Abstract: An access circuit selectively couples an externally accessible terminal to each of a plurality of isolated DRAM wells in which respective DRAM arrays are fabricated. The access circuit for each well includes first and second transistors fabricated in respective wells coupled between the externally accessible terminal and a respective one of the DRAM wells. The well of the first transistor is coupled to the externally accessible terminal, and the well of the other transistor is coupled to a respective DRAM well. A control circuit applies select signals to gate electrodes of the first and second transistors. The control circuit includes respective shunt transistors that shunt the gate electrodes to the source regions of the first and second transistors when the transistors are turned off to isolate the respective DRAM wells from the external terminal regardless of the magnitude and polarity of a test voltage applied to the externally accessible terminal.

Abstract: A semiconductor memory device that reduces the time for conducting a multiple word line selection test and operates stably. The semiconductor memory device includes memory cell blocks, row decoders, sense amps, block control circuits, and sense amp drive circuits. Each block control circuit generates a reset signal. The reset signal is used to select the word lines with the row decoders at timings that differ between the blocks. Each block control circuit provides the reset signal to the associated row decoder. The block control circuit also provides the reset signal to the associated sense amp drive circuit so that the sense amps are inactivated at timings that differ between the blocks.

Abstract: A ferroelectric memory device comprises a plurality of subarrays having a plurality of bitlines and a plurality of wordlines crossing over the bitlines. Ferroelectric material is disposed between the wordlines and the bitlines to define a ferroelectric cell at each crossing of the wordlines and bitlines. Each subarray further comprises left and right voltage converters disposed on opposite sides thereof, to drive respective first and second sets of wordlines within the subarray. A plurality of global wordlines are couple to the left and right voltage converters of each subarray and are configured to establish the drive levels for respective wordlines of the subarrays. A bitline multiplexer selectively couples the bitlines of a select subarray to a plurality of sense amplifiers.

Abstract: Normal memory cells are arranged in rows and columns, and dummy memory cells are arranged to form dummy memory cell rows by sharing memory cell columns with the normal memory cells. When there is at least one defect in the normal memory cells and/or the dummy memory cells, replacement/repair is carried out using a redundant column in a unit of memory cell column. The redundant column includes not only spare memory cells for repair of the normal memory cells but also spare dummy memory cells for repair of the dummy memory cells.

Abstract: Integrated circuit memory devices support write and read burst modes of operation with uniformly short interconnect paths that provide high-speed memory access timing characteristics. These memory devices include a semiconductor chip having a memory core therein and at least N bond pads thereon. The memory core is configured to support a xN burst-M write mode of operation at QDR and/or DDR rates, where N is greater than four and M is greater than one. The memory core is further configured to support one-to-one mapping between burst-M write data received at each of the N bond pads and corresponding ones of N memory blocks in the memory core during the xN burst-M write mode of operation.

Abstract: A defect management enabled PIRM including a data storage medium providing a plurality of cross point data storage arrays. Each array provides a plurality of memory cells. The arrays are allocated into separate super arrays, the separate super arrays virtually aligned as sets. A controller is also provided, capable of establishing the selection of a virtually aligned set of arrays and a virtually aligned set of memory cells. The controller is operable during a write operation to receive a word of data bits and detect a defective array in the selected virtually aligned set of memory arrays. The controller is further capable of directing the allocation of at least one data bit from the defective memory array to a spare memory array.

Abstract: The number of fusible links and other circuit components required to provide memory cell redundancy are reduced by sharing physical memory locations among address banks that store memory addresses. Non-trial and error algorithms and techniques determine the number of addresses and the number of identical least significant bit (LSB) values that can share the same physical memory location. By sharing physical locations for identical LSB values, circuit hardware on a memory device (including fusible links and compare circuitry) is reduced. Thus, less die area is needed to provide the same degree of redundancy.

Abstract: A method to eliminate program deceleration and to enhance the resistance to program disturbance of a non-volatile floating gate memory cell is disclosed. This method eliminates or minimizes the impact of the hole displacement current. This can be done, for example, by increasing the rise time of the high programming voltage applied to the high voltage terminal. Alternatively, the transistor of the non-volatile floating gate memory cell can be turned off until the voltage applied to the high voltage terminal has reached the programming voltage. This can be done, for example by delaying the voltage applied to either the low voltage terminal or to the control gate to turn on the transistor until the voltage at the high voltage terminal has past the ramp up voltage and has reached a level programming voltage.

Abstract: An FCRAM includes first to third circuits. The first circuit generates a first signal based on a command detection signal. The second circuit is configured to receive the command detection signal, an operation mode specifying signal and a selection signal and generate a second signal which causes the start timing of the operation of a row-system circuit to be synchronized with the input timing of a second command. The third circuit is configured to select the first signal when a normal operation mode is specified by the operation mode specifying signal, select the second signal when a test mode is specified, and generate a third signal used to activate at least part of the memory cells in a memory cell array based on a selected one of the first and second signals and the selection signal.

