Abstract: A semiconductor device includes: first and second circuit cell arrays extending in first direction; first and second power supply lines each extending in first direction and arranged over first circuit cell array, first power supply line being supplied with first power source voltage; third power supply line extending in first direction separately from second power supply line, arranged over second circuit cell array, and supplied with second power source voltage; first transistor coupled between second and third power supply lines; and first circuit arranged on first circuit cell array and operating on first and second power source voltages supplied from first and second power supply lines, respectively.

Abstract: A semiconductor device includes an impedance control signal generation unit configured to generate an impedance control signal for controlling an impedance value, a first processing unit configured to process the impedance control signal in response to a first setup value and generate a first process signal, a first clock termination unit configured to be coupled with a first clock path and determine an impedance value responding to the impedance control signal, and a second clock termination unit configured to be coupled with a second clock path and determine an impedance value responding to the first process signal.

Abstract: A method of protection from noise of a digital signal generated by a comparator, including the steps of generating an output signal that switches from a first logic state to a second logic state at a first switching of logic state of the digital signal; detecting a change from the first logic state to the second logic state of the output signal; and inhibiting further switchings of the output signal for a first time interval after the change from the first logic state to the second logic state.

Abstract: Systems and methods pertaining to propagation of digital data from a transmit side domain to a receive side domain through an intermediate isolation barrier are described. Specifically, a carrier waveform is superimposed upon a first logic level of a digital signal that is referenced to a first local ground. The digital signal with the superimposed first carrier waveform is propagated through the intermediate isolation barrier. On the receive side domain, the propagated digital signal is processed using a second local ground that is different than the first local ground, the processing including the use of the carrier waveform to enforce the first logic level upon an output digital signal generated from the propagated digital signal.

Abstract: Techniques for controlling a driver to reduce data dependent noise, such as simultaneous switching effects and cross-talk effects. A plurality of drivers may each receive a data segment to transmit and a plurality of data segments that other drivers will transmit. A driver controller may adjust the time at which the data segment is transmitted in response to the plurality of data segments that the other drivers will transmit. The adjustment may compensate for simultaneous switching noise and cross-talk by, for example, delaying the transmission of a data segment or changing the slew rate of the signal carrying the data segment.

Abstract: In some embodiments, a logic circuit is provided that has a plurality of gates with gate inputs. Also provided is one or more latch circuits coupled to the logic circuit to provide operational data when in an operational mode and to cause at least some of the gate inputs to be at values resulting in reduced leakage during a sleep mode. Additionally provided are embodiments of non-destructive latch circuits, which may be used to implement the latch circuits just discussed. Other embodiments are disclosed and/or claimed herein.

Abstract: Disclosed are methods, systems, and structures for implementing interconnect modeling by using a test structure which include a variation of physical wire structures between local interconnects and distant interconnects. According to one approach, the impact of variations of the physical properties for neighborhood wires are considered for the electrical modeling of interconnects. This variation between the local and distant wire characteristics allows more accurate and robust interconnect modeling to be created.

Abstract: In some embodiments, a logic circuit is provided that has a plurality of gates with gate inputs. Also provided is one or more latch circuits coupled to the logic circuit to provide operational data when in an operational mode and to cause at least some of the gate inputs to be at values resulting in reduced leakage during a sleep mode. Additionally provided are embodiments of non-destructive latch circuits, which may be used to implement the latch circuits just discussed. Other embodiments are disclosed and/or claimed herein.

Abstract: There is provided an output stage circuit including such MOSTs (M) that when their gates and sources are respectively set to an equal voltage, subthreshold leakage currents substantially flow between their drains and sources, wherein upon its deactivation, a voltage is applied to the gate of each of the MOSTs (M) in such a manner than a reverse bias is applied between the gate and source of the MOST (M). That is, when the MOST (M) is of a p channel type, a voltage higher than that of a p type source is applied to its gate. When the MOST (M) is of an n channel type, a voltage lower than that of an n type source is applied to its gate. Upon activation of the circuit, the MOST is held in a reverse bias state or controlled to a forward bias state according to an input voltage. A CMOS circuit and a semiconductor device can be realized each of which is small in leakage current even though its threshold voltage is low and which is operated at high speed and with a small voltage amplitude.

