Patent application number | Description | Published |
20080198651 | NON-VOLATILE MEMORY WITH DYNAMIC MULTI-MODE OPERATION - A method and system for extending the life span of a flash memory device. The flash memory device is dynamically configurable to store data in the single bit per cell (SBC) storage mode or the multiple bit per cell (MBC) mode, such that both SBC data and MBC data co-exist within the same memory array. One or more tag bits stored in each page of the memory is used to indicate the type of storage mode used for storing the data in the corresponding subdivision, where a subdivision can be a bank, block or page. A controller monitors the number of program-erase cycles corresponding to each page for selectively changing the storage mode in order to maximize lifespan of any subdivision of the multi-mode flash memory device. | 08-21-2008 |
20090147569 | FLASH MEMORY PROGRAM INHIBIT SCHEME - A method for minimizing program disturb in Flash memories. To reduce program disturb in a NAND Flash memory cell string where no programming from the erased state is desired, a local boosted channel inhibit scheme is used. In the local boosted channel inhibit scheme, the selected memory cell in a NAND string where no programming is desired, is decoupled from the other cells in the NAND string. This allows the channel of the decoupled cell to be locally boosted to a voltage level sufficient for inhibiting F-N tunneling when the corresponding wordline is raised to a programming voltage. Due to the high boosting efficiency, the pass voltage applied to the gates of the remaining memory cells in the NAND string can be reduced relative to prior art schemes, thereby minimizing program disturb while allowing for random page programming. | 06-11-2009 |
20090164809 | POWER SUPPLY TESTING ARCHITECTURE - A power supply testing architecture for embedded sub-systems is described, where each embedded sub-system can have at least one testable internal voltage supply. A plurality of embedded sub-systems are organized into groups, where each group of sub-systems shares a common voltage test line connected to the internal voltage supplies of the sub-systems. Accordingly, the collective internal voltages of each group can be tested in parallel. A power control signal can disable the internal voltage supply of all the sub-systems to allow application of an external power to the common voltage test lines. Alternately, the sub-systems in each group can be tested sequentially, such that each enabled sub-system of the group has dedicated access to its common voltage test line. In such a scheme, dedicated power control signals are used to independently disable each sub-system of the groups. | 06-25-2009 |
20090175081 | NAND FLASH MEMORY HAVING MULTIPLE CELL SUBSTRATES - A NAND flash memory bank having a plurality of bitlines of a memory array connected to a page buffer, where NAND cell strings connected to the same bitline are formed in at least two well sectors. At least one well sector can be selectively coupled to an erase voltage during an erase operation, such that unselected well sectors are inhibited from receiving the erase voltage. When the area of the well sectors decrease, a corresponding decrease in the capacitance of each well sector results. Accordingly, higher speed erasing of the NAND flash memory cells relative to a single well memory bank is obtained when the charge pump circuit drive capacity remains unchanged. Alternately, a constant erase speed corresponding to a single well memory bank is obtained by matching a well segment having a specific area to a charge pump with reduced drive capacity. A reduced drive capacity charge pump will occupy less semiconductor chip area, thereby reducing cost. | 07-09-2009 |
20090190386 | HYBRID CONTENT ADDRESSABLE MEMORY - A CAM device memory array having different types of memory cells is disclosed. A CAM device memory array is subdivided into at least two different portions, where each portion uses only one particular type of CAM cell, and each portion is dedicated to storing a particular type of data. In particular, at least one portion consists of binary CAM cells and the other portion consists of ternary CAM cells. The portions can be partitioned along the row, or matchline, direction or along the bitline direction. Since particular data formats only require predefined bit positions of a word of data to be ternary in value, the remaining binary bit positions can be stored in binary CAM cells. Therefore, the CAM device memory array will occupy an overall area that is less than memory arrays of the same density consisting exclusively of ternary CAM cells. | 07-30-2009 |