Abstract: A circuit for comparing a first match line and a second match line in a CAM circuit. The circuit includes a first keeper circuit having a first input coupled to the second match line and a second keeper circuit having a second input coupled to the first match line. The circuit also includes a third keeper circuit and a fourth keeper circuit. The first and third keeper circuits are coupled to the first match line so as to be capable of maintaining a first voltage level on the first match line. The second and fourth keeper circuits are coupled to the second match line so as to be capable of maintaining a second voltage level on the second match line.

Abstract: The number of fusible links and other circuit components required to provide memory cell redundancy are reduced by sharing physical memory locations among address banks that store memory addresses. Non-trial and error algorithms and techniques determine the number of addresses and the number of identical least significant bit (LSB) values that can share the same physical memory location. By sharing physical locations for identical LSB values, circuit hardware on a memory device (including fusible links and compare circuitry) is reduced. Thus, less die area is needed to provide the same degree of redundancy.

Abstract: A tunnel magnetic resistive element forming a magnetic memory cell includes a fixed magnetic layer having a fixed magnetic field of a fixed direction, a free magnetic layer magnetized by an applied magnetic field, and a tunnel barrier that is an insulator film provided between the fixed and free magnetic layers in a tunnel junction region. In the free magnetic layer, a region corresponding to an easy axis region having characteristics desirable as a memory cell is used as the tunnel junction region. A hard axis region having characteristics undesirable as a memory cell is not used as a portion of the tunnel magnetic resistive element.

Abstract: An MRAM memory array includes a set of memory cell strings wherein each memory cell string has a voltage divider input, a bit-sense output, a voltage divider ground, and a bit-sense output control, a shared switched voltage line that is capable of applying a voltage to the voltage divider inputs of the memory cell strings in the set, a common bit-sense line operatively coupled to the bit-sense outputs of the memory cell strings, a bit-sense output control line that is capable of selectively connecting the bit-sense output of a memory cell string to the common bit-sense line, and a ground operatively coupled to the voltage divider grounds of the voltage divider grounds.

Abstract: The number of fusible links and other circuit components required to provide memory cell redundancy are reduced by sharing physical memory locations among address banks that store memory addresses. Non-trial and error algorithms and techniques determine the number of addresses and the number of identical least significant bit (LSB) values that can share the same physical memory location. By sharing physical locations for identical LSB values, circuit hardware on a memory device (including fusible links and compare circuitry) is reduced. Thus, less die area is needed to provide the same degree of redundancy.

Abstract: A nonvolatile semiconductor memory device includes a NAND cell with a plurality of electrically data rewritable memory cells being connected in series, word lines connected to control gates of the memory cells, a common source line connectable to one end of the NAND cell, a bit line connectable to a remaining end of the NAND cell, and a word line control circuit.

Abstract: Conductive memory array having page mode and burst mode write capability. The conductive memory array includes two-terminal memory plugs and driver circuits configured to write information to the memory plugs in two cycles. The array also includes associated circuitry that allows it to carry out such two-cycle writes in either page mode or burst mode.

Abstract: Auto-tracking bit line reference schemes have common reference and normal word lines and generate a “½ cell current” reference by providing reference bit lines with pull-up devices having a different effective size from the pull-up devices for bit line or by programming reference cells to different levels. To provide a true “current mirror” connection of the pull-up devices of bit line and one or more reference bit lines, an additional bias bit line causes currents through the pull-up devices for the selected bit line and the reference bit lines to mirror current through the pull-up device for the bias bit line. Embodiments of the invention can be used with binary and multiple-bit-per cell memory and with a variety of sense amplifiers, memory array architectures, and memory cell structures.

Abstract: A multiple matchline sense circuit for detecting a single, more than one, or no match conditions during a search-and-compare operation of a content addressable memory is disclosed. The circuit compares the rising voltage rate of a multiple matchline to the rising voltage rate of a reference multiple matchline in order to generate a multibit result representing one of the three conditions. The circuit generates a self-timed control signal to end the search-and-compare operation, and to set the circuit to a precharge state.

Abstract: Apparatus and method for data sensing circuitry that uses averaging to sense small differences in signal levels representing data states. The apparatus periodically switches the coupling of input terminals and output terminals of an integrator circuit from a first configuration to a second configuration, where the second configuration changes the polarity of the integrator circuit from the first configuration. The output signals of the integrator circuit are periodically compared, and based on the comparison, output signals having a voltage representative of a value are generated. The values of the output signals are then averaged over time to determine the data state.

Abstract: A memory cell has a selection transistor constituted of an MOS transistor having a gate electrode and a cell transistor constituted of an MOS transistor having the same polarity as the selection transistor, in such a configuration that these two transistors are connected in series. A bit line is connected to a drain region of the selection transistor and a word line is connected to the gate electrode thereof. A gate electrode of the cell transistor is not electrically connected anywhere so as to be in a floating potential state, while a drain region thereof is connected to a source region of the selection transistor. A source line is connected to a source region of the cell transistor.