Patent application number | Description | Published |
20100034009 | Asymmetric Write Current Compensation Using Gate Overdrive for Resistive Sense Memory Cells - Apparatus and associated method for asymmetric write current compensation for resistive sense memory (RSM) cells, such as but not limited to spin-torque transfer random access memory (STRAM) or resistive random access memory (RRAM) cells. In accordance with some embodiments, an RSM cell includes an RSM element coupled to a switching device. The switching device has a plurality of terminals. A control circuit compensates for asymmetric write characteristics of the RSM cell by limiting a range of voltage differentials across the terminals so as to be equal to or less than a magnitude of a source voltage applied to the switching device, thereby providing bi-directional write currents of substantially equal magnitude through the RSM element. | 02-11-2010 |
20100037102 | FAULT-TOLERANT NON-VOLATILE BUDDY MEMORY STRUCTURE - Various embodiments of the present invention are generally directed to an apparatus and method for providing a fault-tolerant non-volatile buddy memory structure, such as a buddy cache structure for a controller in a data storage device. A semiconductor memory array of blocks of non-volatile resistive sense memory (RSM) cells is arranged to form a buddy memory structure comprising a first set of blocks in a first location of the array and a second set of blocks in a second location of the array configured to redundantly mirror the first set of blocks. A read circuit decodes a fault map which identifies a defect in a selected one of the first and second sets of blocks and concurrently outputs data stored in the remaining one of the first and second sets of blocks responsive to a data read operation upon said buddy memory structure. | 02-11-2010 |
20100091550 | Voltage Reference Generation with Selectable Dummy Regions - Various embodiments of the present invention are generally directed to an apparatus and associated method for generating a reference voltage with dummy resistive sense element regions. A first resistance distribution is obtained for a first dummy region of resistance sense elements and a second resistance distribution is obtained for a second dummy region of resistive sense elements. A user resistive sense element from a user region is assigned to a selected resistive sense element of one of the first or second dummy regions in relation to the first and second resistance distributions. | 04-15-2010 |
20100095052 | DATA UPDATING IN NON-VOLATILE MEMORY - Various embodiments of the present invention are generally directed to an apparatus and associated method for updating data in a non-volatile memory array. In accordance with some embodiments, a memory block is formed with a plurality of types of memory cell sectors arranged in data pages of a first type and log pages of a second type that can be updated in-place. A first updated sector is written to a first log page while maintaining an outdated sector in an original data page, and overwritten with a second updated sector. | 04-15-2010 |
20100097841 | Multi-Stage Parallel Data Transfer - Apparatus and associated method for transferring data to memory, such as resistive sense memory (RSM). In accordance with some embodiments, input data comprising a sequence of logical states are transferred to a block of memory by concurrently writing a first logical state from the sequence to each of a first plurality of unit cells during a first write step, and concurrently writing a second logical state from the sequence to each of a second non-overlapping plurality of unit cells during a second write step. | 04-22-2010 |
20100110763 | Write Current Compensation Using Word Line Boosting Circuitry - Apparatus and method for write current compensation in a non-volatile memory cell, such as but not limited to spin-torque transfer random access memory (STRAM) or resistive random access memory (RRAM). In accordance with some embodiments, a non-volatile memory cell has a resistive sense element (RSE) coupled to a switching device, the RSE having a hard programming direction and an easy programming direction opposite the hard programming direction. A voltage boosting circuit includes a capacitor which adds charge to a nominal non-zero voltage supplied by a voltage source to a node to generate a temporarily boosted voltage. The boosted voltage is applied to the switching device when the RSE is programmed in the hard programming direction. | 05-06-2010 |
