Patent application number | Description | Published |
20130194031 | DATA-DRIVEN CHARGE-PUMP TRANSMITTER FOR DIFFERENTIAL SIGNALING - One embodiment of the present invention sets forth a mechanism for transmitting and receiving differential signals. A transmitter combines a direct current (DC) to DC converter including a capacitor with a 2:1 multiplexer to drive a pair of differential signaling lines. The transmitter drives a pair of voltages that are symmetric about the ground power supply level. Signaling currents are returned to the ground plane to minimize the generation of noise that is a source of crosstalk between different differential signaling pairs. Noise introduced through the power supply is correlated with the switching rate of the data and may be reduced using an equalizer circuit. | 08-01-2013 |
20130195165 | GROUND REFERENCED SINGLE-ENDED SIGNALING - One embodiment of the present invention sets forth a mechanism for transmitting and receiving ground-referenced single-ended signals. A transmitter combines a direct current (DC) to DC converter including a flying capacitor with a 2:1 clocked multiplexer to drive a single-ended signaling line. The transmitter drives a pair of voltages that are symmetric about the ground power supply level. Signaling currents are returned to the ground plane to minimize the generation of noise that is a source of crosstalk between different signaling lines. Noise introduced through the power supply is correlated with the switching rate of the data and may be reduced using an equalizer circuit. | 08-01-2013 |
20130214839 | 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. | 08-22-2013 |
20130216013 | SYSTEM AND METHOD FOR DETERMINING A TIME FOR SAFELY SAMPLING A SIGNAL OF A CLOCK DOMAIN - A system and method are provided for determining a time for safely sampling a signal of a dock domain. In one embodiment, a frequency estimate of a first clock domain is calculated utilizing a frequency estimator. Additionally, a time during which a signal from the first clock domain is unchanging is determined such that the signal is capable of being safely sampled by a second clock domain, using the frequency estimate. In another embodiment, a frequency estimate of a first dock domain is calculated utilizing a frequency estimator. Further, a phase estimate of the first clock domain is calculated based on the frequency estimate, utilizing a phase estimator. Moreover, a time during which a signal from the first clock domain is unchanging is determined such that the signal is capable of being safely sampled by a second clock domain, using the phase estimate. | 08-22-2013 |
20130272366 | 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. | 10-17-2013 |
20130278315 | 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 dock. | 10-24-2013 |
20140044159 | GROUND REFERENCED SINGLE-ENDED SIGNALING - One embodiment of the present invention sets forth a mechanism for transmitting and receiving ground-referenced single-ended signals. A transmitter combines a direct current (DC) to DC converter including a flying capacitor with a 2:1 clocked multiplexer to drive a single-ended signaling line. The transmitter drives a pair of voltages that are symmetric about the ground power supply level. Signaling currents are returned to the ground plane to minimize the generation of noise that is a source of crosstalk between different signaling lines. Noise introduced through the power supply is correlated with the switching rate of the data and may be reduced using an equalizer circuit. | 02-13-2014 |
20140125393 | LATCH CIRCUIT WITH A BRIDGING DEVICE - One embodiment of the present invention sets forth a technique for capturing and holding a level of an input signal using a latch circuit that presents a low number of loads to the clock signal. The clock is only coupled to a bridging transistor and a pair of clock-activated pull-down or pull-up transistors. 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 by the bridging transistor and a propagation sub-circuit is activated and deactivated by the pair of clock-activated transistors. | 05-08-2014 |
20140132245 | HIGH-RESOLUTION PHASE DETECTOR - A method and a system are provided for clock phase detection. A set of delayed versions of a first clock signal is generated. The set of delayed versions of the first clock is used to sample a second clock signal, producing a sequence of samples in a domain corresponding to the first clock signal. At least one edge indication is located within the sequence of samples. | 05-15-2014 |
20140139275 | VARIATION-TOLERANT PERIODIC SYNCHRONIZER - A method and a system are provided for variation-tolerant synchronization. A phase value representing a phase of a second clock signal relative to a first clock signal and a period value representing a relative period between the second clock signal and the first clock signal are received. An extrapolated phase value of the second clock signal relative to the first clock signal corresponding to a next transition of the first clock signal is computed based on the phase value and the period value. | 05-22-2014 |
