Patent application number | Description | Published |
20080272847 | SIGNALING SYSTEM WITH LOW-POWER AUTOMATIC GAIN CONTROL - An integrated circuit device includes a variable-gain amplifier, memory circuit and gain control update circuit. The variable-gain amplifier generates an amplified signal having an amplitude according to a gain control value that is stored, at least during a first interval, within the memory circuit. The update circuit generates an updated gain control value based on the amplified signal during the first interval, and outputs the updated gain control value to the memory circuit to be stored therein at a conclusion of the first interval. | 11-06-2008 |
20090015340 | Phase Controlled Oscillator Circuit with Input Signal Coupler - An oscillating signal in an oscillator is caused to phase shift toward the phase of an input signal coupled to the oscillating signal. The resonant frequency of the oscillator is about equal to an integer multiple of the frequency of the input signal. The input signal may be generated in a pulse generator to have an input pulse duration less than or equal to that of the oscillating signal. The oscillator circuit may be used as a filter to filter pulse width variations or to filter jitter from a reference clock. The oscillator circuit may also serve as a buffer by amplifying the input signal. Phase interpolation can be obtained by coupling at least one input signal with at least one oscillating signal. | 01-15-2009 |
20090041049 | LOAD BALANCING FOR COMMUNICATIONS WITHIN A MULTIPROCESSOR COMPUTER SYSTEM - In a system having a N output ports, wherein N is an integer greater than one, a method of distributing packets across the plurality of output ports. A packet having two or more fields is received and a first number is computed as a function of one or more of the plurality of fields. A second number is computed that is modulo base N of the first number and an output port is selected as a function of the second number. | 02-12-2009 |
20090106529 | FLATTENED BUTTERFLY PROCESSOR INTERCONNECT NETWORK - A multiprocessor computer system comprises a folded butterfly processor interconnect network, the folded butterfly interconnect network comprising a traditional butterfly interconnect network derived from a butterfly network by flattening routers in each row into a single router for each row, and eliminating channels entirely local to the single row. | 04-23-2009 |
20090201090 | SIGNALING SYSTEM WITH LOW-POWER AUT0MATIC GAIN CONTROL - An integrated circuit device includes a variable-gain amplifier, memory circuit and gain control update circuit. The variable-gain amplifier generates an amplified signal having an amplitude according to a gain control value that is stored, at least during a first interval, within the memory circuit. The update circuit generates an updated gain control value based on the amplified signal during the first interval, and outputs the updated gain control value to the memory circuit to be stored therein at a conclusion of the first interval. | 08-13-2009 |
20090210682 | DATA TRANSFER BUS COMMUNICATION USING SINGLE REQUEST TO PERFORM COMMAND AND RETURN DATA TO DESTINATION INDICATED IN CONTEXT TO ALLOW THREAD CONTEXT SWITCH - Systems and methods for managing context switches among threads in a processing system. A processor may perform a context switch between threads using separate context registers. A context switch allows a processor to switch from processing a thread that is waiting for data to one that is ready for additional processing. The processor includes control registers with entries which may indicate that an associated context is waiting for data from an external source. | 08-20-2009 |
20090262794 | DIGITAL TRANSMITTER - An equalizer provided in a digital transmitter compensates for attenuation in a signal channel to a digital receiver. The equalizer generates signal levels as a logical function of bit history to emphasize transition signal levels relative to repeated signal levels. The preferred equalizer includes an FIR transition filter using a look-up table. Parallel circuits including FIR filters and digital-to-analog converters provide a high speed equalizer with lower speed circuitry. The equalizer is particularly suited to in-cabinet and local area network transmissions where feedback circuitry facilitates adaptive training of the equalizer. | 10-22-2009 |
20090292855 | HIGH-RADIX INTERPROCESSOR COMMUNICATIONS SYSTEM AND METHOD - A high-radix interprocessor communications system and method having a plurality of processor nodes, a plurality of first routers and a plurality of second routers. Each first router is connected to a processor node and to two or more second routers. Each first router includes input ports, output ports, row busses, columns channels and a plurality of subswitches arranged in a n×p matrix. Each row bus receives data from one of the plurality of input ports and distributes the data to two or more of the plurality of subswitches. Each column distributes data from one or more subswitches to one or more output ports. Each row bus includes a route selector, wherein the route selector includes a routing table which selects an output port for each packet and which routes the packet through one of the row busses to the selected output port. | 11-26-2009 |