20090196102 | FLEXIBLE MEMORY OPERATIONS IN NAND FLASH DEVICES - A flash memory device having at least two bank, where the each bank has an independently configurable page size and core controller. The core controller is local to each bank, and governs memory access operations for the bank that include read, program and erase operations. Each core controller controls timing and activation of row circuits, column circuits, voltage generators, and local input/output path circuits for a corresponding memory access operation of the bank. Concurrent operations are executable in multiple banks to improve performance. Each bank has a page size that is configurable with page size configuration data such that only selected wordlines are activated in response to address data. The configuration data can be loaded into the memory device upon power up for a static page configuration of the bank, or the configuration data can be received with each command to allow for dynamic page configuration of the bank. | 08-06-2009 |
20090196103 | NON-VOLATILE MEMORY DEVICE HAVING CONFIGURABLE PAGE SIZE - A flash memory device having at least one bank, where the each bank has an independently configurable page size. Each bank includes at least two memory planes having corresponding page buffers, where any number and combination of the memory planes are selectively accessed at the same time in response to configuration data and address data. The configuration data can be loaded into the memory device upon power up for a static page configuration of the bank, or the configuration data can be received with each command to allow for dynamic page configuration of the bank. By selectively adjusting a page size the memory bank, the block size is correspondingly adjusted. | 08-06-2009 |
20100002504 | Mulitple-bit per cell (MBC) non-volatile memory apparatus and system having polarity control and method of programming same - A Multiple-bit per Cell (MBC) non-volatile memory apparatus, method, and system wherein a controller for writing/reading data to/from a memory array controls polarity of data by selectively inverting data words to maximize a number of bits to be programmed within (M−1) virtual pages and selectively inverts data words to minimize a number of bits to be programmed in an M | 01-07-2010 |
20100115172 | BRIDGE DEVICE HAVING A VIRTUAL PAGE BUFFER - A composite memory device including discrete memory devices and a bridge device for controlling the discrete memory devices. The bridge device has a virtual page buffer corresponding to each discrete memory device for storing read data from the discrete memory device, or write data from an external device. The virtual page buffer is configurable to have a size up to the maximum physical size of the page buffer of a discrete memory device. The page buffer is then logically divided into page segments, where each page segment corresponds in size to the configured virtual page buffer size. By storing read or write data in the virtual page buffer, both the discrete memory device and the external device can operate to provide or receive data at different data rates to maximize the performance of both devices. | 05-06-2010 |
20100157684 | FLASH MEMORY PROGRAM INHIBIT SCHEME - A method for minimizing program disturb in Flash memories. To reduce program disturb in a NAND Flash memory cell string where no programming from the erased state is desired, a local boosted channel inhibit scheme is used. In the local boosted channel inhibit scheme, the selected memory cell in a NAND string where no programming is desired, is decoupled from the other cells in the NAND string. This allows the channel of the decoupled cell to be locally boosted to a voltage level sufficient for inhibiting F-N tunneling when the corresponding wordline is raised to a programming voltage. Due to the high boosting efficiency, the pass voltage applied to the gates of the remaining memory cells in the NAND string can be reduced relative to prior art schemes, thereby minimizing program disturb while allowing for random page programming. | 06-24-2010 |
20100174854 | NON-VOLATILE MEMORY WITH DYNAMIC MULTI-MODE OPERATION - A method and system for extending the life span of a flash memory device. The flash memory device is dynamically configurable to store data in the single bit per cell (SBC) storage mode or the multiple bit per cell (MBC) mode, such that both SBC data and MBC data co-exist within the same memory array. One or more tag bits stored in each page of the memory is used to indicate the type of storage mode used for storing the data in the corresponding subdivision, where a subdivision can be a bank, block or page. A controller monitors the number of program-erase cycles corresponding to each page for selectively changing the storage mode in order to maximize lifespan of any subdivision of the multi-mode flash memory device. | 07-08-2010 |
20100182838 | FLASH MEMORY DEVICE WITH DATA OUTPUT CONTROL - An apparatus, system, and computer-implemented method for controlling data transfer between a plurality of serial data link interfaces and a plurality of memory banks in a semiconductor memory is disclosed. In one example, a flash memory device with multiple links and memory banks, where the links are independent of the banks, is disclosed. The flash memory devices may be cascaded in a daisy-chain configuration using echo signal lines to serially communicate between memory devices. In addition, a virtual multiple link configuration is described wherein a single link is used to emulate multiple links. | 07-22-2010 |