20140139276 | MATRIX PHASE DETECTOR - A method and a system are provided for clock phase detection. A first set of delayed versions of a first clock signal is generated and a second set of delayed versions of a second clock signal is generated. The second set of delayed versions of the second clock signal is sampled using the first set of delayed versions of the first clock signal to produce an array of clock samples in a domain corresponding to the first clock signal. At least one edge indication is located within the array of clock samples. | 05-22-2014 |
20140146901 | 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. | 05-29-2014 |
20140149780 | SPECULATIVE PERIODIC SYNCHRONIZER - A method and a system are provided for speculative periodic synchronization. A phase value representing a measured phase of the second clock signal relative to the first clock signal measured at least one cycle earlier is received. A period value representing a period of the second clock signal relative to the first clock signal measured at least one cycle earlier is also received. A reduced timing margin is determined based on the phase value and the period value. A speculatively synchronized output signal is generated based on the reduced timing margin. | 05-29-2014 |
20140204687 | SYSTEM AND METHOD FOR PERFORMING ADDRESS-BASED SRAM ACCESS ASSISTS - A method and a system are provided for performing address-based memory access assist. An address is received for a memory access and a determination is made, based on the address, that access assist is enabled for at least one storage cell corresponding to the address. The access assist is applied to the at least one storage cell to perform the memory access. | 07-24-2014 |
20140210429 | CURRENT-PARKING SWITCHING REGULATOR WITH A SPLIT INDUCTOR - A system and method are provided for regulating a voltage level at a load. The method configures a current control mechanism to generate a current through a first inductor and a second inductor that are coupled in series and configures a voltage control mechanism to provide a portion of the current to regulate the voltage level. The second inductor isolates the load from a parasitic capacitance of the current control mechanism. An electric power conversion device for regulating the voltage level at the load comprises the current control mechanism that is coupled to an electric power source and configured to generate a current through the first inductor and the second inductor that are coupled in series and the voltage control mechanism that is coupled to the second inductor and configured to provide a portion of the current to regulate the voltage level. | 07-31-2014 |
20140210434 | CURRENT-PARKING SWITCHING REGULATOR DOWNSTREAM CONTROLLER - A system and method are provided for regulating a voltage level at a load. A current source generates a current and a voltage control mechanism provides a portion of the current to regulate the voltage level at the load. When the voltage level at the load is greater than a maximum voltage level, the current source is decoupled from the load and the current source is coupled to a current sink to reduce the voltage level at the load. An electric power conversion comprises the current source and the voltage control mechanism. A downstream controller is configured to control the voltage control mechanism to decouple the current source from the load and couple the current source to a current sink to reduce the voltage level at the load when the voltage level at the load is greater than a maximum voltage level. | 07-31-2014 |
20140218001 | CURRENT-PARKING SWITCHING REGULATOR DOWNSTREAM CONTROLLER PRE-DRIVER - A system and method are provided for generating non-overlapping enable signals. A peak voltage level is measured at an output of a current source that is configured to provide current to a voltage control mechanism. The non-overlapping enable signals are generated for the voltage control mechanism based on the peak voltage level. A system includes the current source, a downstream controller, and the voltage control mechanism that is coupled to the load. The current source is configured to provide current to the voltage control mechanism. The controller is configured to measure the peak voltage level at the output of the current source and generate the non-overlapping enable signals based on the peak voltage level. The non-overlapping enable signals provide a portion of the current to the load. | 08-07-2014 |
20140232360 | PREDICTIVE CURRENT SENSING - A system and method are provided for estimating current. A current source is configured to generate a current and a pulsed sense enable signal is generated. An estimate of the current is generated and the estimate of the current is updated based on a first signal that is configured to couple the current source to an electric power supply and a second signal that is configured to couple the current source to aloud. A system includes the current source and a current prediction unit. The current source is configured to generate a current. The current prediction unit is coupled the current source and is configured to generate the estimate of the current and update the estimate of the current based on the first signal and the second signal. | 08-21-2014 |