20100110785 | Memory Cell With Proportional Current Self-Reference Sensing - Various embodiments of the present invention are generally directed to a method and apparatus for sensing a programmed state of a memory cell, such as a spin-torque transfer random access memory (STRAM) cell. A first read current is applied to the memory cell to generate a first voltage. A second read current is subsequently applied to the memory cell to generate a second voltage, with the second read current being proportional in magnitude to the first read current. A comparison is made between the first and second voltages to determine the programmed state of the memory cell. | 05-06-2010 |
20100118579 | Nand Based Resistive Sense Memory Cell Architecture - Various embodiments are directed to an apparatus comprising a semiconductor memory array with non-volatile memory unit cells arranged into a NAND block. Each of the unit cells comprises a resistive sense element connected in parallel with a switching element. The resistive sense elements are connected in series to form a first serial path, and the switching elements are connected in series to form a second serial path parallel to the first serial path. Each resistive sense element is serially connected to an adjacent resistive sense element in the block by a tortuous conductive path having a portion that extends substantially vertically between said elements to provide operational isolation therefor. | 05-13-2010 |
20100118587 | RESISTIVE SENSE MEMORY ARRAY WITH PARTIAL BLOCK UPDATE CAPABILITY - Various embodiments of the present invention are generally directed to a method and apparatus for carrying out a partial block update operation upon a resistive sense memory (RSM) array, such as formed from STRAM or RRAM cells. The RSM array is arranged into multi-cell blocks (sectors), each block having a physical block address (PBA). A first set of user data is written to a selected block at a first PBA. A partial block update operation is performed by writing a second set of user data to a second block at a second PBA, the second set of user data updating a portion of the first set of user data in the first PBA. The first and second blocks are thereafter read to retrieve the second set of user data and a remaining portion of the first set of user data. | 05-13-2010 |
20100118588 | VOLTAGE REFERENCE GENERATION FOR RESISTIVE SENSE MEMORY CELLS - Various embodiments of the present invention are generally directed to an apparatus and associated method for generating a reference voltage for a resistive sense memory (RSM) cell, such as an STRAM cell. A dummy reference cell used to generate a reference voltage to sense a resistive state of an adjacent RSM cell. The dummy reference cell comprises a switching device, a resistive sense element (RSE) programmed to a selected resistive state, and a dummy resistor coupled to the RSE. A magnitude of the reference voltage is set in relation to the selected resistive state of the RSE and the resistance of the dummy resistor. | 05-13-2010 |
20100118602 | DOUBLE SOURCE LINE-BASED MEMORY ARRAY AND MEMORY CELLS THEREOF - A memory array includes a plurality of first and second source, lines overlapping a plurality of bit lines, and a plurality of magnetic storage elements, each coupled to a corresponding first and second source line and to a corresponding bit line. Current may be driven, in first and second directions, through each magnetic element, for example, to program the elements. Diodes may be incorporated to avert sneak paths in the memory array. A first diode may be coupled between each magnetic element and the corresponding first source line, the first diode being biased to allow read and write current flow through the magnetic element, from the corresponding first source line; and a second diode may be coupled between each magnetic element and the corresponding second source line, the second diode being reverse-biased to block read and write current flow through the magnetic element, from the corresponding second source line. | 05-13-2010 |
20100124095 | Floating Source Line Architecture for Non-Volatile Memory - A method and apparatus for writing data to a non-volatile memory cell, such as an RRAM memory cell. In some embodiments, a semiconductor array of non-volatile memory cells comprises a resistive sense element (RSE) and a switching device. A RSE of a plurality of memory cells is connected to a bit line while the switching device of a plurality of memory cells is connected to a word line and operated to select a memory cell. A source line is connected to the switching device and connects a series of memory cells together. Further, a driver circuit is connected to the bit line and writes a selected RSE of a selected source line to a selected resistive state by passing a write current along a write current path that passes through the selected RSE and through at least a portion of the remaining RSE connected to the selected source line. | 05-20-2010 |