Abstract: The present invention provides an configuration setting device of integrated circuit and the configuration setting method thereof, in which the configuration setting device comprises a signal receiving terminal, a voltage output unit coupled to the signal receiving terminal, and a detector coupled to the signal receiving terminal. The signal receiving terminal is used to receive the input signal at the outer of the integrated circuit, and the voltage output unit generated at the inner of the integrated circuit is used to output a voltage signal based on the enable signal, and the detector is used to detect a level at the signal receiving terminal to output a configuration signal; wherein, the signal level generated at the signal receiving terminal is determined by the input signal and the voltage signal.

Abstract: A signal level adjustment system adjusting a level of signal outputted from a signal output circuit is realized. An input buffer threshold adjustment unit sets a threshold of a signal input circuit to a first variable value. A signal level adjustment unit adjusts an output level of a first signal at the signal output circuit until a voltage of the first signal outputted from the signal output circuit and inputted to the signal input circuit falls into a given range determined based on the threshold.

Abstract: Methods and systems to calibrate an on-die resistor relative to an operating voltage of an on-die push-pull driver, and to calibrate the push-pull driver relative to the on-die resistor and relative to operating voltages of the push-pull driver. The calibrated on-die resistor may be used to calibrate receive terminations, a differential transmit termination, and a simulated far-end differential receive termination. The calibrated differential transmit termination and simulated far-end differential receive termination may be coupled in parallel to calibrate current drivers. Calibration of the current drivers may include calibrating voltage swing, and may include a first phase that simultaneously adjusts compensation to the current drivers, and a second phase that individually adjusts the compensation to the current drivers.

Abstract: Disclosed herein are circuitry and methods for transmitting data across a parallel bus using both high common mode and low common mode signaling. The transmitter stages are configured to work with two of three possible power supply voltages: a high Vddq voltage, a low Vssq voltage, and an intermediate Vx voltage. In one embodiment, the odd numbered transmitter stages, that drive the odd numbered outputs to the bus, use the Vddq and Vx supplies, such that the odd numbered outputs comprise high common mode signals. The even numbered transmitter stages, that drive the even numbered outputs to the bus, use the Vx and Vssq supplies, such that the even numbered outputs comprise low common mode signals.

Abstract: A bus system that includes a plurality of signal driving devices coupled to a common signal bus, a bus controlled circuit coupled to the common signal bus, and a compare circuit. The plurality of signal driving devices include a first signal driving device and a second signal driving device. The bus controller includes delay compensation circuitry with a configurable delay for each of the signal driving devices. The delay compensation circuitry has a current delay chain configuration associated with the first signal driving device. The compare circuit is configured to compare a first configurable delay associated with a first signal driving device to a second configurable delay associated with a second signal driving device of the plurality of signal driving devices, and for generating an output responsive to the comparing that indicates if the current delay chain configuration can be used by the second signal driving device.

Abstract: The present invention provides a current segmentation circuit for optimizing output waveform from high speed data transmission interface, which comprises a four current sources controlled by four switches to segment current so as to control the rising and falling time of the high speed transmission data, and to match the delay of the current control signal and the delay of the data, wherein the four current sources are I1, I2, I3 and I4, and the current control switches are K1, K2, K3 and K4, wherein I1+I2=I3+I4, wherein the switches K1 and K3 control the current I1/I3 to flow into DP/DM line, and the switches K2 and K4 control the current I2/I4 to flow into DP/DM line. The present invention can depress overshoot and eliminate turning point in the waveform.

Abstract: A buffer apparatus for a communications bus comprises a driver circuit having an output. An amplifier circuit having an input is coupled to the output of the driver circuit. The driver circuit is arranged to generate, when in use, a drive signal having a waveform that comprises a step therein so as to substantially suppress generation by the amplifier circuit of a portion of an oscillation of an output signal.

Abstract: Embodiments of the present invention provide a method/apparatus to measure the jitter of a timing signal used in an integrated circuit chip. The method/apparatus is used to send data from a launch element using a synchronous data path of the timing signal, receive the data at a capture element using the synchronous data path, wherein the launch element and the capture element are disposed on the same integrated circuit chip upon which the timing signal is generated and/or used, and gather statistics about whether a timing violation has occurred by comparing the sent data with the received data over the course of multiple launch/capture events as the timing is adjusted. Other embodiments may be described and/or claimed.

