Patent application number | Description | Published |
20090116324 | Apparatus for Guaranteed Write Through in Domino Read SRAM'S - In a digital device for facilitating recovery of a precharged dot line, periodically precharged by a precharge signal, that has been prematurely discharged as a result of an early read condition, a data input signal can have a selected one of a first value and a second value. The first value is a value that would be reflected by the dot line being in a charged state. A logic device that is responsive to the data input signal causes charge to be applied to the dot line when the data signal has the first value. | 05-07-2009 |
20090259977 | Assessing Resources Required to Complete a VLSI Design - A system, method and program product are described in which schematics in a library that a user has tagged are read as ready for layout. The difficulty of each layout is assessed based on statistics indicative of the complexity of the schematic. The statistics may regard the number of connections, pins, devices, and other schematic information. The information is used to calculate the total amount of effort required to complete the design and generate a report. | 10-15-2009 |
20090271669 | High-Speed Testing of Integrated Devices - A method for allowing high-speed testability of a memory device having a core with memory cells for storing data, comprising: enabling a data signal having a first logical state or a second logical state from the core to reach an output port of the memory device within an evaluate cycle during a functional operating mode and pass an array built in self test during LBIST mode; enabling the data signal to change from the first logical state to the second logical state during LBIST mode at a time that coincides with the latest possible time the data signal from the core can reach the read output port within the evaluate cycle during the functional operating mode and pass the array built in self test; and executing a logic built-in self test configured to test a logic block located downstream of a transmission path of the memory device. | 10-29-2009 |
20090309644 | METHOD AND APPARATUS TO LIMIT CIRCUIT DELAY DEPENDENCE ON VOLTAGE - The present disclosure is an apparatus for generating a decreasing delay with increasing input voltage to a predetermined voltage value at which point the delay may remain constant. The apparatus may include a circuit comprising a voltage regulator receiving an input voltage and two paths of inverters. At least two paths of inverters may be coupled to an input signal, the input signal may be low voltage (e.g. 0) or high voltage (e.g. 1). A first path may be referenced to a reference voltage while the second path may be referenced to the input voltage. The apparatus may include logic gates for receiving the output of each of the first path of inverters and the output of the second path of inverters to generate a desired output. As the input voltage increases, delay of the apparatus may decrease until the input voltage is approximately the same voltage as the reference voltage, at which the delay may remain constant. | 12-17-2009 |
20100030804 | Synchronization of Locations in Real and Virtual Worlds - Embodiments of the invention provide techniques for synchronizing virtual locations to real locations. In one embodiment, data sources are monitored to detect events that affect real locations. A filter specified by an owner of the virtual location may be used to detect keywords indicating events affecting a particular location. In the event that such events are detected, the owner may be notified to modify the virtual location to match the real location. Optionally, the virtual location may be automatically modified to match the real location. | 02-04-2010 |
20110109366 | Method and Apparatus to Limit Circuit Delay Dependence on Voltage for Single Phase Transition - A delay circuit receives a data input having an input transition and that generates a data output having an output transition. The delay circuit is powered by a voltage source having a voltage. A first delay element is configured to generate a first data signal with a first edge that has a relatively constant delay relative to the input transition irrespective of the voltage of the voltage source. A second delay element is configured to generate a second data signal with a second edge that has a delay relative to the input transition as a function of the voltage of the voltage source. A selection element causes the output transition at the data output to correspond to a latest selected one of the first edge and the second edge. The delay circuit may be employed in a pulse generating circuit. | 05-12-2011 |
