Patent application number | Description | Published |
20080266984 | Programmable Heavy-Ion Sensing Device for Accelerated DRAM Soft Error Detection - 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. | 10-30-2008 |
20080273393 | Programmable Heavy-Ion Sensing Device for Accelerated Dram Soft Error Detection - 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. | 11-06-2008 |
20090002015 | ERROR CORRECTING LOGIC SYSTEM - 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. | 01-01-2009 |
20090021289 | Voltage Detection Circuit in an Integrated Circuit and Method of Generating a Trigger Flag Signal - 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. | 01-22-2009 |
20090033408 | Voltage Pump Circuit with an Oxide Stress Control Mechanism for use in High-Voltage Applications in an Integrated Circuit - 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. | 02-05-2009 |
20090057804 | THRESHOLD VOLTAGE COMPENSATION FOR PIXEL DESIGN OF CMOS IMAGE SENSORS - 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. | 03-05-2009 |
20090141538 | Voltage Controlled Static Random Access Memory - A static random access memory (SRAM) comprising a plurality of SRAM cells, a plurality of wordlines (WL | 06-04-2009 |
20090144689 | Structure for a Voltage Detection Circuit in an Integrated Circuit and Method of Generating a Trigger Flag Signal - 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. | 06-04-2009 |
20090153172 | STRUCTURE FOR INDICATING STATUS OF AN ON-CHIP POWER SUPPLY SYSTEM - 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. | 06-18-2009 |
20090158092 | SYSTEM AND METHOD FOR INDICATING STATUS OF AN ON-CHIP POWER SUPPLY SYSTEM - 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. | 06-18-2009 |
20090206915 | Two Stage Voltage Boost Circuit, IC and Design Structure - A two stage voltage boost circuit, IC and design structure are disclosed for boosting a supply voltage using gate control circuitry to reduce gate oxide stress, thus allowing lower voltage level FETs to be used. The voltage boost circuit may include a first stage for boosting the supply voltage to a first boosted voltage; a first passgate coupled to the first stage; a first gate control circuit for generating an on-state gate voltage level for the first passgate adjusted to reduce gate oxide voltage stress on the passgate; a second stage for boosting the first boosted voltage to a second boosted voltage; a second passgate coupled to the second stage, and a gate control circuit for generating an on-state gate voltage level for the second passgate adjusted to reduce gate oxide voltage stress on the second pass-gate. | 08-20-2009 |
20090206916 | Voltage Boost System, IC and Design Structure - A voltage boost system, IC and design structure are disclosed for boosting a supply voltage while preventing forward biasing of n-well structures. The voltage boost system may include a first voltage boost circuit producing a first boosted voltage using at least one voltage boost sub-circuit, each of the at least one voltage boost sub-circuit having an output passgate in an n-well; a second voltage boost circuit producing a second boosted voltage, the n-well of each output passgate being biased using the second boosted voltage, wherein the second boosted voltage is greater than the first boosted voltage. Voltage boost sub-circuits may use gate control circuitry to reduce gate oxide stress, thus allowing lower voltage level FETs to be used. | 08-20-2009 |
20090206917 | Two Stage Voltage Boost Circuit With Precharge Circuit Preventing Leakage, IC and Design Structure - A two stage voltage boost circuit, IC and design structure are disclosed for boosting a supply voltage using gate control circuitry to reduce gate oxide stress, thus allowing lower voltage level FETs to be used. The voltage boost circuit may include a first stage for boosting the supply voltage to a first boosted voltage and a second stage for boosting the first boosted voltage to a second boosted voltage. Each stage may include a passgate and a gate control circuit for generating an on-state gate voltage level for the respective passgate adjusted to reduce gate oxide voltage stress on the passgate. The circuit may also include a precharge circuit for coupling a voltage on a high node of the second stage to a gate node of a precharge transistor thereof for disabling the precharge transistor and preventing leakage back to a power supply voltage. | 08-20-2009 |
20090243733 | DESIGN STRUCTURE FOR TRANSFORMING AN INPUT VOLTAGE TO OBTAIN LINEARITY BETWEEN INPUT AND OUTPUT FUNCTIONS AND SYSTEM AND METHOD THEREOF - A design structure is embodied in a machine readable medium for designing, manufacturing, or testing a design. The design structure includes a first structure for determining a non-linear characteristic of the input voltage to the output frequency response, the first design structure providing a tunneling-based current relationship with the input voltage. Also disclosed is a system and a method of implementing such structure. | 10-01-2009 |