20100034252 | Digital Transmitter - An equalizer provided in a digital transmitter compensates for attenuation in a signal channel to a digital receiver. The equalizer generates signal levels as a logical function of bit history to emphasize transition signal levels relative to repeated signal levels. The preferred equalizer includes an FIR transition filter using a look-up table. Parallel circuits including FIR filters and digital-to-analog converters provide a high speed equalizer with lower speed circuitry. The equalizer is particularly suited to in-cabinet and local area network transmissions where feedback circuitry facilitates adaptive training of the equalizer. | 02-11-2010 |
20100049942 | DRAGONFLY PROCESSOR INTERCONNECT NETWORK - A multiprocessor computer system comprises a dragonfly processor interconnect network that comprises a plurality of processor nodes, a plurality of routers, each router directly coupled to a plurality of terminal nodes, the routers coupled to one another and arranged into a group, and a plurality of groups of routers, such that each group is connected to each other group via at least one direct connection. | 02-25-2010 |
20100074385 | Digital Transmit Phase Trimming - A circuit has a phase adjustment circuit to generate an adjusted clock signal by adjusting a first clock signal in accordance with a control signal. A multiplexer receives input data signals on a plurality of first data lines and outputs onto at least one second data line output data signals in accordance with a plurality of second clock signals. A timing measurement circuit determines at least one timing parameter of at least one output data signal on at least the one second data line and generates the control signal in accordance with a deviation of at least the one timing parameter from a desired value. | 03-25-2010 |
20100283547 | SIGNALING SYSTEM WITH LOW-POWER AUTOMATIC GAIN CONTROL - An integrated circuit receiver includes a first channel comprising an amplifier responsive to a first gain control value in a first mode to receive an input signal and generate a first amplified signal having a transition rate. Detection circuitry in the first channel detects transitions in the first amplified signal in accordance with a detected transition rate. The detected transition rate is based on the first gain control value. Gain control logic adjusts the first gain control value based on a desired detected transition rate. The gain control logic generates a second gain control value for use during a second mode. The second gain control value being based on the first gain control value. | 11-11-2010 |
20110051794 | Digital Transmitter - An equalizer provided in a digital transmitter compensates for attenuation in a signal channel to a digital receiver. The equalizer generates signal levels as a logical function of bit history to emphasize transition signal levels relative to repeated signal levels. The preferred equalizer includes an FIR transition filter using a look-up table. Parallel circuits including FIR filters and digital-to-analog converters provide a high speed equalizer with lower speed circuitry. The equalizer is particularly suited to in-cabinet and local area network transmissions where feedback circuitry facilitates adaptive training of the equalizer. | 03-03-2011 |
20110135032 | DIGITAL TRANSMITTER - An equalizer provided in a digital transmitter compensates for attenuation in a signal channel to a digital receiver. The equalizer generates signal levels as a logical function of bit history to emphasize transition signal levels relative to repeated signal levels. The preferred equalizer includes an FIR transition filter using a look-up table. Parallel circuits including FIR filters and digital-to-analog converters provide a high speed equalizer with lower speed circuitry. The equalizer is particularly suited to in-cabinet and local area network transmissions where feedback circuitry facilitates adaptive training of the equalizer. | 06-09-2011 |
20110200085 | Digital Transmitter - An equalizer provided in a digital transmitter compensates for attenuation in a signal channel to a digital receiver. The equalizer generates signal levels as a logical function of bit history to emphasize transition signal levels relative to repeated signal levels. The preferred equalizer includes an FIR transition filter using a look-up table. Parallel circuits including FIR filters and digital-to-analog converters provide a high speed equalizer with lower speed circuitry. The equalizer is particularly suited to in-cabinet and local area network transmissions where feedback circuitry facilitates adaptive training of the equalizer. | 08-18-2011 |
20110255633 | Digital Transmitter - An equalizer provided in a digital transmitter compensates for attenuation in a signal channel to a digital receiver. The equalizer generates signal levels as a logical function of bit history to emphasize transition signal levels relative to repeated signal levels. The preferred equalizer includes an FIR transition filter using a look-up table. Parallel circuits including FIR filters and digital-to-analog converters provide a high speed equalizer with lower speed circuitry. The equalizer is particularly suited to in-cabinet and local area network transmissions where feedback circuitry facilitates adaptive training of the equalizer. | 10-20-2011 |