20120069688 | IMPLEMENTING SINGLE BIT REDUNDANCY FOR DYNAMIC SRAM CIRCUIT WITH ANY BIT DECODE - A method and a dynamic Static Random Access Memory (SRAM) circuit for implementing single bit redundancy with any bit decode, and a design structure on which the subject circuit resides are provided. The SRAM circuit includes a plurality of bitline columns and a pair of redundancy columns respectively coupled to a respective merged bit column select and redundancy steering multiplexer. Each merged bit column select and redundancy steering multiplexer receives a respective select signal input. A select signal generation circuit receives a redundancy steering signal and a respective one-hot bit select signal, generating the respective select signal input. | 03-22-2012 |
20120147661 | DATA SECURITY FOR DYNAMIC RANDOM ACCESS MEMORY AT POWER-UP - A circuit and method erase at power-up all data stored in a DRAM chip for increased data security. All the DRAM memory cells are erased by turning on the transistors for the DRAM storage cells simultaneously by driving the wordlines of all the cells to an activated state. With all the devices turned on, the data stored in the memory cells is erased as the voltage of all the cells connected to a common bitline coalesce to a single value. In a preferred embodiment, the wordlines are all turned on simultaneously during a power on reset period. Preferably a power on reset signal is used to drive each logic gate of the pre-decoder portion of the address decoder in order to assert all the wordlines. | 06-14-2012 |
20120281457 | Data Dependent SRAM Write Assist - A semiconductor chip has an SRAM (static random access memory). The SRAM includes a data dependent write assist circuit which, on writes, reduces a supply voltage on one of a cross coupled inverter pair in an SRAM cell, thereby making it easier to overcome the one of the cross coupled inverters. | 11-08-2012 |
20130141986 | IMPLEMENTING COLUMN REDUNDANCY STEERING FOR MEMORIES WITH WORDLINE REPOWERING - A method and circuit for implementing column redundancy steering for memories with wordline repowering, and a design structure on which the subject circuit resides are provided. Each respective data column receives a precharge signal applied to an associated precharge function. An inverting multiplexer is provided in a precharge path after the wordline repowering having inputs coupled to the respective precharge functions before and after the wordline repowering. The inverting multiplexer passes the precharge signal from the precharge function before the wordline repowering or from the precharge function after the wordline repowering. The inverting multiplexer is controlled by the redundancy steering control signal that activates redundancy steering. | 06-06-2013 |
20130148454 | DATA SECURITY FOR DYNAMIC RANDOM ACCESS MEMORY USING BODY BIAS TO CLEAR DATA AT POWER-UP - A circuit and method erase at power-up all data stored in a DRAM chip for increased data security. All the DRAM memory cells are erased by turning on the transistors for the DRAM storage cells simultaneously by increasing the body voltage of cells. In the example circuit, the body voltage is increased by a charge pump controlled by a power-on-reset (POR) signal applying a voltage to the p-well of the memory cells. The added voltage to the p-well lowers the threshold voltage of the cell, such that the NFET transistor of the memory cell will turn on. With all the devices turned on, the data stored in the memory cells is erased as the voltage of all the cells connected to a common bitline coalesce to a single value. | 06-13-2013 |
20130175631 | LAYOUT TO MINIMIZE FET VARIATION IN SMALL DIMENSION PHOTOLITHOGRAPHY - A semiconductor chip has shapes on a particular level that are small enough to require a first mask and a second mask, the first mask and the second mask used in separate exposures during processing. A circuit on the semiconductor chip requires close tracking between a first and a second FET (field effect transistor). For example, the particular level may be a gate shape level. Separate exposures of gate shapes using the first mask and the second mask will result in poorer FET tracking (e.g., gate length, threshold voltage) than for FETs having gate shapes defined by only the first mask. FET tracking is selectively improved by laying out a circuit such that selective FETs are defined by the first mask. In particular, static random access memory (SRAM) design benefits from close tracking of six or more FETs in an SRAM cell. | 07-11-2013 |
20130187706 | TAMPER RESISTANT ELECTRONIC SYSTEM UTILIZING ACCEPTABLE TAMPER THRESHOLD COUNT - A tamper resistant electronic device includes multiple eFuses that are individually blown in each instance the electronic device is tampered with. For example an eFuse is blown when the electronic device is subjected to a temperature that causes solder reflow. Since it is anticipated that the electronic device may be tampered with in an acceptable way and/or an acceptable number of instances, functionality of the electronic device is altered or disabled only after a threshold number of eFuses are blown. In certain implementations, the threshold number is the number of anticipated acceptable tamper events. Upon a tamper event an individual eFuse is blown. If the total number of blown eFuses is less than the threshold, a next eFuse is enabled so that it may be blown upon a next tamper event. | 07-25-2013 |