20100153646 | MEMORY HIERARCHY WITH NON-VOLATILE FILTER AND VICTIM CACHES - Various embodiments of the present invention are generally directed to an apparatus and method for non-volatile caching of data in a memory hierarchy of a data storage device. In accordance with some embodiments, a pipeline memory structure is provided to store data for use by a controller. The pipeline has a plurality of hierarchical cache levels each with an associated non-volatile filter cache and a non-volatile victim cache. Data retrieved from each cache level are respectively promoted to the associated non-volatile filter cache. Data replaced in each cache level are respectively demoted to the associated non-volatile victim cache. | 06-17-2010 |
20100177551 | BIT SET MODES FOR A RESISTIVE SENSE MEMORY CELL ARRAY - Various embodiments of the present invention are generally directed to a method and apparatus for providing different bit set modes for a resistive sense memory (RSM) array, such as a spin-torque transfer random access memory (STRAM) or resistive random access memory (RRAM) array. In accordance with some embodiments, a group of RSM cells in a non-volatile semiconductor memory array is identified for application of a bit set operation. A bit set value is selected from a plurality of bit set values each separately writable to the RSM cells to place said cells in a selected resistive state. The selected bit set value is thereafter written to at least a portion of the RSM cells in the identified group. | 07-15-2010 |
20100177562 | COMPUTER MEMORY DEVICE WITH MULTIPLE INTERFACES - Various embodiments are generally directed to a method and apparatus associated with operating a first memory device with multiple interfaces and a status register. In some embodiments, a first interface is engaged by a host. A memory device that has a plurality of memory cells comprised of at least a magnetic tunneling junction and a spin polarizing magnetic material is connected to a second interface. A status register is maintained by logging at least an error or busy signal during data transfer operations through the first and second interfaces. | 07-15-2010 |
20100188883 | Simultaneously Writing Multiple Addressable Blocks of User Data to a Resistive Sense Memory Cell Array - Method and apparatus are disclosed for storing data to non-volatile resistive sense memory (RSM) memory cells of a semiconductor memory array, including but not limited to resistive random access memory (RRAM) and spin-torque transfer random access memory (STTRAM or STRAM) cells. In accordance with various embodiments, a plurality of addressable data blocks from a host device are stored in a buffer. At least a portion of each of the addressable data blocks are serially transferred to a separate register of a plurality of registers. The transferred portions of said addressable data blocks are thereafter simultaneously transferred from the registers to selected RSM cells of the array. | 07-29-2010 |
20100195380 | Non-Volatile Memory Cell with Precessional Switching - A method and apparatus for writing data to a non-volatile memory cell, such as a spin-torque transfer random access memory (STRAM) memory cell. In some embodiments, a selected resistive state is written to a magnetic tunneling structure by applying a succession of indeterminate write pulses thereto until the selected resistive state is verified. | 08-05-2010 |
20100232206 | NON-VOLATILE MEMORY READ/WRITE VERIFY - An apparatus and associated method for writing data to a non-volatile memory cell, such as a resistive random access memory (RRAM) cell. In some embodiments, a control circuitry is configured to write a logic state to a resistive sense element while simultaneously verifying the logic state of the resistive sense element. | 09-16-2010 |
20100238721 | Stuck-At Defect Condition Repair for a Non-Volatile Memory Cell - A method and apparatus for repairing a stuck-at defect condition in a non-volatile memory cell, such as a spin-torque transfer random access memory (STRAM). In some embodiments, a resistive sense element has a magnetic tunneling junction (MTJ) and a repair plane located adjacent to the resistive sense element. The repair plane injects a magnetic field in the MTJ to repair a stuck-at defect condition. | 09-23-2010 |
20100246250 | Pipeline Sensing Using Voltage Storage Elements to Read Non-Volatile Memory Cells - Various embodiments are generally directed to a method and apparatus for carrying out a pipeline sensing operation. In some embodiments, a read voltage from a first memory cell is stored in a voltage storage element (VSE) and compared to a reference voltage to identify a corresponding memory state of the first memory cell while a second read voltage from a second memory cell is stored in a second VSE. In other embodiments, bias currents are simultaneously applied to a first set of memory cells from the array while read voltages generated thereby are stored in a corresponding first set of VSEs. The read voltages are sequentially compared with at least one reference value to serially output a logical sequence corresponding to the memory states of the first set of memory cells while read voltages are stored for a second set of memory cells in a second set of VSEs. | 09-30-2010 |
