Abstract: A dynamic logic gate with a conditional keeper, the conditional keeper comprising a pMOSFET pull-up that switches ON only after the dynamic logic gate completes an evaluation so as to avoid contention with the pull-down network. By sizing the conditional keeper to be stronger than the half-keeper, embodiments may realize a significant reduction in soft error rates that are latched.

Abstract: A static receiver having a first inversion threshold for received signals undergoing a HIGH-to-LOW transition, and a second inversion threshold for received signals undergoing a LOW-to-HIGH transition, where the first inversion threshold is greater than the second inversion threshold. One embodiment comprises a static receiver, a pFET, and a nFET, where when a HIGH-to-LOW transition is being received at the receiver's input port, the pFET is coupled to the input port so as to contribute to raising the inversion threshold, and when a LOW-to-HIGH transition is being received at the input port, the nFET is coupled to the input port so as to contribute to lowering the inversion threshold. Other embodiments are described and claimed.

Abstract: A voltage-level converter and a method of converting a first logic voltage level to a second logic voltage level are described. In one embodiment, a voltage-level converter connects a first logic unit connected to a first supply voltage to a second logic unit connected to a second supply voltage. The voltage-level converter includes at least one transistor connected to the second supply voltage. The at least one transistor has a threshold voltage whose absolute value is greater-than-or-about-equal to the absolute value of the difference between the second supply voltage and the first supply voltage.

Abstract: A static receiver having a first inversion threshold for received signals undergoing a HIGH-to-LOW transition, and a second inversion threshold for received signals undergoing a LOW-to-HIGH transition, where the first inversion threshold is greater than the second inversion threshold. One embodiment comprises a static receiver, a pFET, and a nFET, where when a HIGH-to-LOW transition is being received at the receiver's input port, the pFET is coupled to the input port so as to contribute to raising the inversion threshold, and when a LOW-to-HIGH transition is being received at the input port, the nFET is coupled to the input port so as to contribute to lowering the inversion threshold. Other embodiments are described and claimed.

Abstract: A high-performance, low energy amplifier circuit for the detection and amplification of a voltage differential includes a current conveyor and a sense amplifier. The current conveyor includes a pair of cross-linked transistors and a pair of pass transistors. The sense amplifier includes four transistors forming a cross-linked current sense amplifier. The current sense amplifier detects a current differential between complementary bit lines, develops a differential voltage based on the current differential, amplifies the differential voltage and outputs the amplified differential voltage.

Abstract: A dual-rail static logic gate with a self cut-off mechanism is disclosed. In an embodiment, the output of the first rail is coupled to the input of the pull-up device of the second rail and vice versa. The cross-coupling allows the self cut-off mechanism of the static gate to function properly and provides for components which have lower capacitance than conventional static gates. The lower capacitance results in a faster static gate.

Abstract: A dynamic circuit with a conditional keeper for burn-in. In the described embodiments, a conditional keeper is provided which is active only during the burn-in test, where the conditional keeper is sized larger than the standard keepers so as to compensate for additional leakage currents in the dynamic circuit.

Abstract: A high-performance, low energy amplifier circuit for the detection and amplification of a voltage differential includes a current conveyor and a sense amplifier. The current conveyor includes a pair of cross-linked transistors and a pair of pass transistors. The sense amplifier includes four transistors forming a cross-linked current sense amplifier. The current sense amplifier detects a current differential between complementary bit lines, develops a differential voltage based on the current differential, amplifies the differential voltage and outputs the amplified differential voltage.

Abstract: A sense amplifier for reading memory cells in a SRAM, the sense amplifier comprising two gate-biased pMOSFETs, each corresponding to a selected bitline. The gates of the two gate-biased pMOSFETs have their gates biased to a bias voltage, their sources coupled to the selected bitlines via column-select transistors, and their drains coupled via pass transistors to the two ports of two cross-coupled inverters, the cross-coupled inverters forming a latch. After a selected bitline pair has been pre-charged and the pre-charge phase ends, one of the two gate-biased pMOSFETs quickly goes into its subthreshold region as one of the bitlines discharges through its corresponding memory cell, thereby cutting off the bitline's capacitance from the sense amplifier. When the pass transistors are enabled, the other of the two pMOSFETs allows a significant bitline charge to transfer via its corresponding pass transistor to its corresponding port, whereas a relatively much smaller charge is transferred to the other port.