20130222031 | IMPLEMENTING POWER SAVING SELF POWERING DOWN LATCH STRUCTURE - A method and circuits for implementing power saving self powering down latch operation, and a design structure on which the subject circuit resides are provided. A master slave latch includes a virtual power supply connection. At least one connection control device is coupled between the virtual power supply connection and a voltage supply rail. A driver gate applies a power down signal driving the at least one connection control device to control the at least one connection control device during a self power down mode. The driver gate combines a self power down input signal and a latch data output signal to generate the power down signal. | 08-29-2013 |
20130235681 | IMPLEMENTING RC AND COUPLING DELAY CORRECTION FOR SRAM - A method and circuit for implementing delay correction in static random access memory (SRAM), and a design structure on which the subject circuit resides are provided. The SRAM circuit includes a precharge enable signal coupled between precharge near and precharge far signals and wordline near and wordline far signals of the SRAM. A precharge pull down device is coupled between the precharge far signal and ground and is controlled responsive to the precharge enable signal to decrease a time delay of the falling transition of the precharge far signal. A respective word line pull up device is coupled between a respective wordline far signal and a voltage supply rail and is controlled responsive to the precharge enable signal to increase wordline voltage level upon a rising transition of the wordline far signal. | 09-12-2013 |
20130258758 | Single Cycle Data Copy for Two-Port SRAM - A static random access memory (SRAM) includes a column of SRAM memory cells. The SRAM may include a circuit to copy a value stored in any SRAM memory cell in a column of SRAM memory cells to any SRAM memory cell in the column of SRAM memory cells in a single cycle of the SRAM. | 10-03-2013 |
20130326111 | CONTENT ADDRESSABLE MEMORY EARLY-PREDICT LATE-CORRECT SINGLE ENDED SENSING - Circuits and methods for performing search operations in a content addressable memory (CAM) array are provided. A system for searching a CAM includes a circuit that selectively activates a main-search of a two stage CAM search while a pre-search of the two stage CAM search is still active. | 12-05-2013 |
20140063916 | SRAM LOCAL EVALUATION LOGIC FOR COLUMN SELECTION - An SRAM includes a first SRAM column having first SRAM cells and a first local evaluation logic coupled to a global bit line and a second SRAM column having second SRAM cells and a second local evaluation logic coupled to the same global bit line. The first SRAM column is selected with a first column select line and the second SRAM column is selected with a second column select line. | 03-06-2014 |
20140063986 | SRAM LOCAL EVALUATION AND WRITE LOGIC FOR COLUMN SELECTION - An SRAM includes a first SRAM column having first SRAM cells and a first local evaluation logic coupled to a global bit line and a second SRAM column having second SRAM cells and a second local evaluation logic coupled to the same global bit line. The first SRAM column is selected with a first write line and the second SRAM column is selected with a second write line. | 03-06-2014 |
20140084980 | MEMORY ARRAY PULSE WIDTH CONTROL - A clock system includes a local clock buffer adapted to receive a variable global clock signal. The local clock buffer produces a first local clock signal from the variable global clock signal. The clock system includes a pulse width logic control circuit in operable communication with the local clock buffer. The pulse width logic control circuit may be adapted to limit the first local clock signal pulse width to be less than the variable global clock signal pulse width during a slow mode. The pulse width logic control circuit may be adapted to expand the first local clock signal pulse width to be greater than the variable global clock signal pulse width during a fast mode. The limited and expanded first local clock signals may signal a local evaluation circuit to address a memory line. | 03-27-2014 |
20140092672 | POWER MANAGEMENT DOMINO SRAM BIT LINE DISCHARGE CIRCUIT - A domino static random access memory (SRAM) having one or more SRAM memory cells connected with a local bit line is disclosed. The SRAM may include a global bit line, a first precharge device connected between a voltage supply and the local bit line, and a second precharge device connected between the voltage supply and the global bit line. In addition the SRAM may include a global bit line discharge logic connected with the global bit line and the local bit line. The global bit line discharge logic is adapted to draw the global bit line to a voltage below a precharge voltage and above a ground voltage during a read operation. | 04-03-2014 |