20100246251 | Predictive Thermal Preconditioning and Timing Control for Non-Volatile Memory Cells - A method and apparatus for using thermal preconditioning to write data to a non-volatile memory cell, such as a spin-torque transfer random access memory (STRAM) memory cell. In some embodiments, a logical state is written to an unconditioned non-volatile first memory cell associated with a first block address. Thermal preconditioning is concurrently applied to a non-volatile second memory cell associated with a second block address selected in response to the first block address. | 09-30-2010 |
20100271875 | Compensating for Variations in Memory Cell Programmed State Distributions - Method and apparatus for compensating for variations in memory cell programmed state distributions, such as but not limited to a non-volatile memory formed of NAND configured Flash memory cells. In accordance with various embodiments, a memory block is formed from a plurality of memory cells that are arranged into rows and columns within the memory block, each memory cell configured to have a programmed state. A selected row of the memory block is read by concurrently applying a stepped sequence of threshold voltages to each memory cell along the selected row while sequentially decoupling read current from groups of memory cells along the selected row as the programmed states of said groups of cells are successively determined. | 10-28-2010 |
20100302849 | NAND FLASH MEMORY WITH INTEGRATED BIT LINE CAPACITANCE - Method and apparatus for outputting data from a memory array having a plurality of non-volatile memory cells arranged into rows and columns. In accordance with various embodiments, charge is stored in a volatile memory cell connected to the memory array, and the stored charge is subsequently discharged from the volatile memory cell through a selected column. In some embodiments, the volatile memory cell is a dynamic random access memory (DRAM) cell from a row of said cells with each DRAM cell along the row coupled to a respective column in the memory array, and each column of non-volatile memory cells comprises Flash memory cells connected in a NAND configuration. | 12-02-2010 |
20110007548 | Hierarchical Cross-Point Array of Non-Volatile Memory - A method and apparatus for reading data from a non-volatile memory cell. In some embodiments, a cross-point array of non-volatile memory cells is arranged into rows and columns. A selection circuit is provided that is capable of activating the first block of memory cells while deactivating the second block of memory cells. Further, a read circuit is provided that is capable of reading a logical state of a predetermined memory cell in the first block of memory cells with a reduced leak current by programming a first resistive state to the block selection elements corresponding to the first block of memory cells while programming a second resistive state to the block selection elements corresponding to the second block of memory cells. | 01-13-2011 |
20110007581 | Current Cancellation for Non-Volatile Memory - A method and apparatus for reading data from a non-volatile memory cell. In some embodiments, a cross-point array of non-volatile memory cells is arranged into rows and columns that are each controlled by a line driver. A read circuit is provided that is capable of reading a logical state of a predetermined memory cell by differentiating a non-integrated first reference value from a non-integrated second reference value. Further, each reference value is measured immediately after configuring the column corresponding to the predetermined memory cell to produce a first and second amount of current. | 01-13-2011 |
20110007588 | Defective Bit Scheme for Multi-Layer Integrated Memory Device - Various embodiments of the present invention are generally directed to an apparatus and associated method for handling defective bits in a multi-layer integrated memory device. In accordance with some embodiments, the multi-layer integrated memory device is formed from a plurality of vertically stacked semiconductor layers each having a number of storage sub-arrays and redundant sub-arrays. Each semiconductor layer is tested to determine a defect rate for each array, and a defective portion of a first semiconductor layer having a relatively higher defect rate is stored to a redundant sub-array of a second semiconductor layer having a relatively lower defect rate. | 01-13-2011 |