20140232361 | PULSED CURRENT SENSING - A system and method are provided for sensing current. A current source is configured to generate a current and a pulsed sense enable signal is generated. A sense voltage across a resistive sense mechanism is sampled according to the sense enable signal, where the sense voltage represents a measurement of the current. A system includes the current source and a current sensing unit. The current source is configured to generate a current. The current sensing unit is coupled the current source and is configured to generate a pulsed sense enable signal and sample the sense voltage across a resistive sense mechanism according to the pulsed sense enable signal. | 08-21-2014 |
20140240016 | LOW CLOCK ENERGY DOUBLE-EDGE-TRIGGERED FLIP-FLOP CIRCUIT - A double-edge-triggered flip-flop circuit and a method for operating the double-edge-trigger flip-flop circuit are provided. Sub-circuits of a flip-flop circuit are coupled to a ground supply and decoupled the sub-circuits from a power supply when a clock signal is asserted. The sub-circuits generate trigger signals including a first pair of signals and a second pair of signals. The first pair of signals is evaluated, levels of the second pair of signals are maintained when the clock signal is asserted, and an output signal is transitioned to equal an input signal based on the trigger signals when the clock signal is asserted. | 08-28-2014 |
20140247025 | MULTIPHASE CURRENT-PARKING SWITCHING REGULATOR - A system and method are provided for regulating a voltage at a load. A target current is obtained and a number of regulator phases needed to provide the target current to a load is computed based on an efficiency characteristic of the regulator phases. The regulator phases are configured to provide the target current to the load. A multi-phase electric power conversion device comprises at least two regulator phases and a multi-phase control unit. The multi-phase control unit is configured to obtain the target current, compute the number of the regulator phases needed to provide the target current to the load based on the efficiency characteristic of the regulator phases, and configure the regulator phases to provide the target current to the load. | 09-04-2014 |
20140253175 | SYSTEM, METHOD, AND COMPUTER PROGRAM PRODUCT FOR AUTOMATIC TWO-PHASE CLOCKING - A system, method, and computer program product for converting a design from edge-triggered docking to two-phase non-overlapping clocking is disclosed. The method includes the steps of replacing an edge-triggered flip-flop circuit that is coupled to a combinational logic circuit with a pair of latches including a first latch circuit and a second latch circuit and determining a midpoint of the combinational logic circuit based on timing information. The second latch circuit is propagated to a midpoint of the combinational logic circuit and two-phase non-overlapping clock signals are provided to the pair of latches. | 09-11-2014 |
20140254298 | VARIABLE DYNAMIC MEMORY REFRESH - A system and method are provided for refreshing a dynamic memory. A first region of a memory is refreshed at a first refresh rate and a second region of the memory is refreshed at a second refresh rate that is different than the first refresh rate. A memory controller is configured to refresh the first region of a memory at the first refresh rate and refresh the second region of the memory at the second refresh rate. | 09-11-2014 |
20140265589 | CURRENT DIVERSION FOR POWER-PROVIDING SYSTEMS - Various example embodiments are directed to methods and apparatuses for diverting current from a Photovoltaic (PV) module. In particular embodiments, the PV module can be part of a series connection (or string) of PV modules. The series connection provides a primary current path through which generated current flows. Current diversion circuit(s) can be used in connection with one or more PV modules. The current diversion circuit detects when the current through the primary current path is less than the desired current level for a corresponding PV module (e.g., the maximum power point). In response to this detection, the current diversion circuit can provide an alternate pathway for current from the corresponding PV module. This results in an overall increase in the current from the PV module and a corresponding increase in efficiency. | 09-18-2014 |
20140266416 | ON-PACKAGE MULTIPROCESSOR GROUND-REFERENCED SINGLE-ENDED INTERCONNECT - A system of interconnected chips comprising a multi-chip module (MCM) includes a first processor chip, a second processor chip, and an MCM package configured to include the first processor chip, the second processor chip, and an interconnect circuit. The first processor chip is configured to include a first ground-referenced single-ended signaling (GRS) interface circuit. A first set of electrical traces fabricated within the MCM package and configured to couple the first GRS interface circuit to the interconnect circuit. The second processor chip is configured to include a second GRS interface circuit. A second set of electrical traces fabricated within the MCM package and configured to coupled the second GRS interface circuit to the interconnect circuit. | 09-18-2014 |