20140092696 | POWER MANAGEMENT DOMINO SRAM BIT LINE DISCHARGE CIRCUIT - A domino static random access memory (SRAM) having one or more SRAM memory cells connected with a local bit line is disclosed. The SRAM may include a global bit line, a first precharge device connected between a voltage supply and the local bit line, and a second precharge device connected between the voltage supply and the global bit line. In addition the SRAM may include a global bit line discharge logic connected with the global bit line and the local bit line. The global bit line discharge logic is adapted to draw the global bit line to a voltage below a precharge voltage and above a ground voltage during a read operation. | 04-03-2014 |
20140112045 | MEMORY SYSTEM INCORPORATING A CIRCUIT TO GENERATE A DELAY SIGNAL AND AN ASSOCIATED METHOD OF OPERATING A MEMORY SYSTEM - Disclosed are a memory system and an associated operating method. In the system, a first memory array comprises first memory cells requiring a range of time delays between wordline activating and bitline sensing. A delay signal generator delays an input signal by a selected time delay (i.e., a long time delay corresponding to statistically slow memory cells) and outputs a delay signal for read operation timing to ensure read functionality for statistically slow and faster memory cells. To accomplish this, the delay signal generator comprises a second memory array having second memory cells with the same design as the first memory cells. Transistors within the second memory cells are controlled by a lower gate voltage than transistors within the first memory cells in order to mimic the effect of higher threshold voltages, which result in longer time delays and which can be associated with the statistically slow first memory cells. | 04-24-2014 |
20140124943 | INTEGRATED DECOUPLING CAPACITOR UTILIZING THROUGH-SILICON VIA - A semiconductor device may include a through substrate via (TSV) conductive structure that may extend vertically through two or more layers of the semiconductor device. The TSV conductive structure may be coupled to a first voltage supply. The semiconductor device may include substrate layer. The substrate layer may include a first dopant region and a second dopant region. The first dopant region may be coupled to a second voltage supply. The second dopant region may be in electrical communication with the TSV conductive structure. The semiconductor device may include a first metal layer and a first insulator layer disposed between the substrate layer and the first metal layer. The first metal layer may laterally contact the TSV conductive structure. The first and second voltage supply may be adapted to create a capacitance at a junction between the first dopant region and the second dopant region. | 05-08-2014 |
20140126273 | POWER MANAGEMENT SRAM GLOBAL BIT LINE PRECHARGE CIRCUIT - A domino static random access memory (SRAM) having one or more SRAM memory cells connected with a local bit line is disclosed. The SRAM may include a precharge device connected between a voltage supply and the local bit line, and global bit line (GBL) discharge logic connected between a local bit line and a GBL. The GBL discharge logic transfers a logic value of the local bit line to the GBL during a read operation. GBL precharge logic connects the GBL to a global precharge input. The GBL precharge logic is adapted to draw the GBL to a precharge voltage above a discharge voltage and below a supply voltage during a precharge operation. | 05-08-2014 |
20140126276 | POWER MANAGEMENT SRAM GLOBAL BIT LINE PRECHARGE CIRCUIT - A domino static random access memory (SRAM) having one or more SRAM memory cells connected with a local bit line is disclosed. The SRAM may include a precharge device connected between a voltage supply and the local bit line, and global bit line (GBL) discharge logic connected between a local bit line and a GBL. The GBL discharge logic transfers a logic value of the local bit line to the GBL during a read operation. GBL precharge logic connects the GBL to a global precharge input. The GBL precharge logic is adapted to draw the GBL to a precharge voltage above a discharge voltage and below a supply voltage during a precharge operation. | 05-08-2014 |