20110007597 | Semiconductor Control Line Address Decoding Circuit - Apparatus and method for decoding addresses of control lines in a semiconductor device, such as a solid state memory (SSM). In accordance with some embodiments, a switching circuit includes an array of switching devices coupled to 2 | 01-13-2011 |
20110019466 | Stuck-At Defect Condition Repair for a Non-Volatile Memory Cell - A method and apparatus for repairing a stuck-at defect condition in a non-volatile memory cell, such as a spin-torque transfer random access memory (STRAM). In some embodiments, a resistive sense element has a magnetic tunneling junction (MTJ) and a repair plane located adjacent to the resistive sense element. The repair plane injects a magnetic field in the MTJ to repair a stuck-at defect condition. | 01-27-2011 |
20110029714 | RESISTIVE SENSE MEMORY ARRAY WITH PARTIAL BLOCK UPDATE CAPABILITY - Various embodiments of the present invention are generally directed to a method and apparatus for carrying out a partial block update operation upon a resistive sense memory (RSM) array, such as formed from STRAM or RRAM cells. The RSM array is arranged into multi-cell blocks (sectors), each block having a physical block address (PBA). A first set of user data is written to a selected block at a first PBA. A partial block update operation is performed by writing a second set of user data to a second block at a second PBA, the second set of user data updating a portion of the first set of user data in the first PBA. The first and second blocks are thereafter read to retrieve the second set of user data and a remaining portion of the first set of user data. | 02-03-2011 |
20110032749 | NAND Based Resistive Sense Memory Cell Architecture - Various embodiments are directed to an apparatus comprising a semiconductor memory array with non-volatile memory unit cells arranged into a NAND block. Each of the unit cells comprises a resistive sense element connected in parallel with a switching element. The resistive sense elements are connected in series to form a first serial path, and the switching elements are connected in series to form a second serial path parallel to the first serial path. Each resistive sense element is serially connected to an adjacent resistive sense element in the block by a tortuous conductive path having a portion that extends substantially vertically between said elements to provide operational isolation therefor. | 02-10-2011 |
20110058405 | Memory Cell With Proportional Current Self-Reference Sensing - Various embodiments of the present invention are generally directed to a method and apparatus for sensing a programmed state of a memory cell, such as a spin-torque transfer random access memory (STRAM) cell. A first read current is applied to the memory cell to generate a first voltage. A second read current is subsequently applied to the memory cell to generate a second voltage, with the second read current being proportional in magnitude to the first read current. A comparison is made between the first and second voltages to determine the programmed state of the memory cell. | 03-10-2011 |
20110080768 | WRITE CURRENT COMPENSATION USING WORD LINE BOOSTING CIRCUITRY - Apparatus and method for write current compensation in a non-volatile memory cell, such as but not limited to spin-torque transfer random access memory (STRAM) or resistive random access memory (RRAM). In accordance with some embodiments, a non-volatile memory cell has a resistive sense element (RSE) coupled to a switching device, the RSE having a hard programming direction and an easy programming direction opposite the hard programming direction. A voltage boosting circuit includes a capacitor which adds charge to a nominal non-zero voltage supplied by a voltage source to a node to generate a temporarily boosted voltage. The boosted voltage is applied to the switching device when the RSE is programmed in the hard programming direction. | 04-07-2011 |
20110080782 | WRITE CURRENT COMPENSATION USING WORD LINE BOOSTING CIRCUITRY - Apparatus and method for write current compensation in a non-volatile memory cell, such as but not limited to spin-torque transfer random access memory (STRAM) or resistive random access memory (RRAM). In accordance with some embodiments, a non-volatile memory cell has a resistive sense element (RSE) coupled to a switching device, the RSE having a hard programming direction and an easy programming direction opposite the hard programming direction. A voltage boosting circuit includes a capacitor which adds charge to a nominal non-zero voltage supplied by a voltage source to a node to generate a temporarily boosted voltage. The boosted voltage is applied to the switching device when the RSE is programmed in the hard programming direction. | 04-07-2011 |
