Class / Patent application number | Description | Number of patent applications / Date published |
365189080 | Including specified plural element logic arrangement | 20 |
20090086553 | Semiconductor memory device and method of inputting and outputting data in the semiconductor memory device - A semiconductor memory device includes a memory cell array and an input/output path circuit. The input/output path circuit performs an input/output line pre-charge operation at a write end time point and outputs data stored in the memory cell array when the semiconductor memory device is operated in a read mode. | 04-02-2009 |
20090129174 | MULTI-PORT THIN-FILM MEMORY DEVICES - In a first aspect, a semiconductor storage device, comprising: a metal line coupled to a gate of an access transistor, wherein the gate material is deposited substantially above the metal line. In a second aspect, a semiconductor storage device, comprising: a first port to write data to a storage element; and a second port to read a signal generated by the storage element; and a first metal line coupled to a gate of an access transistor coupled to the first port; and a second metal line coupled to a gate of an access transistor coupled to the second port; wherein, the gates of said access transistors are formed on a gate material deposited substantially above the metal of first and second metal lines. | 05-21-2009 |
20090141564 | MEMORY REGISTER DEFINITION SYSTEMS AND METHODS - Apparatus, systems, and methods are disclosed that operate to encode register bits to generate encoded bits such that, for pairs of addresses, an encoded bit to be coupled to a first address in a memory device may be exchanged with an encoded bit to be coupled to a second address in the memory device. Apparatus, systems, and methods are disclosed that operate to invert encoded bits in logic circuits in the memory device if original bits were inverted. Additional apparatus, systems, and methods are disclosed. | 06-04-2009 |
20090185433 | Semiconductor Device - A semiconductor device may include a first logic unit for performing a logic operation with respect to a plurality of first control signals, each of which indicates whether a corresponding one of a plurality of banks of the semiconductor device is in an active state, a refresh detector for outputting a second control signal which is enabled when at least one of the banks performs a self-refresh operation or auto-refresh operation, and a second logic unit for performing a logic operation with respect to an output signal from the first logic unit and the second control signal to generate a third control signal having information about activation of the semiconductor device. The third control signal is enabled when at least one of the banks performs the self-refresh operation or auto-refresh operation even though it is in the active state. | 07-23-2009 |
20090207672 | SYNCHRONOUS MEMORY DEVICES AND CONTROL METHODS FOR PERFORMING BURST WRITE OPERATIONS - Synchronous memory devices and control methods for performing burst write operations are disclosed. In one embodiment, a synchronous memory device for controlling a burst write operation comprises a first buffer circuit for buffering a first control signal requesting an exit from the burst write operation in synchronization with a clock signal associated with the burst write operation, and a latch circuit for performing a reset in response to the first control signal forwarded by the first buffer circuit, wherein the reset triggers the exit from the burst write operation. | 08-20-2009 |
20090207673 | SEMICONDUCTOR INTEGRATED CIRCUIT WITH MULTI TEST - A semiconductor integrated circuit includes a multi-mode control signal generating unit configured to control an activation of a up/down mat I/O switch control signal, which controls I/O switches in a up/down mat, according to a multi-test mode signal and a read/write discriminating signal, a multi-mode decoder configured to output multi-mat select signals to simultaneously activate a plurality of mats according to a multi-test mode active write signal, and a mat controller configured to enable word lines and the I/O switches according to the up/down mat I/O switch control signal and the multi-mat select signals. | 08-20-2009 |
20090244991 | SEMICONDUCTOR MEMORY DEVICE - A semiconductor memory device comprises a first exclusive-OR circuit which compares mth N-bit first data with (m+1)th N-bit second data, a majority circuit which generates flag data to invert the second data if a comparison result of the first exclusive-OR circuit indicates that the number of mismatch bits between the first data and the second data is not less than N/2, and generates flag data to noninvert the second data if the number of mismatch bits between the first data and the second data is less than N/2, a second exclusive-OR circuit which inverts or noninverts the second data based on the flag data, a shift register which stores the flag data generated by the majority circuit, and a pad to serially output both the inverted or noninverted second data and the flag data. | 10-01-2009 |
