Abstract: A scan flip-flop circuit comprises a scan input sub-circuit and a selection sub-circuit. The scan input sub-circuit is configured to receive a scan input signal and a scan enable signal and, when the scan enable signal is activated, generate complementary scan input signals representing the scan input signal that are delayed relative to a transition of a clock input signal between two different logic levels. The selection sub-circuit is coupled to the scan input sub-circuit and configured to receive the complementary scan input signals and, based on the scan enable signal, output an inverted version of either the scan input signal or a data signal as a first selected input signal.

Abstract: Systems and methods for latches are presented. In one embodiment a system includes scan in propagation component, data propagation component, and control component. The scan in propagation component is operable to select between a scan in value and a recirculation value. The data propagation component is operable to select between a data value and results forwarded from the scan in propagation component, wherein results of the data propagation component are forwarded as the recirculation value to the scan in propagation component. The control component is operable to control an indication of a selection by the scan in propagation component and the data propagation component.

Abstract: Provided herein is a voltage level shifter, an apparatus including a voltage level shifter and a method of converting voltages between input and output power domains. In one embodiment, the voltage level shifter includes: (1) an input circuit configured to receive a data signal from an input power domain and a power down signal from a output power domain and (2) a transition circuit coupled to the input circuit and configured to receive the data signal and an inverted signal of the power down signal, wherein the input circuit and the transition circuit are both configured to connect to a supply voltage of the output power domain as a power source.

Abstract: A clock gating latch, a method of gating a clock signal and an integrating circuit incorporating the clock gating latch or the method. In one embodiment, the clock gating latch includes: (1) a propagation circuit having a single, first switch configured to be driven by an input clock signal, (2) a keeper circuit coupled to the propagation circuit and having a single, first switch configured to be driven by the input clock signal and (3) an AND gate coupled to the propagation circuit and the keeper circuit and having an internal node coupled to a second switch in the propagation circuit and a second switch in the keeper circuit.

Abstract: 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.

Abstract: The present invention relates to a novel hybrid anode configuration for a radiation detector that effectively reduces the edge effect of surface defects on the internal electric field in compound semiconductor detectors by focusing the internal electric field of the detector and redirecting drifting carriers away from the side surfaces of the semiconductor toward the collection electrode(s).

Abstract: 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.

Abstract: A novel radiation detector system is disclosed that solves the electron trapping problem by optimizing shielding of the individual virtual Frisch-grid detectors in an array configuration.

Abstract: The present invention relates to a novel hybrid anode configuration for a radiation detector that effectively reduces the edge effect of surface defects on the internal electric field in compound semiconductor detectors by focusing the internal electric field of the detector and redirecting drifting carriers away from the side surfaces of the semiconductor toward the collection electrode(s).

Abstract: One embodiment of the present invention sets forth a technique for shifting the voltage level of signals from a low voltage domain to a high voltage domain, where VDDH is the supply voltage of the high voltage domain and VDDL is the supply voltage of the low voltage domain. A level shifting circuit uses a single input rather than dual rail inputs and does not produce a direct current flow in order to reduce the power consumption. The voltage level shifting circuit may also be used to shift a clock signal since the delays of the rising and falling edges of the clock signal are matched by using a delay element.

Abstract: An apparatus includes a single-rail input connected to a low-voltage domain and a voltage-transition circuit connected to the single-rail input. The voltage-transition circuit is configured to convert a voltage of the low-voltage domain received via the single-rail input to a voltage of the high-voltage domain.

Abstract: Apparatuses and methods are provided for a self-timed dynamic sense amplifier flop circuit, wherein a pulse generating circuit may be adapted to generate at least a first logic signal based, at least in part, on a first evaluation node signal, and a discharge path circuit comprising at least a first transistor within a first stack of transistors may be operatively responsive to the first timing signal.