20140266417 | GROUND-REFERENCED SINGLE-ENDED SIGNALING CONNECTED GRAPHICS PROCESSING UNIT MULTI-CHIP MODULE - A system of interconnected chips comprising a multi-chip module (MCM) includes a first processor chip, a graphics processing cluster (GPC) chip, and an MCM package configured to include the first processor chip, the GPC chip, and an interconnect circuit. The first processor chip is configured to include a first ground-referenced single-ended signaling interface circuit. A first set of electrical traces fabricated within the MCM package and configured to couple the first single-ended signaling interface circuit to the interconnect circuit. The GPC chip is configured to include a second single-ended signaling interface circuit and to execute shader programs. A second set of electrical traces fabricated within the MCM package and configured to couple the second single-ended signaling interface circuit to the interconnect circuit. In one embodiment, each single-ended signaling interface advantageously implements ground-referenced single-ended signaling. | 09-18-2014 |
20140268976 | GROUND-REFERENCED SINGLE-ENDED MEMORY INTERCONNECT - A system is provided for transmitting signals. The system comprises a first processing unit, a memory subsystem, and a package. The first processing unit is configured to include a first ground-referenced single-ended signaling (GRS) interface circuit. The memory subsystem is configured to include a second GRS interface circuit. The package is configured to include one or more electrical traces that couple the first GRS interface to the second GRS interface, where the first GRS interface circuit and the second GRS interface circuit are each configured to transmit a pulse along one trace of the one or more electrical traces by discharging a capacitor between the one trace and a ground network. | 09-18-2014 |
20140269010 | GROUND-REFERENCED SINGLE-ENDED MEMORY INTERCONNECT - A system is provided for transmitting signals. The system includes a ground-referenced single-ended signaling (GRS) driver circuit that is configured to pre-charge a first capacitor to store a first charge between a first output node and a first reference node based on a first input data signal during a first pre-charge phase and drive an output signal relative to a ground network based on the first charge during a first drive phase. A control circuit is configured to generate a first set of control signals based on the first input data signal and a first clock signal, where the first set of control signals causes the first GRS driver circuit to operate in either the first pre-charge phase or in the first drive phase. | 09-18-2014 |
20140269011 | MULTI-PHASE GROUND-REFERENCED SINGLE-ENDED SIGNALING - A system includes a control circuit and first, second, and third ground-referenced single-ended signaling (GRS) driver circuits that are each coupled to an output signal. The control circuit is configured to generate a first, second, and third set of control signals that are each based on a respective phase of a clock signal. Each GRS driver circuit is configured to pre-charge a capacitor to store a charge based on the respective set of control signals during at least one phase of the clock signal and drive the output signal relative to a ground network by discharging the charge during a respective phase of the clock signal. | 09-18-2014 |
20140269012 | GROUND-REFERENCED SINGLE-ENDED SYSTEM-ON-PACKAGE - A system of interconnected chips comprising a multi-chip module (MCM) includes a first processor chip, a system function chip, and an MCM package configured to include the first processor chip and the system function chip. The first processor chip is configured to include a first ground-referenced single-ended signaling (GRS) interface circuit. The system function chip is configured to include a second GRS interface circuit. A first set of electrical traces are fabricated within the MCM package and coupled to the first GRS interface circuit and to the second GRS interface circuit. The first GRS interface circuit and second GRS interface circuit together provide a communication channel between the first processor chip and the system function chip. | 09-18-2014 |
20140269879 | 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. | 09-18-2014 |
20140281383 | GROUND-REFERENCED SINGLE-ENDED SIGNALING CONNECTED GRAPHICS PROCESSING UNIT MULTI-CHIP MODULE - A system of interconnected chips comprising a multi-chip module (MCM) includes a processor chip, a system functions chip, and an MCM package configured to include the processor chip, the system functions chip, and an interconnect circuit. The processor chip is configured to include a first ground-referenced single-ended signaling interface circuit. A first set of electrical traces manufactured within the MCM package and configured to couple the first single-ended signaling interface circuit to the interconnect circuit. The system functions chip is configured to include a second single-ended signaling interface circuit and a host interface. A second set of electrical traces manufactured within the MCM package and configured to couple the host interface to at least one external pin of the MCM package. In one embodiment, each single-, ended signaling interface advantageously implements ground-referenced single-ended signaling. | 09-18-2014 |