20100226174 | MULTIPLE BIT PER CELL NON VOLATILE MEMORY APPARATUS AND SYSTEM HAVING POLARITY CONTROL AND METHOD OF PROGRAMMING SAME - A Multiple-bit per Cell (MBC) non-volatile memory apparatus, method, and system wherein a controller for writing/reading data to/from a memory array controls polarity of data by selectively inverting data words to maximize a number of bits to be programmed within (M−1) virtual pages and selectively inverts data words to minimize a number of bits to be programmed in an M | 09-09-2010 |
20100275056 | APPARATUS AND METHOD OF PAGE PROGRAM OPERATION FOR MEMORY DEVICES WITH MIRROR BACK-UP OF DATA - An apparatus and method of page program operation is provided. When performing a page program operation with a selected memory device, a memory controller loads the data into the page buffer of one selected memory device and also into the page buffer of another selected memory device in order to store a back-up copy of the data. In the event that the data is not successfully programmed into the memory cells of the one selected memory device, then the memory controller recovers the data from the page buffer of the other memory device. Since a copy of the data is stored in the page buffer of the other memory device, the memory controller does not need to locally store the data in its data storage elements. | 10-28-2010 |
20100325353 | FLASH MEMORY SYSTEM CONTROL SCHEME - A Flash memory system architecture having serially connected Flash memory devices to achieve high speed programming of data. High speed programming of data is achieved by interleaving pages of the data to be programmed amongst the memory devices in the system, such that different pages of data are stored in different memory devices. A memory controller issues program commands for each memory device. As each memory device receives a program command, it either begins a programming operation or passes the command to the next memory device. Therefore, the memory devices in the Flash system sequentially program pages of data one after the other, thereby minimizing delay in programming each page of data into the Flash memory system. The memory controller can execute a wear leveling algorithm to maximize the endurance of each memory device, or to optimize programming performance and endurance for data of any size. | 12-23-2010 |
20110002171 | MEMORY WITH OUTPUT CONTROL - An apparatus, system, and method for controlling data transfer to an output port of a serial data link interface in a semiconductor memory is disclosed. In one example, a flash memory device may have multiple serial data links, multiple memory banks and control input ports that enable the memory device to transfer the serial data to a serial data output port of the memory device. In another example, a flash memory device may have a single serial data link, a single memory bank, a serial data input port, a control input port for receiving output enable signals. The flash memory devices may be cascaded in a daisy-chain configuration using echo signal lines to serially communicate between memory devices. | 01-06-2011 |
20110013455 | NON-VOLATILE MEMORY SERIAL CORE ARCHITECTURE - A memory system having a serial data interface and a serial data path core for receiving data from and for providing data to at least one memory bank as a serial bitstream. The memory bank is divided into two halves, where each half is divided into upper and lower sectors. Each sector provides data in parallel to a shared two-dimensional page buffer with an integrated self column decoding circuit. A serial to parallel data converter within the memory bank couples the parallel data from either half to the serial data path core. The shared two-dimensional page buffer with the integrated self column decoding circuit minimizes circuit and chip area overhead for each bank, and the serial data path core reduces chip area typically used for routing wide data buses. Therefore a multiple memory bank system is implemented without a significant corresponding chip area increase when compared to a single memory bank system having the same density. | 01-20-2011 |
20110016236 | APPARATUS AND METHOD FOR PRODUCING IDENTIFIERS REGARDLESS OF MIXED DEVICE TYPE IN A SERIAL INTERCONNECTION - A plurality of memory devices of mixed type (e.g., DRAMs, SRAMs, MRAMs, and NAND-, NOR- and AND-type Flash memories) is serially interconnected. Each device has device type information on its device type. A specific device type (DT) and a device identifier (ID) contained in a serial input (SI) as a packet are fed to one device of the serial interconnection. The device determines whether the fed DT matches the DT of the device. In a case of match, a calculator included in the device performs calculation to generate an ID accompanying the fed DT for another device and the fed ID is latched in a register of the device. In a case of no match, the ID generation is skipped and no ID is generated for another device. The DT is combined with the generated or the received ID depending on the device type match determination. The combined DT and ID is as a packet transferred to a next device. Such a device type match determination and ID generation or skip are performed in all devices of the serial interconnection. With reference to device type provided to the interconnected devices, IDs are sequentially generated. The SI containing the DT, the ID and an ID generation command is transmitted in a packet basis to a next device. A memory controller can recognize the total number of one DT, in response to the ID received from the last device. In a case of a “don't care” DT is provided to the interconnected devices, IDs are sequentially generated and the total number of the interconnected devices is recognized, regardless of the differences in DTs of the devices. | 01-20-2011 |