20100061161 | Self Reset Clock Buffer In Memory Devices - A memory device includes a clock buffer circuit. The clock buffer circuit includes a cross-coupled logic circuit. The cross-coupled logic circuit has at least two logic gates in which an output of at least one of the logic gates is coupled to an input of at least one of the logic gates. The cross-coupled logic circuit is coupled to an input for accepting a clock signal. The memory device also includes a clock driver operable to generate a clock signal from the output of the cross-coupled logic circuit. A feedback loop from the clock signal to the cross-coupled logic circuit controls the cross-coupled logic circuit. A buffer circuit including a tri-state inverter is coupled to the clock signal to maintain the clock signal while avoiding contention with the clock generator. The memory device is enabled by a chip select signal. | 03-11-2010 |
20100074032 | MEMORY HAVING SELF-TIMED BIT LINE BOOST CIRCUIT AND METHOD THEREFOR - A memory has an array of memory cells, column logic, a write driver, a voltage detector, and a bootstrap circuit. The array of memory cells is coupled to pairs of bit lines and word lines. The column logic is coupled to the array and is for coupling a selected pair of bit lines to a pair of data lines. The write driver is coupled to the pair of data lines. The voltage detector provides an initiate boost signal when a voltage of a first data line of the pair of data lines drops below a first level during the writing of the pair of data lines by the write driver. The bootstrap circuit reduces the voltage of the first data line in response to the boost enable signal. This is particularly beneficial when the number of memory cells on a bit line can vary significantly as in a compiler. | 03-25-2010 |
20100118621 | Implementing Variation Tolerant Memory Array Signal Timing - A method and signal timing adjustment circuit for implementing variation tolerant memory array signal timing, and a design structure on which the subject circuit resides are provided. A logic circuit generates a first delay signal based upon logic devices forming the logic circuit. A memory cell circuit receives the first delay signal and generates control signals responsive to the first delay signal and based upon memory cell devices forming the memory cell circuit. A programmable logic delay circuit receives the control signals and generates a timing adjustment signal. | 05-13-2010 |
20100128540 | SEMICONDUCTOR MEMORY APPARATUS AND TEST CIRCUIT THEREFOR - A test circuit for a semiconductor memory apparatus of an open bit-line structure includes a compression part configured to, in response to test data read from a plurality of memory cells included in a test target cell mat and a compression control signal generated from a compression control signal generating part, compress the test data that are read from the memory cells that share a sense amplifier block and sequentially output compression test signals. | 05-27-2010 |
20110141826 | Cache Array Power Savings Through a Design Structure for Valid Bit Detection - A mechanism is provided for gating a read access of any row in a cache access memory that has been invalidated. An address decoder in the cache access memory sends a memory access to a non-gated wordline driver and a gated wordline driver associated with the memory access. The non-gated wordline driver outputs the data stored in a valid bit memory cell to the gated wordline driver in response to the non-gated wordline driver determining the memory access as a read access. The gated wordline driver determines whether the data from the valid bit memory cell from the non-gated wordline driver indicates either valid data or invalid data in response to the gated wordline driver determining the memory access as a read access and denies an output of the data in a row of memory cells associated with the gated wordline driver in response to the data being invalid. | 06-16-2011 |
20110273938 | CIRCUIT AND METHOD FOR CONTROLLING A CLOCK SYNCHRONIZING CIRCUIT FOR LOW POWER REFRESH OPERATION - A method and apparatus is provided for idling a clock synchronizing circuit during at least a portion of time during execution of a refresh operation in a memory device. In a memory device receiving an external clock signal, a method and apparatus for executing a refresh operation is provided that includes initiating at least one refresh operation in the memory device, and ceasing generation of an internal clock signal timed with respect to the external clock signal for at least a portion of the time in which at least one refresh operation takes to complete. | 11-10-2011 |
20120106268 | SYNCHRONOUS TYPE SEMICONDUCTOR STORAGE DEVICE AND DRAM - A synchronous type semiconductor storage device includes an array unit which includes a cell array and sense amplifiers. The synchronous type semiconductor storage device includes a read/write pulse generator which generates a read pulse signal and a write pulse signal according to a clock signal, the clock signal defining one cycle time of a read operation and a write operation with respect to the array unit as one cycle. The synchronous type semiconductor storage device includes a secondary amplifier which is activated according to the read pulse signal to read out data stored in the sense amplifiers through the read/write line. The synchronous type semiconductor storage device includes a write driver which is activated according to the write pulse signal to write data in the sense amplifiers through the read/write line. | 05-03-2012 |
