Abstract: An integrated circuit that includes a gate control voltage generator that supplies a current control gate voltage to a plurality of current control devices of a corresponding plurality of dynamic logic circuits each having a keeper circuit. The gate control voltage generator provides, via current control gate voltage, global control of the amount of keeper current flowing through the keeper circuits so as to enhance the performance of the dynamic logic circuits.

Abstract: A circuit containing a parallel connection of a first sub-circuit and a second sub-circuit is provided. The first sub-circuit comprises a serial connection of a first field effect transistor having a first threshold voltage and a first voltage dividing device. The second sub-circuit comprises a serial connection of a second field effect transistor having a second threshold voltage, which is different from the first threshold voltage, and a second voltage dividing device. The voltage between the first field effect transistor and the first voltage dividing device is compared with the voltage between the second field effect transistor and the second voltage dividing device so that a signal may be generated at a temperature at which the ratio of a performance parameter such as on-current between the first and second field effect transistors crosses over a predefined value. The signal may be advantageously employed to actively control circuit characteristics.

Abstract: Techniques and systems whereby operation of and/or access to particular features of an electronic device may be controlled after the device has left the control of the manufacturer are provided. The operation and/or access may be provided based on values stored in non-volatile storage elements, such as electrically programmable fused (eFUSES).

Abstract: The embodiments of the invention provide an apparatus, method, etc. for a non volatile memory RAD-hard (NVM-rh) system. More specifically, an IC permanent non-volatile storage element comprises an integrated semiconductor stable reference component, wherein the component is resistant to external radiation. The storage element further comprises e-fuse structures in the component and a sensing circuit coupled to the e-fuse structures. The sensing circuit is adapted to update an external device at a specified time interval to reduce incidence of soft errors and errors due to power failure. Moreover, the sensing circuit is adapted to cease updating the external device to program the e-fuse structures; and, continue updating the external device after programming the e-fuse structures.

Abstract: The status of multiple on-chip power supply systems is indicated for use in modifying chip test flow and diagnosing chip failure. Digital compliance signals are received, each compliance signal associated with one of multiple on-chip power supplies. Each power supply has an associated compliance level, and each compliance signal indicates whether its associated power supply is operating at the associated compliance level. The compliance signals are converted into a power supply status signal indicating status of the compliance signals associated with the power supply. The power supply status signal is output. If a power supply is operating at its associated compliance level, the output power supply status signal indicates that the power supply is passing. If the power supply is not operating at its associated compliance level, the output power supply status signal indicates that the power supply is failing. If a power supply is failing, a memory test may be aborted, simplifying chip failure diagnosis.

Abstract: A design structure embodied in a machine readable medium used in a design process includes a system for indicating status of an on-chip power supply system with multiple power supplies, having a power system status register for receiving digital compliance signals, each compliance signal associated with one of the multiple power supplies, and having an associated compliance level, wherein each digital compliance signal indicates whether its associated power supply is operating at the associated compliance level, and wherein the power system status register generates a power supply status signal based on the digital compliance signals indicating status of the digital compliance signals; and an output for outputting the power supply status signal, wherein if a power supply is operating at its associated compliance level, the power supply status signal indicates that the power supply is passing, otherwise the power supply status signal indicates that the power supply is failing.

Abstract: A static random access memory (SRAM) comprising a plurality of SRAM cells, a plurality of wordlines (WL0-WLN) and a voltage regulator for driving the wordlines with a wordline voltage signal (VWLP). The wordline voltage signal is determined so as to reduce the likelihood of occurrence of read-disturbances and other memory instabilities. In one embodiment, the wordline voltage signal is determined as a function of the metastability voltage (VMETA) of the SRAM cells and an adjusted most positive down level voltage (VAMPDL) that is a function of a predetermined voltage margin (VM) and a most positive down level voltage (VMPDL) that corresponds to the read-disturb voltage of the SRAM cells.

Abstract: A design structure for an integrated circuit that includes at least one tunneling device voltage detection circuit for generating a trigger flag signal. The tunneling device voltage detection circuit includes first and second voltage dividers receiving a supply voltage and having corresponding respective first and second internal node output voltages. The first and second voltage dividers are configured so the first output voltage is linear relative to the supply voltage and so that the second output voltage is nonlinear relative to the supply voltage. As the supply voltage ramps up, the profiles of the first and second output voltage cross at a particular voltage. An operational amplifier circuit senses when the first and second output voltages become equal and, in response thereto, outputs a trigger signal that indicates that the supply voltage has reached a certain level.

Abstract: The present disclosure is directed to a CMOS active pixel sensor that compensates for variations in a threshold voltage of a source follower contained therein. A structure in accordance with an embodiment includes: a replica source follower transistor; a system for creating a current in said replica source follower transistor such that a gate-source voltage of said replica source follower is substantially equal to a threshold voltage of said replica source follower; and a current mirror for biasing the isolation source follower transistor at a same current density as the replica source follower transistor.

Abstract: An integrated circuit that includes at least one tunneling device voltage reference circuit for use in low voltage applications is disclosed. The tunneling device voltage reference circuit includes a pair of voltage dividing device stacks, one having a linear voltage output and the other having a non-linear voltage output. A feedback circuit supplies a regulated voltage to each of the voltage dividing stacks so that the output voltages of the two device stacks equalize. Once the feedback circuit has locked, any one of the device stack output voltages and the regulated voltage may be used as a voltage reference.