20090261890 | REGULATED VOLTAGE BOOST CHARGE PUMP FOR AN INTEGRATED CIRCUIT DEVICE - An apparatus and method for a regulated voltage boost charge pump for an integrated circuit (IC) device. The charge pump generally includes a plurality of switching networks and a lift capacitor that are intermittently coupled to an output capacitor or to a regulating transistor, a differential error amplifier biasing a gate terminal of the transistor, and a controller configured to alternate states of switches in the switching networks in a pre-selected timing relationship with a clock signal of the IC device. | 10-22-2009 |
20100001788 | SYSTEM TO EVALUATE CHARGE PUMP OUTPUTS AND ASSOCIATED METHODS - A system to evaluate charge pump output may include a comparator to compare a charge pump output voltage to a reference voltage to generate a comparison result. The system may also include a divider to divide down a clock signal. The system may further include a logical conjunction unit to operate on the comparison result and the divided down clock signal. | 01-07-2010 |
20100014373 | REGULATING ELECTRICAL FUSE PROGRAMMING CURRENT - An apparatus for regulating eFUSE programming current includes a current control generator receiving an input reference current through a first current path of reference fuses, the input reference current proportional to a desired eFUSE programming current; a second current path including a reference programming FET and a second group of reference fuses; and a voltage comparator coupled to a gate terminal of the reference programming FET so as to adjust the gate voltage of the reference programming FET to equalize a first voltage across the first current path with a second voltage across the second current path. The gate voltage of the reference programming FET is an output of the current control generator, coupled to corresponding gates of one or more selected programming devices of an eFUSE array such that the selected programming devices source the desired eFUSE programming current to a selected eFUSE to be programmed. | 01-21-2010 |
20110032025 | PROGRAMMABLE SEMICONDUCTOR DEVICE - A programmable device includes a substrate ( | 02-10-2011 |
20110088008 | METHOD FOR CONVERSION OF COMMERCIAL MICROPROCESSOR TO RADIATION-HARDENED PROCESSOR AND RESULTING PROCESSOR - A method is provided to convert commercial microprocessors to radiation-hardened processors and, more particularly, a method is provided to modify a commercial microprocessor for radiation hardened applications with minimal changes to the technology, design, device, and process base so as to facilitate a rapid transition for such radiation hardened applications. The method is implemented in a computing infrastructure and includes evaluating a probability that one or more components of an existing commercial design will be affected by a single event upset (SEU). The method further includes replacing the one or more components with a component immune to the SEU to create a final device. | 04-14-2011 |
20110170368 | CHARGE PUMP SYSTEM AND METHOD UTILIZING ADJUSTABLE OUTPUT CHARGE AND COMPILATION SYSTEM AND METHOD FOR USE BY THE CHARGE PUMP - Charge pump circuit includes a plurality of boost capacitors. An output charge of the charge pump circuit is adjusted by selecting a number of the boost capacitors at least one of using a digital control word and programming of a wiring level. A method of boosting supply voltage uses a charge pump circuit. The method includes adjusting an output charge of the charge pump circuit by selecting a number of boost capacitors at least one of using a digital control word and by programming of a wiring level | 07-14-2011 |
20120075918 | SRAM Having Wordline Up-Level Voltage Adjustable to Assist Bitcell Stability and Design Structure for Same - An integrated circuit that includes memory containing wordlines and bitcells having SRAM storage elements and being connected to the wordlines. Wordline up-level assist circuitry is provided that is designed and configured to provide a plurality of selectable voltage values that can be selected to provide the wordline up-level voltage that is provided to the bitcells during a memory read cycle and/or write cycle. In one example, the voltage value selected is selected based on characterization of the as-fabricated bitcells so as to decrease the likelihood of the bitcells experiencing a stability failure. | 03-29-2012 |
20120128033 | THERMAL SENSOR FOR SEMICONDUCTOR CIRCUITS - A system and a method for measuring temperature within an operating circuit use a Wheatstone bridge within a temperature sensing circuit. One of the resistors in the Wheatstone bridge is a thermally sensitive resistive material layer within the operating circuit. The other three resistors are thermally isolated from the operating circuit. Particular configurations of NFET and PFET devices are used to provide enhanced measurement sensitivity within the temperature sensing circuit that includes the Wheatstone bridge. | 05-24-2012 |
20120178239 | PROGRAMMABLE SEMICONDUCTOR DEVICE - A programmable device includes a substrate ( | 07-12-2012 |