Abstract: A method of protection from noise of a digital signal generated by a comparator, including the steps of generating an output signal that switches from a first logic state to a second logic state at a first switching of logic state of the digital signal; detecting a change from the first logic state to the second logic state of the output signal; and inhibiting further switchings of the output signal for a first time interval after the change from the first logic state to the second logic state.

Abstract: Switching circuits, latches and methods are provided, such as those that may respond to an input signal that transitions from a first binary level to a second binary level. One such switching circuit may have a metastable state that is closer to a first voltage corresponding to the first binary level than it is to a second voltage corresponding to the second binary level. In other embodiments, the metastable state may be dynamically adjustable so that it is at one voltage before the circuit switches and at a different voltage after the circuit switches. As a result, the switching circuit may respond relatively quickly to the input signal transitioning from the first binary level to the second binary level.

Abstract: Method and semiconductor structure to avoid latch-up. Method includes identifying at least one high voltage device on a semiconductor chip, identifying a circuit on the semiconductor chip separated from the identified at least one high voltage device by a guard ring, evaluating the circuit for a latch-up condition, and when the latch-up condition occurs, adjusting the contact-circuit spacing in the circuit.

Abstract: Techniques for controlling a driver to reduce data dependent noise, such as simultaneous switching effects and cross-talk effects. A plurality of drivers may each receive a data segment to transmit and a plurality of data segments that other drivers will transmit. A driver controller may adjust the time at which the data segment is transmitted in response to the plurality of data segments that the other drivers will transmit. The adjustment may compensate for simultaneous switching noise and cross-talk by, for example, delaying the transmission of a data segment or changing the slew rate of the signal carrying the data segment.

Abstract: An output buffer includes inverters, a delay circuit for delaying an input signal, buffers and switches. The output buffer transmits a logic signal to a transmission path and, in accordance with an amount of signal attenuation in the transmission path, creates a waveform including four or more kinds of signal voltages. The buffers are redundantly connected in parallel, and the number of buffers concurrently turn ON is controlled by respective switches provided in series with output resistors of the buffers. By selecting the buffers of switches which are turned ON, the preemphasis amount and a number of preemphasis taps are adjusted through a selector logic selection signal so that the preemphasis amount is made variable and the ON resistance of the buffers is made constant.

Abstract: A circuit having an active clock shielding structure includes a logic circuit that receives a clock signal and performs a logic operation based on the clock signal, a power gating circuit that switches a mode of the logic circuit between an active mode and an sleep mode based on a power gating signal, a clock signal transmission line that transmits the clock signal to the logic circuit, and at least one power gating signal transmission line that transmits the power gating signal to the power gating circuit and functions as a shielding line pair with the clock signal transmission line.

Abstract: A driver circuit includes first and second switching elements connected in series to two ends of an electric voltage source. A driven load having a capacity is connected to a connection line connecting the first and second switching elements to each other. An inverter inverts a control signal into an inverted control signal applied to the second switching element. When the first switching element is turned on by the control signal and the second switching element is turned off by the inverted control signal, a drive voltage is applied from one of the two ends of the electric voltage source to the driven load. When the first switching element is turned off by the control signal and the second switching element is turned on by the inverted control signal, an electric charge of the driven load is discharged to another of the two ends of the electric voltage source.

Abstract: A semiconductor device transmitting a plurality of data using a multilevel signal includes a parity bit control unit generating a parity bit that varies with a number of data in which a most significant bit (MSB) and least significant bit (LSB) are different. A data conversion unit either inversely outputs the MSB or the LSB, or outputs the data without a change in response to the parity bit. Transmission units transmit data provided by the data conversion unit using the multilevel signal.

Abstract: A method includes parsing a design of the integrated circuit to define cells in automatic power gating power domains, automatically creating an automatic power gating power domain netlist from the parsed design of the integrated circuit, and placing and routing the automatic power gating power domain netlist to produce a layout for the integrated circuit. The parsing partitions a high-level power domain of the integrated circuit into one or more automatic power gating power domains. The automatic power gating power domains have substantially zero-cycle power up times, thereby enabling transparent operation. Furthermore, the automatic power gating power domains may be automatically inserted into designs of integrated circuits, thereby relieving integrated circuit designers of the task of inserting power domains and associated hardware and software.