20110116302 | Asymmetric Write Current Compensation Using Gate Overdrive for Resistive Sense Memory Cells - Apparatus and associated method for asymmetric write current compensation for resistive sense memory (RSM) cells, such as but not limited to spin-torque transfer random access memory (STRAM) or resistive random access memory (RRAM) cells. In accordance with some embodiments, an RSM cell includes an RSM element coupled to a switching device. The switching device has a plurality of terminals. A control circuit compensates for asymmetric write characteristics of the RSM cell by limiting a range of voltage differentials across the terminals so as to be equal to or less than a magnitude of a source voltage applied to the switching device, thereby providing bi-directional write currents of substantially equal magnitude through the RSM element. | 05-19-2011 |
20110128778 | Predictive Thermal Preconditioning and Timing Control for Non-Volatile Memory Cells - A method and apparatus for using thermal preconditioning to write data to a non-volatile memory cell, such as a spin-torque transfer random access memory (STRAM) memory cell. In some embodiments, a logical state is written to an unconditioned non-volatile first memory cell associated with a first block address. Thermal preconditioning is concurrently applied to a non-volatile second memory cell associated with a second block address selected in response to the first block address. | 06-02-2011 |
20110182106 | Current Cancellation for Non-Volatile Memory - A method and apparatus for reading data from a non-volatile memory cell. In some embodiments, a cross-point array of non-volatile memory cells is arranged into rows and columns that are each controlled by a line driver. A read circuit is provided that is capable of reading a logical state of a predetermined memory cell by differentiating a non-integrated first reference value from a non-integrated second reference value. Further, each reference value is measured immediately after configuring the column corresponding to the predetermined memory cell to produce a first and second amount of current. | 07-28-2011 |
20110194337 | Non-Volatile Memory Cell With Precessional Switching - A method and apparatus for writing data to a non-volatile memory cell, such as a spin-torque transfer random access memory (STRAM) memory cell. In some embodiments, a selected resistive state is written to a magnetic tunneling structure by applying a succession of indeterminate write pulses thereto until the selected resistive state is verified. | 08-11-2011 |
20110205830 | Semiconductor Control Line Address Decoding Circuit - Apparatus and method for decoding addresses of control lines in a semiconductor device, such as a solid state memory (SSM). In accordance with some embodiments, a switching circuit includes an array of switching devices coupled to 2 | 08-25-2011 |
20110292716 | Asymmetric Write Current Compensation Using Gate Overdrive for Resistive Sense Memory Cells - Apparatus and associated method for asymmetric write current compensation for resistive sense memory (RSM) cells, such as but not limited to spin-torque transfer random access memory (STRAM) or resistive random access memory (RRAM) cells. In accordance with some embodiments, an RSM cell includes an RSM element coupled to a switching device. The switching device has a plurality of terminals. A control circuit compensates for asymmetric write characteristics of the RSM cell by limiting a range of voltage differentials across the terminals so as to be equal to or less than a magnitude of a source voltage applied to the switching device, thereby providing bi-directional write currents of substantially equal magnitude through the RSM element. | 12-01-2011 |
20110299323 | Floating Source Line Architecture for Non-Volatile Memory - A method and apparatus for writing data to a non-volatile memory cell, such as an RRAM memory cell. In some embodiments, a semiconductor array of non-volatile memory cells comprises a resistive sense element (RSE) and a switching device. A RSE of a plurality of memory cells is connected to a bit line while the switching device of a plurality of memory cells is connected to a word line and operated to select a memory cell. A source line is connected to the switching device and connects a series of memory cells together. Further, a driver circuit is connected to the bit line and writes a selected RSE of a selected source line to a selected resistive state by passing a write current along a write current path that passes through the selected RSE and through at least a portion of the remaining RSE connected to the selected source line. | 12-08-2011 |