20120170387 | DEVICE FOR GENERATING A TEST PATTERN OF A MEMORY CHIP AND METHOD THEREOF - A method of generating a test pattern of a memory chip includes generating and outputting a pattern enabling signal according to a first pattern signal and a second pattern signal, generating and outputting a first pre-input-output signal and a second pre-input-output signal according to a memory bank signal, a section signal, and the pattern enabling signal, executing an exclusive-OR logic operation on a third input-output signal and the second pattern signal to generate and output a first enabling signal, generating and outputting a first input-output signal and a second input-output signal according to the first enabling signal, the first pre-input-output signal and the second pre-input-output signal, and writing a predetermined logic voltage to each memory cell of the memory chip according to the first input-output signal and the second input-output signal. | 07-05-2012 |
20120320689 | Performing Logic Functions on More Than One Memory Cell Within an Array of Memory Cells - A circuit structure is provided for performing a logic function within a memory. A plurality of read word line transistors are provided that receive a read word line signal and, upon receiving the read word line signal, the plurality of read word line transistors provide a path from a plurality of bit-line transistors associated with a plurality of physically adjacent memory cells to a read bit-line. In response to an associated memory cell within the memory storing a first value, each of the plurality of read bit-line transistors turns on and provides a path to ground thereby causing a first output value to be output on the read bit-line. In response to all of the plurality of memory cells storing a second value, the plurality of read bit-line transistors turn off thereby preventing a path to ground and a second output value is output on the read bit-line. | 12-20-2012 |
20140211572 | Nonvolatile Logic Array with Built-In Test Result Signal - A system on chip (SoC) provides a nonvolatile memory array that is configured as n rows by m columns of bit cells. Each of the bit cells is configured to store a bit of data. There are m bit lines each coupled to a corresponding one of the m columns of bit cells. There are m write drivers each coupled to a corresponding one of the m bit lines. An AND gate is coupled to the m bit lines and has an output line coupled to an input of a test controller on the SoC. An OR gate is coupled to the m bit lines and has an output line coupled to an input of the test controller. | 07-31-2014 |
20150357020 | APPARATUSES AND METHODS FOR PERFORMING AN EXCLUSIVE OR OPERATION USING SENSING CIRCUITRY - The present disclosure includes apparatuses and methods related to determining an XOR value in memory. An example method can include performing a NAND operation on a data value stored in a first memory cell and a data value stored in a second memory cell. The method can include performing an OR operation on the data values stored in the first and second memory cells. The method can include performing an AND operation on the result of the NAND operation and a result of the OR operation without transferring data from the memory array via an input/output (I/O) line. | 12-10-2015 |
20160035412 | FAIL-SAFE I/O TO ACHIEVE ULTRA LOW SYSTEM POWER - The disclosure provides an input/output (IO) circuit powered by an input/output (IO) supply voltage. The IO circuit includes a cutoff circuit that receives a first invert signal, the IO supply voltage, a bias voltage and a pad voltage. An output stage is coupled to the cutoff circuit. The output stage receives a first signal, a second signal and the bias voltage. A pad is coupled to the output stage, and a voltage generated at the pad is the pad voltage. The cutoff circuit and the output stage maintain the pad voltage at logic high when the IO supply voltage transition below a defined threshold. | 02-04-2016 |
20160086640 | RECONFIGURABLE SEMICONDUCTOR INTEGRATED CIRCUIT AND ELECTRONIC DEVICE - According to an embodiment, a reconfigurable semiconductor integrated circuit includes first and second blocks. The first block includes first memories; and second memories; a selector selecting one first memory and one second memory; a first logic circuit whose logic is determined according to data read from the selected first memory; and a first switch circuit that is connected to first wires and switches connection between the first wires according to data read from the selected second memory, a part of the first wires being connected to the first logic circuit. The second block includes third and fourth memories; a second logic circuit whose logic is determined according to data read from the third memory; and a second switch circuit that is connected to second wires and switches connection between the second wires according to data read from the fourth memory, a part of the second wires being connected to the second logic circuit. | 03-24-2016 |