Abstract: A method for a mix mode driver to accommodate traces of different lengths includes storing in the mix mode driver a set of one or more control signals and coefficient signals for a trace length. The one or more control signals select a number of the stages to generate a variable amplitude data output signal. Each stage is operable to increase or decrease a data signal, and each of the coefficient signals determines the magnitude of increase or decrease of the data input signal by a stage. A method for operating the mix mode driver includes generating the variable amplitude data output signal with one or more of the stages, and providing the variable amplitude data output signal to a trace.

Abstract: A verification support system for supporting logic verification of a circuit including a transmitter clock domain and a receiver clock domain, the transmitter clock domain, the system includes a detector for receiving data to be transmitted from the transmitter clock domain, and for detecting a fluctuation of the received data due to any timing fluctuation responsive to the transmitter clock. The system includes an identification unit to identify whether or not any fluctuation of the data determined by the detector is propagated to the output of the combinational logic on the basis of propagation of the received data through at least one of logic gates of the receiver clock domain to combinational logic so as to determine any fluctuation of data that is to be inputted to the combinational logic.

Abstract: A switch controlling circuit, which comprises: a frequency programmable clock signal generator and a plurality of registers. The frequency programmable clock signal generator serves to generate a frequency controllable clock signal. The registers comprises: a first stage register, for receiving an input signal and the frequency controllable clock signal, and for outputting a first output signal, which is utilized to control a first switch device, according to the input signal and the frequency controllable clock signal; and a second stage register, for receiving the first output signal and the frequency controllable clock signal, and for outputting a second output signal, which is utilized to control a second switch device, according to the first output signal and the frequency controllable clock signal.

Abstract: A driver circuit and method for generating two complementary output currents from a two-state logic input signal at two outputs for connecting a two-wire conductor provide the following actions: generating from the input signal, an output signal at each output, the amperage of one of the output currents being adjustable by a control signal; analyzing each voltage materializing at the outputs; generating an error signal as a function of the output voltages within each of at least two time slots subsequent to a change in state of the input signal; caching the error signals or signals derived therefrom and adjusting, as a function of cached error signals or of the cached signals as a function thereof, the output current in corresponding time slots subsequent to a resulting change in state of the input signal.

Abstract: Integrated circuit apparatus and methods are described for inserting multi-Vdd buffers within an interconnection tree during routing toward minimization of power under a delay constraint. Insertion of level converters is not necessary within the routing trees of the interconnect tree despite the insertion of the multi-Vdd buffers. Techniques are described for controlling the dramatic complexity increment due to simultaneous delay and power consideration and increased buffer choices. Overhead reduction techniques are taught including: sampling based techniques, prediction based pruning techniques (PSP) and (PMP), and escape grid reduction, each of which are directed to multi-Vdd buffer insertion. The resultant integrated circuits are routed with substantial power reductions over conventional routing.

Abstract: A wiring design system for semiconductor integrated circuit which realizes a low power consumption in a grid-shaped clock wiring within a semiconductor integrated circuit is provided. A wiring design system 10 for semiconductor integrated circuit which designs the gird-shaped clock wiring for uniformly distributing the clock signals to the flip flop circuits arranged within the semiconductor integrated circuit, wherein, of the clock wiring lines forming the grid-shaped clock wiring, a clock wiring line having a smaller effect on the distribution operation of the clock signals in the grid-shaped clock wiring is selected and thinned out as a less necessary clock wiring line.

Abstract: An impedance matching device for memory signals includes a resistor array and a switch device. A number of first pins at a first side of the resistor array are connected to control signal pins and/or address signal pins of a memory socket on a motherboard. A number of second pins are extended at a second side of the resistor array. The switch device connects or disconnects the plurality of second pins of the resistor array to or from a power supply on the motherboard.

Abstract: A pre-emphasis circuit which can improve a communication quality of a data transmission at low cost is provided. A current switch circuit, a current adder circuit, and transition detection circuits are provided in a transmitter of a data transmission system. The transition detection circuits detect transitions of transmission data signals which are a differential pair. The current switch circuit receives the transmission data signals, carries driving currents in accordance with the transmission data signals, and outputs output data signals which are a differential pair. The current adder circuit receives detection signals from the transition detection circuits, and adds driving currents in accordance with the detection signals to load resistors. By this means, output data signals in which the transitions are emphasized are inputted to a transmission line.