20120112837 | SIGNALING SYSTEM WITH LOW-POWER AUTOMATIC GAIN CONTROL - An integrated circuit receiver includes a first channel comprising an amplifier responsive to a first gain control value in a first mode to receive an input signal and generate a first amplified signal having a transition rate. Detection circuitry in the first channel detects transitions in the first amplified signal in accordance with a detected transition rate. The detected transition rate is based on the first gain control value. Gain control logic adjusts the first gain control value based on a desired detected transition rate. The gain control logic generates a second gain control value for use during a second mode. The second gain control value being based on the first gain control value. | 05-10-2012 |
20120206182 | Low-Clock-Energy, Fully-Static Latch Circuit - One embodiment of the present invention sets forth a technique for capturing and holding a level of an input signal using a low-clock-energy latch circuit that is fully static. The clock is only coupled to a first clock-activated pull-up or pull-down transistor and a second clock-activated pull-down or pull-up transistor. The level of the input signal is captured by a storage sub-circuit on one of the rising or the falling clock edge and stored to generate an output signal until the clock transitions. The level of the input signal is propagated to the output signal when the storage sub-circuit is not enabled. The storage sub-circuit is enabled and disabled by the first clock-activated transistor and a propagation sub-circuit is activated and deactivated by the second clock-activated transistor. | 08-16-2012 |
20120212271 | DUAL-TRIGGER LOW-ENERGY FLIP-FLOP CIRCUIT - One embodiment of the present invention sets forth a technique for technique for capturing and storing a level of an input signal using a dual-trigger low-energy flip-flop circuit that is fully-static and insensitive to fabrication process variations. The dual-trigger low-energy flip-flop circuit presents only three transistor gate loads to the clock signal and none of the internal nodes toggle when the input signal remains constant. One of the clock signals may be a low-frequency “keeper clock” that toggles less frequently than the other two clock signal that is input to two transistor gates. The output signal Q is set or reset at the rising clock edge using separate trigger sub-circuits. Either the set or reset may be armed while the clock signal is low, and the set or reset is triggered at the rising edge of the clock. | 08-23-2012 |
20120274377 | SINGLE-TRIGGER LOW-ENERGY FLIP-FLOP CIRCUIT - One embodiment of the present invention sets forth a technique for technique for capturing and storing a level of an input signal using a single-trigger low-energy flip-flop circuit that is fully-static and insensitive to fabrication process variations. The single-trigger low-energy flip-flop circuit presents only three transistor gate loads to the clock signal and none of the internal nodes toggle when the input signal remains constant. The output signal Q is set or reset at the rising clock edge using a single-trigger sub-circuit. A set or reset may be armed while the clock signal is low, and the set or reset is triggered at the rising edge of the clock. | 11-01-2012 |
20120320691 | CLAMPED BIT LINE READ CIRCUIT - One embodiment of the present invention sets forth a clamping circuit that is used to maintain a bit line of a storage cell in a memory array at a nearly constant clamp voltage. During read operations the bit line is pulled high or low from the clamp voltage by the storage cell and a change in current on the bit line is converted by the clamping circuit to produce an amplified voltage that may be sampled to read a value stored in the storage cell. The clamping circuit maintains the nearly constant clamp voltage on the bit line. Clamping the bit line to the nearly constant clamp voltage reduces the occurrence of read disturb faults. Additionally, the clamping circuit functions with a variety of storage cells and does not require that the bit lines be precharged prior to each read operation. | 12-20-2012 |
20130215733 | SPECULATIVE RESERVATION FOR ROUTING NETWORKS - Aspects relate to methods, devices and manufacturing relating to routing networks including a method for routing data units. The data units are individually routable through a routing network. A reservation request data unit is received over the routing network and from a sender. At least one speculative data unit associated with the reservation request data unit from the sender is received. The at least one speculative data unit is dropped in response to the at least one speculative data unit being blocked within the routing network. The sender is provided, over the routing network, a negative acknowledgement data unit that indicates the dropping of the at least one speculative data unit. The sender is provided a grant data unit indicating a start time. After the start time, at least one non-speculative data unit corresponding to the reservation request from the sender is received. | 08-22-2013 |