20110131445 | Apparatus and Method of PAGE Program Operation for Memory Devices with Mirror Back-Up of Data - An apparatus and method of page program operation is provided. When performing a page program operation with a selected memory device, a memory controller loads the data into the page buffer of one selected memory device and also into the page buffer of another selected memory device in order to store a back-up copy of the data. In the event that the data is not successfully programmed into the memory cells of the one selected memory device, then the memory controller recovers the data from the page buffer of the other memory device. Since a copy of the data is stored in the page buffer of the other memory device, the memory controller does not need to locally store the data in its data storage elements. | 06-02-2011 |
20110153974 | SYSTEM AND METHOD OF OPERATING MEMORY DEVICES OF MIXED TYPE - A memory system architecture is provided in which a memory controller controls memory devices in a serial interconnection configuration. The memory controller has an output port for sending memory commands and an input port for receiving memory responses for those memory commands requisitioning such responses. Each memory device includes a memory, such as, for example, NAND-type flash memory, NOR-type flash memory, random access memory and static random access memory. Each memory command is specific to the memory type of a target memory device. A data path for the memory commands and the memory responses is provided by the interconnection. A given memory command traverses memory devices in order to reach its intended memory device of the serial interconnection configuration. Upon its receipt, the intended memory device executes the given memory command and, if appropriate, sends a memory response to a next memory device. The memory response is transferred to the memory controller. | 06-23-2011 |
20110170352 | NAND FLASH MEMORY HAVING MULTIPLE CELL SUBSTRATES - A NAND flash memory bank having a plurality of bitlines of a memory array connected to a page buffer, where NAND cell strings connected to the same bitline are formed in at least two well sectors. At least one well sector can be selectively coupled to an erase voltage during an erase operation, such that unselected well sectors are inhibited from receiving the erase voltage. When the area of the well sectors decrease, a corresponding decrease in the capacitance of each well sector results. Accordingly, higher speed erasing of the NAND flash memory cells relative to a single well memory bank is obtained when the charge pump circuit drive capacity remains unchanged. Alternately, a constant erase speed corresponding to a single well memory bank is obtained by matching a well segment having a specific area to a charge pump with reduced drive capacity. A reduced drive capacity charge pump will occupy less semiconductor chip area, thereby reducing cost. | 07-14-2011 |
20110170367 | DYNAMIC RANDOM ACCESS MEMORY WITH FULLY INDEPENDENT PARTIAL ARRAY REFRESH FUNCTION - A dynamic random access memory device includes a plurality of memory subblocks. Each subblock has a plurality of wordlines whereto a plurality of data store cells are connected. Partial array self-refresh (PASR) configuration settings are independently made. In accordance with the PASR settings, the memory subblocks are addressed for refreshing. The PASR settings are made by a memory controller. Any kind of combinations of subblock addresses may be selected. Thus, the memory subblocks are fully independently refreshed. User selectable memory arrays for data retention provide effective memory control programming especially for low power mobile application. | 07-14-2011 |
20110185086 | APPARATUS AND METHOD FOR PRODUCING DEVICE IDENTIFIERS FOR SERIALLY INTERCONNECTED DEVICES OF MIXED TYPE - A plurality of memory devices of mixed type (e.g., DRAMs, SRAMs, MRAMs and NAND-, NOR- and AND-type Flash memories) are serially interconnected. Each device has device type information on its device type. A specific device type (DT) and a device identifier (ID) contained in a serial input (SI) are fed to one device of the serial interconnection. The device determines whether the fed DT matches the DT of the device. In a case of match, a calculator included in the device performs calculation to generate an ID for another device and the fed ID is latched in a register of the device. The generated ID is transferred to another device of the serial interconnection. In a case of no match, the ID generation is skipped and no ID is generated for another device. Such a device type match determination and ID generation or skip are performed in all devices of the serial interconnection. In cases of different device types being separately provided to the interconnected devices, sequential IDs are generated in each of the different device types and also the total number of each device type are recognized. In a case of a “don't care” code is provided to the interconnected devices, sequential IDs are generated and also, the total number of the interconnected devices is recognized, regardless of the type differences. | 07-28-2011 |