20110299324 | WRITE CURRENT COMPENSATION USING WORD LINE BOOSTING CIRCUITRY - Apparatus and method for write current compensation in a non-volatile memory cell, such as but not limited to spin-torque transfer random access memory (STRAM) or resistive random access memory (RRAM). In accordance with some embodiments, a non-volatile memory cell has a resistive sense element (RSE) coupled to a switching device, the RSE having a hard programming direction and an easy programming direction opposite the hard programming direction. A voltage boosting circuit includes a capacitor which adds charge to a nominal non-zero voltage supplied by a voltage source to a node to generate a temporarily boosted voltage. The boosted voltage is applied to the switching device when the RSE is programmed in the hard programming direction. | 12-08-2011 |
20120033482 | Bit Set Modes for a Resistive Sense Memory Cell Array - Various embodiments of the present invention are generally directed to a method and apparatus for providing different bit set modes for a resistive sense memory (RSM) array, such as a spin-torque transfer random access memory (STRAM) or resistive random access memory (RRAM) array. In accordance with some embodiments, a group of RSM cells in a non-volatile semiconductor memory array is identified for application of a bit set operation. A bit set value is selected from a plurality of bit set values each separately writable to the RSM cells to place said cells in a selected resistive state. The selected bit set value is thereafter written to at least a portion of the RSM cells in the identified group. | 02-09-2012 |
20120039112 | Hierarchical Cross-Point Array of Non-Volatile Memory - A method and apparatus for reading data from a non-volatile memory cell. In some embodiments, a cross-point array of non-volatile memory cells is arranged into rows and columns. A selection circuit is provided that is capable of activating the first block of memory cells while deactivating the second block of memory cells. Further, a read circuit is provided that is capable of reading a logical state of a predetermined memory cell in the first block of memory cells with a reduced leak current by programming a first resistive state to the block selection elements corresponding to the first block of memory cells while programming a second resistive state to the block selection elements corresponding to the second block of memory cells. | 02-16-2012 |
20120120713 | Asymmetric Write Current Compensation Using Gate Overdrive for Resistive Sense Memory Cells - Apparatus and associated method for asymmetric write current compensation for resistive sense memory (RSM) cells, such as but not limited to spin-torque transfer random access memory (STRAM) or resistive random access memory (RRAM) cells. In accordance with some embodiments, an RSM cell includes an RSM element coupled to a switching device. The switching device has a plurality of terminals. A control circuit compensates for asymmetric write characteristics of the RSM cell by limiting a range of voltage differentials across the terminals so as to be equal to or less than a magnitude of a source voltage applied to the switching device, thereby providing bi-directional write currents of substantially equal magnitude through the RSM element. | 05-17-2012 |
20120147665 | Predictive Thermal Preconditioning and Timing Control for Non-Volatile Memory Cells - Method and apparatus for using thermal preconditioning to write data to a non-volatile memory cell. In accordance with some embodiments, a semiconductor memory has an array of non-volatile memory cells, and a control circuit which stores a first write command from a host to write data to said array. A write circuit flows a write current through an unconditioned first selected cell having a first block address associated with the first write command to write the first selected cell to a selected data state, and concurrently passes a thermal preconditioning current through a second selected cell having a second block address associated with the first block address. The write circuit further passes a thermal preconditioning current through a third selected cell having a third block address associated with the second block address in response to receipt by the control circuit of a second write command from the host associated with the second block address. | 06-14-2012 |
20130135922 | Floating Source Line Architecture for Non-Volatile Memory - A method and apparatus for writing data to a non-volatile memory cell, such as an STRAM memory cell or an RRAM memory cell. In some embodiments, a plurality of N non-volatile memory cells, where N is a greater than two, are connected to a common floating source line. A write circuit is adapted to program a selected memory cell of the plurality to a selected data state by passing a write current of selected magnitude through the selected memory cell and concurrently passing a portion of the write current in parallel through each of the remaining N−1 memory cells of the plurality via the common floating source line. | 05-30-2013 |