Abstract: The present invention is directed to a capacitive decoupling module and method for an integrated circuit that features providing multiple capacitive elements to decouple the power rails from the integrated circuit. The multiple capacitive elements are spaced-apart, along a first direction, from the integrated circuit. A first set of capacitive elements is closer to the integrated circuit than a second set of capacitive elements. The first set has a smaller capacitance than the second set.

Abstract: An integrated circuit includes a pass gate having an input and an output. An NMOS pass transistor is connected between the input and the output. The drain of the NMOS pass transistor is connected to the input and the source of the NMOS pass transistor is connected to a node between the source of the NMOS transistor and the output of the pass gate. A current clamp is connected between the node and a current sink so as to conduct current to the current sink when the node reaches a threshold value.

Abstract: A semiconductor device transmitting a plurality of data using a multilevel signal includes a parity bit control unit generating a parity bit that varies with a number of data in which a most significant bit (MSB) and least significant bit (LSB) are different. A data conversion unit either inversely outputs the MSB or the LSB, or outputs the data without a change in response to the parity bit. Transmission units transmit data provided by the data conversion unit using the multilevel signal.

Abstract: A source follower or emitter follower buffer provided according to an aspect of the present invention includes a capacitor connected between the input path and a node formed by the junction of a pair of transistors forming a cascoded current source connected to the output of the buffer. The capacitor passes input signal current directly to a switching load connected to the output of the buffer, and very little signal-dependant current flows through the transistor receiving the input signal. As a result, input-output non-linearity due to signal-dependant modulation (variation) of transconductance of the transistor receiving the input signal is minimized. When incorporated in switched-capacitor analog to digital converters, the buffer facilitates generation of digital codes that represent an input signal more accurately.

Abstract: Methods, systems, computer readable media and means for reducing errors in data caused by noise are provided. In some embodiments of the present invention, circuitry of the device receives timing data from one or more other circuitries and identifies noiseless periods from the timing data. The circuitry then actively adjusts the trigger point threshold of data being transmitted to and/or from the circuitry only during the noiseless periods. The circuitry subsequently monitors the timing data to identify noise periods. In response to identifying a noise period, the device ceases to adjust the trigger point threshold until the noise period is over.

Abstract: A buffer circuit is provided between a gate terminal of a pull-down transistor and a threshold circuit receiving a gate signal as an input signal. A voltage applied to an output terminal of a power semiconductor element from an external battery power supply is supplied to the buffer circuit through a resistive element. The buffer circuit converts the level of an on-signal output from the threshold circuit into a voltage higher than the threshold of the pull-down transistor, so that the pull-down transistor operates surely to turn off the power semiconductor element even when the level of the gate signal is low. Thus, there is provided a semiconductor integrated circuit device having a power semiconductor element which can be turned off by sure operation of a pull-down semiconductor element.

Abstract: An electronic device comprising at least one input/output circuit (10) in a first supply voltage domain (VDD, GND) is provided. The electronic device furthermore comprises a buffer (INV) which is coupled to the input/output circuit for driving an input of the input/output circuit (10). The buffer comprises a first and second switch (T1, T2; T4, T5). The buffer is arranged in a second supply voltage domain (VDD1, GND1). Furthermore, a control circuit is coupled to the buffer for controlling the first and second switch (T1, T2; T4, T5) such that during a transition of an input signal of the input/output circuit (10) both switches (T1, T2; T4, T5) are temporarily kept in a conducting state and a crowbar current flows through the buffer (INV).

Abstract: A semiconductor device includes: a driver that receives a power supply voltage and drives an external load with a driving capability; a measurement unit that measures a level of the power supply voltage; a code table that stores the level of the power supply voltage and code information for determining the driving capability of the driver; and a controller that reads the code information in accordance with the level of a measured power supply voltage in reference to the code table and controls the driving capability of the driver in accordance with the code information.