Abstract: A sense amplifier for reading memory cells in a SRAM, the sense amplifier comprising two gate-biased pMOSFETs, each corresponding to a selected bitline. The gates of the two gate-biased pMOSFETs have their gates biased to a bias voltage, their sources coupled to the selected bitlines via column-select transistors, and their drains coupled via pass transistors to the two ports of two cross-coupled inverters, the cross-coupled inverters forming a latch. After a selected bitline pair has been pre-charged and the pre-charge phase ends, one of the two gate-biased pMOSFETs quickly goes into its subthreshold region as one of the bitlines discharges through its corresponding memory cell, thereby cutting off the bitline's capacitance from the sense amplifier. When the pass transistors are enabled, the other of the two pMOSFETs allows a significant bitline charge to transfer via its corresponding pass transistor to its corresponding port, whereas a relatively much smaller charge is transferred to the other port.

Abstract: A dual-rail static logic gate with a self cut-off mechanism is disclosed. In an embodiment, the output of the first rail is coupled to the input of the pull-up device of the second rail and vice versa. The cross-coupling allows the self cut-off mechanism of the static gate to function properly and provides for components which have lower capacitance than conventional static gates. The lower capacitance results in a faster static gate.

Abstract: An eight-cell for static random access memory, the memory cell comprising cross-coupled inverters to store the information bit, two access nMOSFETs connected to local bit lines to access the stored information bit, and two nMOSFETs each having a gate connected to ground and coupled to the local bit lines and the cross-coupled inverters so that sub-threshold leakage currents to and from the local bit lines for a memory cell not being read are balanced.

Abstract: An eight-cell memory cell for static random access memory, the memory cell comprising cross-coupled inverters to store the information bit, two access nMOSFETs connected to local bit lines to access the stored information bit, and two nMOSFETs each having a gate connected to ground and coupled to the local bit lines and the cross-coupled inverters so that sub-threshold leakage currents to and from the local bit lines for a memory cell not being read are balanced.

Abstract: A domino logic circuit contained within an integrated circuit includes a dynamic logic circuit and an intermediate logic circuit. The intermediate logic circuit includes a pull-up transistor having a source terminal coupled to a source voltage line and an n-block transistor having a source terminal connected to a low ground voltage line.

Abstract: A dual-rail static logic gate with a self cut-off mechanism is disclosed. In an embodiment, the output of the first rail is coupled to the input of the pull-up device of the second rail and vice versa. The cross-coupling allows the self cut-off mechanism of the static gate to function properly and provides for components which have lower capacitance than conventional static gates. The lower capacitance results in a faster static gate.

Abstract: A method for controlling a local clock includes receiving a reference clock and generating a phase-shifted version of the reference clock. The two clocks are synchronized using a closed-loop method that produces a control signal. The control signal is smoothed during the closed-loop method and the smoothed signal is then used, instead of the control signal, in generating the phase-shifted clock.

Abstract: A method for controlling a local clock includes receiving a reference clock and generating a phase-shifted version of the reference clock. The two clocks are synchronized using a closed-loop method that produces a control signal. The control signal is smoothed during the closed-loop method and the smoothed signal is then used, instead of the control signal, in generating the phase-shifted clock.

Abstract: A dynamic logic gate with a conditional keeper, the conditional keeper comprising a pMOSFET pull-up that switches ON only after the dynamic logic gate completes an evaluation so as to avoid contention with the pull-down network. By sizing the conditional keeper to be stronger than the half-keeper, embodiments may realize a significant reduction in soft error rates that are latched.

Abstract: A system for measuring the stability of a power signal from a power supply includes a threshold violation detector. The threshold violation detector includes a comparator and an indicator. The comparator has a power signal input, a threshold signal input, and a comparison result output, and is configured to compare the power signal on the power signal input with a threshold on the threshold signal input to present a comparison result signal on the comparison result output. The indicator has a threshold violation output and a comparison input that receives the comparison result signal from the comparator. The indicator presents a threshold violation signal on the threshold violation output when the comparison result signal indicates that the power signal has violated the threshold.

Abstract: A system for measuring the stability of a power signal from a power supply includes a threshold violation detector. The threshold violation detector includes a comparator and an indicator. The comparator has a power signal input, a threshold signal input, and a comparison result output, and is configured to compare the power signal on the power signal input with a threshold on the threshold signal input to present a comparison result signal on the comparison result output. The indicator has a threshold violation output and a comparison input that receives the comparison result signal from the comparator. The indicator presents a threshold violation signal on the threshold violation output when the comparison result signal indicates that the power signal has violated the threshold.