20140301134 | GROUND-REFERENCED SINGLE-ENDED MEMORY INTERCONNECT - A system is provided for transmitting signals. The system comprises a first processing unit, a cache memory, and a package. The first processing unit comprises a first ground-referenced single-ended signaling (GRS) interface circuit and the second processing unit comprises a second GRS interface circuit. The cache memory comprises a third and a fourth GRS interface circuit. The package comprises one or more electrical traces that couple the first GRS interface to the third GRS interface and couple the second GRS interface to the fourth GRS interface, where the first GRS interface circuit, the second GRS interface, the third GRS interface, and the fourth GRS interface circuit are each configured to transmit a pulse along one trace of the one or more electrical traces by discharging a capacitor between the one trace and a ground network. | 10-09-2014 |
20140312860 | CONTROL OF A SOFT-SWITCHED VARIABLE FREQUENCY BUCK REGULATOR - A system and method are provided for controlling a soft-switched modified buck regulator circuit. A voltage (V | 10-23-2014 |
20140312868 | CONTROL OF A SOFT-SWITCHED VARIABLE FREQUENCY MULTI-PHASE REGULATOR - A system and method are provided for controlling a multi-phase switching regulator including a first phase and a second phase, where the first phase includes a first modified buck regulator circuit and the second phase includes a second modified buck regulator circuit. The first phase and the second phase are activated. The first phase is operated in a soft-switching mode to provide current to a load for a first portion of an operating cycle and the second phase is operated in a soft-switching mode to provide current to the load for a second portion of the operating cycle. | 10-23-2014 |
20140317361 | SPECULATIVE MEMORY CONTROLLER - A method and a system are provided for controlling memory accesses. Memory access requests including at least a first speculative memory access request and a first non-speculative memory access request are received and a memory access request is selected from the memory access requests. A memory access command is generated to process the selected memory access request. | 10-23-2014 |
20140330796 | COMPRESSED POINTERS FOR CELL STRUCTURES - A system and method are provided for representing pointers. An encoding type for a pointer structure referenced by a first cell of a data structure is determined. A first field of the pointer structure is encoded to indicate the encoding type. Further, a second field of the pointer structure is encoded according to the encoding type to indicate a location in memory where a cell structure corresponding to a second cell of the data structure is stored. | 11-06-2014 |
20140351780 | SYSTEM AND METHOD FOR CONFIGURING A CHANNEL - A system and method are provided for configuring a plurality of pin resources. The method includes identifying a plurality of pin resources of a primary application specific integrated circuit (ASIC) device and configuring the plurality of pin resources based on a pin distribution between a first interface and a second interface, where the first interface provides a first communication path between the primary ASIC device and a first device, and the second interface provides a second communication path between the primary ASIC device and a second device. | 11-27-2014 |
20140380002 | SYSTEM, METHOD, AND COMPUTER PROGRAM PRODUCT FOR A TWO-PHASE QUEUE - A system, method, and computer program product are provided for accessing a queue. The method includes receiving a first request to reserve a data record entry in a queue, updating a queue state block based on the first request, and returning a response to the request. A second request is received to commit the data record entry and the queue state block is updated based on the second request. | 12-25-2014 |
20150015314 | MESOCHRONOUS SYNCHRONIZER WITH DELAY-LINE PHASE DETECTOR - A method and a system are provided for synchronizing a signal. A keep out window is defined relative to a second clock signal and an edge detection signal is generated that indicates if an edge of a first clock signal is within the keep out window. The edge detection signal may be filtered. An input signal is received in a domain corresponding to the first clock signal and a delayed input signal is generated. Based on the edge detection signal or the filtered edge detection signal, either the input signal or the delayed input signal is selected, to produce an output signal in a domain corresponding to the second clock signal. | 01-15-2015 |