Abstract: Aspects of the invention relate to a programmable heavy-ion sensing device for accelerated DRAM soft error detection. Design of a DRAM-based alpha particle sensing apparatus is preferred to be used as an accelerated on-chip SER test vehicle. The sensing apparatus is provided with programmable sensing margin, refresh rate, and supply voltage to achieve various degree of SER sensitivity. In addition, a dual-mode DRAM array is proposed so that at least a portion of the array can be used to monitor high-energy particle activities during soft-error detection (SED) mode.

Abstract: A static random access memory (SRAM) comprising a plurality of SRAM cells, a plurality of wordlines (WL0-WLN) and a voltage regulator for driving the wordlines with a wordline voltage signal (VWLP). The wordline voltage signal is determined so as to reduce the likelihood of occurrence of read-disturbances and other memory instabilities. In one embodiment, the wordline voltage signal is determined as a function of the metastability voltage (VMETA) of the SRAM cells and an adjusted most positive down level voltage (VAMPDL) that is a function of a predetermined voltage margin (VM) and a most positive down level voltage (VMPDL) that corresponds to the read-disturb voltage of the SRAM cells.

Abstract: A voltage pump circuit that has an oxide stress control mechanism is disclosed. In particular, the oxide stress control mechanism of the voltage pump circuit ensures a safe transistor gate-to-source voltage in high-voltage applications in an integrated circuit. In particular, the down level of the gate voltage of the output transistor may be conditionally limited. For example, an offset in the down level of the gate voltage is created by conditionally developing an offset voltage in the lower rail voltage of the gate driver. The offset voltage is created by directing a predetermined current through a resistance. The current is conditional such that the current is about zero when the power supply voltage is less than or equal to a predetermined level, and the current is greater than zero when the power supply voltage is greater than a predetermined level.

Abstract: A static random access memory (SRAM) comprising a plurality of SRAM cells, a plurality of wordlines (WL0-WLN) and a voltage regulator for driving the wordlines with a wordline voltage signal (VWLP). The wordline voltage signal is determined so as to reduce the likelihood of occurrence of read-disturbances and other memory instabilities. In one embodiment, the wordline voltage signal is determined as a function of the metastability voltage (VMETA) of the SRAM cells and an adjusted most positive down level voltage (VAMPDL) that is a function of a predetermined voltage margin (VM) and a most positive down level voltage (VMPDL) that corresponds to the read-disturb voltage of the SRAM cells.

Abstract: An integrated circuit that includes at least one tunneling device voltage detection circuit for generating a trigger flag signal. The tunneling device voltage detection circuit includes first and second voltage dividers receiving a supply voltage and having corresponding respective first and second internal node output voltages. The first and second voltage dividers are configured so the first output voltage is linear relative to the supply voltage and so that the second output voltage is nonlinear relative to the supply voltage. As the supply voltage ramps up, the profiles of the first and second output voltage cross at a particular voltage. An operational amplifier circuit senses when the first and second output voltages become equal and, in response thereto, outputs a trigger signal that indicates that the supply voltage has reached a certain level.

Abstract: A differential fuse sensing system includes a fuse leg configured for introducing a sense current through an electrically programmable fuse (eFUSE) to be sensed, and a differential sense amplifier having a first input node coupled to the fuse leg and a second node coupled to a reference voltage. The fuse leg further includes a current supply device controlled by a variable reference current generator configured to generate an output signal therefrom such that the voltage on the first input node of the sense amplifier is equal to the voltage on the second input node of the sense amplifier whenever the resistance value of the eFUSE is equal to the resistance value of a programmable variable resistance device included within the variable reference current generator.

Abstract: The invention includes an error correcting logic system that allows critical circuits to be hardened with only one redundant unit and without loss of circuit performance. The system provides an interconnecting gate that suppresses a fault in one of at least two redundant dynamic logic gates that feed to the interconnecting gate. The system is applicable to dynamic or static logic systems. The system prevents propagation of a fault, and addresses not only soft errors, but noise-induced errors. Also, there is provided a design structure embodied in a machine readable medium used in a design process, and which includes such error correcting logic system.

Abstract: The invention includes an error correcting logic system that allows critical circuits to be hardened with only one redundant unit and without loss of circuit performance. The system provides an interconnecting gate that suppresses a fault in one of at least two redundant dynamic logic gates that feed to the interconnecting gate. The system is applicable to dynamic or static logic systems. The system prevents propagation of a fault, and addresses not only soft errors, but noise-induced errors.

Abstract: A design structure for an integrated circuit that includes a gate control voltage generator that supplies a current control gate voltage to a plurality of current control devices of a corresponding plurality of dynamic logic circuits each having a keeper circuit. The gate control voltage generator provides, via current control gate voltage, global control of the amount of keeper current flowing through the keeper circuits so as to enhance the performance of the dynamic logic circuits.

Abstract: A voltage pump circuit that has an oxide stress control mechanism is disclosed. In particular, the oxide stress control mechanism of the voltage pump circuit ensures a safe transistor gate-to-source voltage in high-voltage applications in an integrated circuit. In particular, the down level of the gate voltage of the output transistor may be conditionally limited. For example, an offset in the down level of the gate voltage is created by conditionally developing an offset voltage in the lower rail voltage of the gate driver. The offset voltage is created by directing a predetermined current through a resistance. The current is conditional such that the current is about zero when the power supply voltage is less than or equal to a predetermined level, and the current is greater than zero when the power supply voltage is greater than a predetermined level.