20130214851 | VOLTAGE PUMP USING HIGH-PERFORMANCE, THIN-OXIDE DEVICES AND METHODS OF USE - A voltage pump using high-performance, thin-oxide devices and methods of use are provided. A multi-stage voltage boosting circuit includes a first boost capacitor with a first boosted voltage. The multi-stage voltage boosting circuit further includes a second boost capacitor with a second boosted voltage. The multi-stage voltage boosting circuit further includes a precharge transistor operable to precharge the first boost capacitor to a supply voltage. The multi-stage voltage boosting circuit further includes a precharge circuit operable to limit a stress voltage on the precharge transistor to the supply voltage, to drive the first boosted voltage to a gate of the precharge transistor in a boosting state, and to drive ground to the gate in a precharge state. | 08-22-2013 |
20130215686 | REFERENCE GENERATOR WITH PROGRAMMABLE M AND B PARAMETERS AND METHODS OF USE - A reference generator with programmable m and b parameters and methods of use are provided. A circuit includes a first generator operable to generate a first voltage including a fraction of a supply voltage. The circuit further includes a second generator operable to generate a second voltage. The circuit further includes a mixer and buffer circuit operable to output a reference voltage including a sum of the first and second voltages. | 08-22-2013 |
20130315022 | MULTI-BANK RANDOM ACCESS MEMORY STRUCTURE WITH GLOBAL AND LOCAL SIGNAL BUFFERING FOR IMPROVED PERFORMANCE - Disclosed are embodiments of a multi-bank random access memory (RAM) structure that provides signal buffering at both the global and local connector level for improved performance. Specifically, inverters are incorporated into the global connector(s), which traverse groups of memory banks and which transmit signals (e.g., address signals, control signals, and/or data signals) from a memory controller, and also into alternating groups of local connectors, which connect nodes on the global connector(s) to corresponding groups of memory banks, such that any of the signals that are received by the memory banks from the memory controller via the global and local connectors are buffered by an even number of inverters and are thereby true signals. Signal buffering at both the global and local connector level results in relatively fast slews, short propagation delays, and low peak power consumption with minimal, if any, increase in area consumption. | 11-28-2013 |
20130321066 | ELECTRONICALLY PROGRAMMABLE FUSE SECURITY ENCRYPTION - A semiconductor structure including a device configured to receive an input data-word. The device including a logic structure configured to generate an encrypted data-word by encrypting the input data-word through an encrypting operation. The device further including an eFuse storage device configured to store the encrypted data-word as eFuse data by blowing fuses in accordance with the encrypted data-word. | 12-05-2013 |
20140003164 | MEMORY ARRAY WITH ON AND OFF-STATE WORDLINE VOLTAGES HAVING DIFFERENT TEMPERATURE COEFFICIENTS | 01-02-2014 |
20140025915 | PROTECTION OF ONE-TIME PROGRAMMABLE (OTP) MEMORY - Aspects of the invention provide for masking a current profile of a one-time programmable (OTP) memory. In one embodiment, a circuit includes: a first one-time programmable (OTP) memory configured to receive a data input for a plurality of address fields; and a second OTP memory configured to receive an inverse of the data input for a plurality of address fields, wherein a current profile for a programming supply for the first OTP memory and the second OTP memory is masked, such that the data input for the first OTP memory is undetectable. | 01-23-2014 |
20140258958 | METHOD FOR CONVERSION OF COMMERCIAL MICROPROCESSOR TO RADIATION-HARDENED PROCESSOR AND RESULTING PROCESSOR - A method is provided to convert commercial microprocessors to radiation-hardened processors and, more particularly, a method is provided to modify a commercial microprocessor for radiation hardened applications with minimal changes to the technology, design, device, and process base so as to facilitate a rapid transition for such radiation hardened applications. The method is implemented in a computing infrastructure and includes evaluating a probability that one or more components of an existing commercial design will be affected by a single event upset (SEU). The method further includes replacing the one or more components with a component immune to the SEU to create a final device. | 09-11-2014 |
20140293715 | SIGNAL MARGIN CENTERING FOR SINGLE-ENDED eDRAM SENSE AMPLIFIER - Apparatus and methods for signal margin centering for single-ended eDRAM sense amplifier. A plurality of DRAM cells is connected to an input side of a multiplexer by a first bitline. A single-ended sense amplifier is connected to an output side of the multiplexer by a second bitline. The single-ended sense amplifier has a switch voltage. The second bitline is precharged to a selected voltage level. The multiplexer passes a signal voltage from a selected one of the plurality of DRAM cells to the second bitline. The selected voltage level is selected such that reception of the signal voltage of a first type adjusts a voltage of the second bitline in a first direction and reception of the signal voltage of a second type adjusts the voltage of the second bitline in a second direction opposite from the first direction, centering the signal voltage around the switch voltage. | 10-02-2014 |