Abstract: One embodiment of the present invention sets forth a technique for shifting the voltage level of signals from the high voltage domain to a low voltage domain, where VDD_IO is the supply voltage of the high voltage domain and VDD_Logic is the supply voltage of the low voltage domain. A level shifting circuit using a combination of I/O and logic transistors avoids exceeding a maximum tolerable voltage across the gate and source of any of the transistors. The level shifting circuit operates includes a reference voltage circuit that is independent of VDD_IO, so the same level shifting circuit may be used for various VDD_IO voltages. Additionally, the voltage level shifting circuit is not sensitive to scaling of VDD_Logic and operates properly when VDD_Logic is reduced due to shrinking silicon process technology and/or is reduced for a low power application.

Abstract: One embodiment of the present invention sets forth a sense amplifier flop design that is tolerant of process variation. Specific staging of signal transitions through the sense amplifier flop circuit eliminate operational phases involving short-circuit currents between n-channel field-effect transistors (N-FETs) and p-channel field effect transistors (P-FETs) in a complementary-symmetry metal-oxide semiconductor process. By eliminating short-circuit currents between N-FETs and P-FETs within the sense amplifier flop, a large variation in conductivity ratio between N-FETs and P-FETs may be tolerated by the sense amplifier flop. This tolerance to conductivity ratio translates to a tolerance for process variation by the sense amplifier flop circuit.

Abstract: Embodiments for an area efficient high performance memory cell comprising a transistor connected to one of a bit line and a bit line bar are disclosed.

Abstract: One embodiment of the present invention sets forth a synchronous two-port static random access memory (SRAM) design with the area efficiency of a one-port SRAM. By restricting both access ports to an edge-triggered, synchronous clocking regime, the internal timing of the SRAM can be optimized to allow high-performance double-pumped access to the SRAM storage cells. By double-pumping the SRAM storage cells, one read access and one write access are possible per clock cycle, allowing the SRAM to present two external ports, each capable of performing one transaction per clock cycle.

Abstract: One embodiment of the present invention sets forth a high-speed single-ended memory read circuit that overcomes performance limitations of conventional single ended memory read circuits. A bit line keeper control mechanism for the high-speed single-ended memory read circuit is disclosed that automatically configures the bit line keeper for high-speed operation or low-speed operation, based on the frequency of a system clock. In high-speed operation, the bit line keeper is disabled, thereby eliminating short-circuit currents related to the bit line keeper and increasing the read performance of the single-ended memory read circuit. In low-speed operation, the bit line keeper is periodically disabled by a timer circuit to enable efficient read or write operations. Subsequent to the read or write operation, the bit line keeper is enabled to preserve state on the bit lines. By selectively enabling the bit line keeper, high-speed performance is improved while preserving correct function at low speeds.

Abstract: One embodiment of the present invention sets forth an active bit line charge keeper circuit for improving the reliability of a static random access memory (SRAM) circuit. The active bit line charge keeper circuit includes two sub-circuits, each disposed between bit line pairs within the SRAM circuit. The first sub-circuit mitigates residual state associated with over-developed read state on the bit lines. The second sub-circuit mitigates the effects of residual state associated with reading one value on a given pair of bit lines and subsequently writing a different value. By mitigating the effects of residual state within an SRAM circuit, higher reliability at a given performance level may be achieved.

Abstract: One embodiment of the present invention sets forth a twelve transistor static random access memory storage cell that provides two write ports and three read ports. The write word line operates at twice the clock frequency. The write bit lines are differential to provide high-performance writes. Each read word line operates at the clock frequency. Single-ended read bit lines are used to provide read performance comparable to write performance. The resulting storage cell only requires four horizontal word lines and five vertical bit lines, enabling very dense, yet high-performance designs.

Abstract: An apparatus and method are provided for preventing a current leakage or direct current when a low voltage domain is powered down. Included is a voltage transition circuit connected between a low voltage domain and a high voltage domain. Such voltage transition circuit includes a circuit component for preventing a current leakage when the low voltage domain is powered down.