20140127875 | INTEGRATED DECOUPLING CAPACITOR UTILIZING THROUGH-SILICON VIA - A semiconductor device may include a through substrate via (TSV) conductive structure that may extend vertically through two or more layers of the semiconductor device. The TSV conductive structure may be coupled to a first voltage supply. The semiconductor device may include substrate layer. The substrate layer may include a first dopant region and a second dopant region. The first dopant region may be coupled to a second voltage supply. The second dopant region may be in electrical communication with the TSV conductive structure. The semiconductor device may include a first metal layer and a first insulator layer disposed between the substrate layer and the first metal layer. The first metal layer may laterally contact the TSV conductive structure. The first and second voltage supply may be adapted to create a capacitance at a junction between the first dopant region and the second dopant region. | 05-08-2014 |
20140169076 | POWER MANAGEMENT SRAM WRITE BIT LINE DRIVE CIRCUIT - A static random access memory (SRAM) having two or more SRAM memory cells connected with a write bit line (WBL) and a write bit line complement (WBLC) is disclosed. The SRAM may include a write driver logic coupled to the WBL and the WBLC. The write driver logic is adapted to drive a selected bit line of the WBL and the WBLC to a voltage uplevel below a first supply voltage and shut off the drive to the selected bit line when the selected bit line reaches the uplevel. The write driver logic is further adapted to drive an unselected bit line of the WBL and the WBLC to a downlevel, in conjunction with the driving of the selected bit line to the uplevel, where the downlevel is a second supply voltage lower than the first supply voltage. | 06-19-2014 |
20140192579 | TWO PHASE SEARCH CONTENT ADDRESSABLE MEMORY WITH POWER-GATED MAIN-SEARCH - Low leakage CAMs and method of searching low leakage CAMs. The method includes performing a pre-search and compare on a small number of pre-search bits with pre-search CAM cells powered to normal voltage levels at all times while the main-search CAM cells are powered to a lower voltage level. Only if a match is detected on the pre-search bits are the main-search CAM cells powered-up to normal voltage levels and the search of the main-search bits activated. The main-search CAM cells are powered to normal voltage levels during read and write operations. | 07-10-2014 |
20140210136 | BINDING BISPHENOL A IN A POLYCARBONATE CONTAINER - Embodiments of the disclosure provide a method for removing residual BPA from a residual BPA-containing substance and a method for making a container with residual BPA removed. The method may consist of preparing a stabilization reagent, wherein water is removed from the stabilization reagent. The method may also include preparing the residual BPA-containing substance. The method may also include reacting the residual BPA-containing substance in a melt condensation process with the stabilization reagent, wherein the stabilization reagent is non-toxic. | 07-31-2014 |
20140293679 | MANAGEMENT OF SRAM INITIALIZATION - An embodiment of the current disclosure is directed to a Static Random Access Memory (SRAM) device, and a design structure for the SRAM device. The SRAM device may include one or more SRAM cells. Each SRAM cell may further include a first and a second CMOS inverter that are cross-coupled. The first and second CMOS inverters may each have a first switch and a second switch. The SRAM device may also include a reset circuit. The reset circuit may be coupled to a first node of the first switch of the first CMOS inverter. The reset circuit may drive the first CMOS inverter to output a logical high signal in a reset mode. | 10-02-2014 |
20150048154 | DETECTING WATER INTRUSION IN ELECTRONIC DEVICES - A device includes a device casing and a water-soluble circuit located within the device casing. An identification code is encoded on the circuit. The identification code is associated with the device. | 02-19-2015 |
20150055389 | SELF-TIMED, SINGLE-ENDED SENSE AMPLIFIER - An integrated circuit including a sense amplifier connected to a sense line is provided. The sense amplifier is configured to end a precharge phase of the sense line based on a state of the sense amplifier. | 02-26-2015 |
20150061712 | IMPLEMENTING LOW TEMPERATURE WAFER TEST - A method and structure are provided for implementing low temperature wafer testing of a completed wafer. A coolant gel is applied to the completed wafer, the gel coated wafer is cooled and one or more electrical test probes are applied through the gel to electrical contacts of the cooled wafer, and testing is performed. | 03-05-2015 |
20150130510 | LEAKAGE REDUCTION IN OUTPUT DRIVER CIRCUITS - An output driver circuit may include a electrically conductive medium, an output logic inverter having a first switch adapted to couple a first positive supply voltage to the electrically conductive medium and a second switch adapted to couple a ground supply voltage to the conductive medium. A first biasing network includes a first input that is coupled to the conductive medium, a second input that receives a clock signal, and a first output that is adapted to couple a second positive supply voltage to each input of the first and the second switch. Based on the second switch coupling the conductive medium to the ground supply voltage and the received clock signal generating a logic low, the biasing network reverse biases the first switch by coupling the second positive supply voltage to the respective input of the first switch causing a leakage current reduction in the first switch. | 05-14-2015 |
