSSM is based on the operation signal, wherein VSSM is at a lower level when in the read operation than when in the write operation. A high voltage supply for said array (VDDM) coupled to a high voltage supply terminal for the array is biased above a word line voltage (VWL) level in the read operation.

Abstract: A novel and useful synchronization mechanism that functions to provide a uniform time base for mesh points in a WLAN mesh based network. The invention enables timing synchronization to a common reference clock base by advertising the common TSF within beacon transmissions. All MPs in a mesh share a common DTIM interval. The synchronization mechanism enables the mesh points to avoid collisions in the generation and transmission of beacons. The TBTT offsets of the current MP and its neighbors are advertised in beacons so that neighboring MPs that hear the beacons can select non-overlapping TBTT offsets. Each MP receives one or more beacons from its neighbors and compares the timing of its neighbors to that of itself and adopts the highest TSF (i.e. the fastest) in the mesh. Eventually, all MPs in the mesh will adjust their timing to that of the MP with the fastest clock. The reception of beacons by MPs from its neighbors is also advertised.

Abstract: A DSL modem (21) including a configurable digital transceiver (30) is disclosed. The digital transceiver (30) includes a configuration register (43), or other circuitry, that selects a number of analog transmission ports to be implemented in the modem (21). Instances of analog front-end circuitry (34) for each of the configured ports is also provided. According to the disclosed embodiments, the number of ports supported is scaled with the data rate for each port, and with the signaling bandwidth for each port, to maximize the efficiency of the transmission.

Abstract: A receiver (MST) for use in a modulated communications system wherein data is communicated in a time-slotted format. The receiver comprises circuitry (22) for providing samples of a group of data from the time-slotted format and circuitry (46, 42) for determining a first set of channel estimates in response to a first set of the samples. The receiver also comprises circuitry (30) for first predicting decisions for data in the group of data in response to the first set of channel estimates and circuitry (46, 42) for determining a second set of channel estimates in response to the predicted decisions. Lastly, the circuitry for predicting is further for second predicting decisions for data in the group of data in response to the second set of channel estimates.

Abstract: A method to supply audio effects to video games employs graphics information of sound source objects and sound interacting objects in a real time physical model to determine the audio effects. Each sound source and sound interacting object is associated with a computer generated object in the graphical environment. The physical model determines how the sound interacts with the environment at the current object locations and applies the audio effects. The game designer does not need to dub in audio effects artificially in an add-on manner.

Abstract: An integrated circuit. The integrated circuit comprises an area having a layout aligned in rows. Each row is definable by a pair of row boundaries. The integrated circuit also comprises a plurality of cells, comprising a first set of cells. Each cell in the first set of cells spans at least two rows and comprises a PMOS transistor having a source/drain region that spans across one of the row boundaries and an NMOS transistor having a source/drain region that spans across one of the row boundaries.

Abstract: An electronic system comprises a processor, memory coupled to the processor, and an application programming interface that causes an embedded garbage collection object to be active. The memory stores one or more objects that selectively have references from root objects. The embedded garbage collection object preferably uses control data to cause objects to be removed from said memory, the removed objects comprise those objects that were created while an embedded garbage collection object was active and that do not have references from root objects.

Abstract: A method of fabricating graphene transistors, comprising providing an SOI substrate, performing an optional threshold implant on the SOI substrate, forming an upper silicon layer mesa island, carbonizing the silicon layer into SiC utilizing a gaseous source, converting the SiC into graphene, forming source/drain regions on opposite longitudinal ends of the graphene, forming gate oxide between the source/drain regions on the graphene, forming gate material over the gate oxide, creating a transistor edge, depositing dielectric onto the transistor edge and performing back end processing.

Abstract: An embedded memory device and method of forming MOS transistors having reduced masking requirements and defects using a single drain sided halo implant in the NMOS FLASH or EEPROM memory regions is discussed. The memory device comprises a memory region and a logic region. Logic transistors within the logic region have halos implanted at an angle underlying the channel from both drain and source region sides. Asymmetric memory cell transistors within the memory region receive a selective halo implant only from the drain side of the channel and not from the source side to form a larger halo on the drain side and leave a higher dopant concentration more deeply into the source side.

Abstract: A PMOS transistor and a method for fabricating a PMOS transistor. The method may include providing a semiconductor wafer having a PMOS transistor gate stack, source/drain extension regions, and active regions. The method may also include forming epi sidewalls, performing a ex-situ recess etch, and performing an in-situ recess etch. The ex-situ recess etch and the in-situ recess etch form recessed active regions. The PMOS transistor is formed by a method using ex-situ and in-situ etch and has epitaxial SiGe regions with a greatest width at the surface of the semiconductor wafer.

Abstract: Generating an output signal having a frequency of 1/(M+F) of the frequency of the input signal, wherein M represents an integer and F represents a non-zero fraction. Assuming F equals (Q/R) in one embodiment, wherein Q and R are integers, R intermediate signals phase shifted by equal degree (relative to the one with closest phase shift) in one clock period of the input signal are generated. A selection circuit may select one of the intermediate signals in one clock cycle, select the successive signals with increasing phase shift in Q clock cycles, and leave the intermediate signal with the same shift as in the previous clock cycle in the remaining ones of the M clock cycles. A counter counts a change of state in the output of the selection circuit, and generates a pulse representing an edge of the output signal at the time instance when counter counts M.

Abstract: A method and system for etching a substrate control selectivity of the etch process by modulating the gas specie of the reactants. The gas specie selectively form and etch a buffer layer that protects underlying etch stop materials thereby providing highly selective etch processes.