Abstract: A storage device with automatic-switching function is disclosed. When the storage device is coupled to a USB interface, the power provided by the USB interface turns the USB/SATA converter on to convert data from the USB interface into SATA format and transmit to a hard disk. When the storage device is coupled to a SATA interface instead of the USB interface, the power provided by the USB interface does not turn the USB/SATA converter on to convert data. In this way, the data from the SATA interface directly transmit to the hard disk.

Abstract: A method includes parsing a design of the integrated circuit to define cells in automatic power gating power domains, automatically creating an automatic power gating power domain netlist from the parsed design of the integrated circuit, and placing and routing the automatic power gating power domain netlist to produce a layout for the integrated circuit. The parsing partitions a high-level power domain of the integrated circuit into one or more automatic power gating power domains. The automatic power gating power domains have substantially zero-cycle power up times, thereby enabling transparent operation. Furthermore, the automatic power gating power domains may be automatically inserted into designs of integrated circuits, thereby relieving integrated circuit designers of the task of inserting power domains and associated hardware and software.

Abstract: A semiconductor integrated circuit device is composed of logic gates each provided with at least two MOS transistors. The logic gates are connected to a first potential point and a second potential point. The semiconductor integrated circuit device includes a current control device connected between the logic gate and the first potential point and/or between the logic gate and the second potential point for controlling a value of a current flowing in the logic gate depending on an operating state of the logic gate. The circuit can be used in devices that cycle in operation between high and low power consumption modes, such as microprocessors that have both an operation mode and a low power back-up or sleep mode used for power reduction.

Abstract: A semiconductor integrated circuit includes a MOS logic operating by first and second voltages; a switching transistor unit disposed between a supply terminal of the first voltage or the second voltage and the MOS logic, and turned on or off in response to a control signal so as to control a supply of the first or second voltage to the MOS logic; and a fuse unit disposed between the supply terminal of the first voltage or the second voltage and the switching transistor unit, for cutting off a supply of the first or second voltage to the switching transistor unit by a selective cut based on a test result. Whereby, a product development or production difficulty or a yield decrease based on a performance drop or leakage current increase in a circuit having a power gate or MTCMOS may be improved. In addition, a product development delay caused by a mask revision required at a transistor level may be improved in a revision of an NMOS or PMOS transistor.

Abstract: An output driver of a semiconductor memory apparatus comprises a voltage dividing block configured to generate divide voltages by dividing an internal voltage, a threshold voltage detecting block configured to generate a detecting voltage corresponding to a change in a threshold voltage of a transistor, a drive capability control signal generating block 300 configured to generate a compare signal by comparing the levels of the detecting voltage with the divide voltage and generate a control signal in response to an input signal when the compare signal is enabled, and a drive capability controlling block comprising a driver configured to perform a driving operation in response to the input signal, and a control driver configured to perform a driving operation in response to the control signal.

Abstract: A circuit ? is coupled to an individual node Nin, in a circuit for which repeated logical values of that individual node can be identified as having a set of flip-flops Fj dependent thereon, with the effect that if the individual node Nin remains unchanged for one or more clock cycles, the set of dependent flip-flops Fj can be disabled for the second and succeeding clock cycles. The circuit ? conditionally generates a clock-enabling signal Nout in response thereto. One such circuit ? conditionally includes a logical controller, whose output is coupled using a fan-out node to both an input to a state machine and a fan-in logic circuit (such as an AND gate). The flip-flop is clocked normally; its output is coupled to that same fan-in logic circuit, whose output Nout is coupled to the set of dependent flip-flops Fj.

Abstract: The invention provides a semiconductor device which consumes less power in pending. The invention further provides a semiconductor device in which a gate electrode is provided over both sides of a semiconductor thin film which forms a transistor, a logic signal is applied to a first gate electrode, a threshold value control signal is applied to a second gate electrode, and a threshold value of a transistor which forms the semiconductor device is controlled by a potential of the second gate electrode, and a driving method thereof. Then, the invention provides a semiconductor device provided with a plurality of logic circuits formed of such a transistor with a back gate and a driving method thereof.

Abstract: An integrated circuit is provided having at least one terminal for coupling and/or decoupling of electric signals, particularly of digital signals, and having integrated reference potential means, assigned to the terminal, for providing an electric reference potential to the terminal. It is provided according to an embodiment of the invention that the reference potential means is switchable, particularly by an override process.