20150179261 | PARTIAL UPDATE IN A TERNARY CONTENT ADDRESSABLE MEMORY - A TCAM may have a plurality of rows of cells. Each row may have a match line. Each cell may have elements for storing first and second bits, and compare circuitry associated to determine matches between a bit of a search word and data stored in the cell. For at least one first row of the rows, the TCAM includes a valid row cell having at least one element to store a partial update indication. The valid row cell may cause the match line associated with the first row to signal that the first row does not match a search word when the partial update indication associated with the first row is enabled. When the partial update indication associated with the first row is disabled, the determination of matches with a search word is performed solely by the compare circuitry wi thout influence of the valid row cell. | 06-25-2015 |
20150179262 | PARTIAL UPDATE IN A TERNARY CONTENT ADDRESSABLE MEMORY - A TCAM may have a plurality of rows of cells. Each row may have a match line. Each cell may have elements for storing first and second bits, and compare circuitry associated to determine matches between a bit of a search word and data stored in the cell. For at least one first row of the rows, the TCAM includes a valid row cell having at least one element to store a partial update indication. The valid row cell may cause the match line associated with the first row to signal that the first row does not match a search word when the partial update indication associated with the first row is enabled. When the partial update indication associated with the first row is disabled, the determination of matches with a search word is performed solely by the compare circuitry without influence of the valid row cell. | 06-25-2015 |
20150194194 | SINGLE-ENDED SENSING CIRCUITS FOR SIGNAL LINES - Disclosed are single-ended sensing circuits. Each of the sensing circuits comprises at least a sense amplifier connected to a sense node, an isolation field effect transistor (FET) connected in series between the sense node and a signal line node, and a pre-charged device connected to the sense node. In order to achieve a relatively fast pre-charge of both the sense and signal line nodes and to also achieve a relatively fast and accurate sense of the sense node, the single-ended circuits further incorporate a variable reference voltage generator connected to the gate of the isolation FET for selectively applying different reference voltages to the gate during pre-charging and sensing operations, respectively, and/or a second pre-charge device connected to the signal line node for facilitating pre-charging of that signal line node. | 07-09-2015 |
20150349778 | LEVEL SHIFTER FOR A TIME-VARYING INPUT - A level shifter circuit for coupling a first circuit, that uses a first supply voltage, with a second circuit, that uses a second supply voltage, includes an input node to receive an input signal and an output node to output to a level-shifted output signal corresponding with the input signal. An idle state on the input node corresponds with a particular binary logic value that is maintained for a first time period, and which is detected by a detection sub-circuit. Further, the level shifter circuit includes a first inverter that uses the second supply voltage, and has a feedback path between the input and output of the first inverter. The feedback path includes a first resistive element and a first transmission gate. The first transmission gate is configurable to open the feedback path when the detection sub-circuit detects an idle state on the input node of the level shifter circuit. | 12-03-2015 |
20150349779 | LEVEL SHIFTER FOR A TIME-VARYING INPUT - A level shifter circuit for coupling a first circuit, that uses a first supply voltage, with a second circuit, that uses a second supply voltage, includes an input node to receive an input signal and an output node to output to a level-shifted output signal corresponding with the input signal. An idle state on the input node corresponds with a particular binary logic value that is maintained for a first time period, and which is detected by a detection sub-circuit. Further, the level shifter circuit includes a first inverter that uses the second supply voltage, and has a feedback path between the input and output of the first inverter. The feedback path includes a first resistive element and a first transmission gate. The first transmission gate is configurable to open the feedback path when the detection sub-circuit detects an idle state on the input node of the level shifter circuit. | 12-03-2015 |