20110194351 | SOURCE SIDE ASYMMETRICAL PRECHARGE PROGRAMMING SCHEME - A method for programming NAND flash cells to minimize program stress while allowing for random page programming operations. The method includes asymmetrically precharging a NAND string from a positively biased source line while the bitline is decoupled from the NAND string, followed by the application of a programming voltage to the selected memory cell, and then followed by the application of bitline data. After asymmetrical precharging and application of the programming voltage, all the selected memory cells will be set to a program inhibit state as they will be decoupled from the other memory cells in their respective NAND strings, and their channels will be locally boosted to a voltage effective for inhibiting programming. A VSS biased bitline will discharge the locally boosted channel to VSS, thereby allowing programming of the selected memory cell to occur. A VDD biased bitline will have no effect on the precharged NAND string, thereby maintaining a program inhibited state of that selected memory cell. | 08-11-2011 |
20110194365 | BRIDGE DEVICE ARCHITECTURE FOR CONNECTING DISCRETE MEMORY DEVICES TO A SYSTEM - Bridge device architecture for connecting discrete memory devices is disclosed. A bridge device is used in conjunction with a composite memory device including at least one discrete memory device. The bridge device comprises a local control interface connected to the at least one discrete memory device, a local input/output interface connected to the at least one discrete memory device, and a global input/output interface interposed between the local control interface and the local input/output interface. The global input/output interface receives and provides global memory control signals and also receives and provides write data to and read data from the at least one discrete memory device. | 08-11-2011 |
20110231739 | COMPOSITE SEMICONDUCTOR MEMORY DEVICE WITH ERROR CORRECTION - A composite semiconductor memory device, comprising: a plurality of nonvolatile memory devices; and an interface device connected to the plurality of nonvolatile memory devices and for connection to a memory controller, the interface device comprising an error correction coding (ECC) engine. Also, a memory system, comprising: a memory controller; and at least one composite semiconductor memory device configured for being written to and read from by the memory controller and comprising a built-in error correction coding (ECC) engine. Also, a memory system, comprising: a composite semiconductor memory device comprising a plurality of nonvolatile memory devices; and a memory controller connected to the at least one composite semiconductor memory device, for issuing read and write commands to the composite semiconductor memory device to cause data to be written to or read from individual ones of the nonvolatile memory devices; the composite semiconductor memory device providing error-free writing and reading of the data. | 09-22-2011 |
20110242885 | THREE-DIMENSIONAL PHASE CHANGE MEMORY - A memory device includes a stack of semiconductor layers. A circuit is on a layer of the stack of semiconductor layers. A primary memory array is on another layer of the stack of semiconductor layers different from the layer comprising the circuit. A plurality of electrical communication paths are between the circuit and the primary memory array. The circuit controls the operation of the primary memory array over the electrical communication paths. | 10-06-2011 |
20110242906 | DUAL FUNCTION COMPATIBLE NON-VOLATILE MEMORY DEVICE - A dual function memory device architecture compatible with asynchronous operation and synchronous serial operation. The dual function memory device architecture includes one set of physical ports having two different functional assignments. Coupled between the physical ports and core circuits of the memory device are asynchronous and synchronous input and output signal paths or circuits. The signal paths include shared or dedicated buffers coupled to the ports, asynchronous and synchronous command decoders, a network of switches, and a mode detector. The mode detector determines the operating mode of the dual function memory device from a port, and provides the appropriate switch selection signal. The network of switches routes the input or output signals through the asynchronous or synchronous circuits in response to the switch selection signal. The appropriate command decoder interprets the input signals and provides common control logic with the necessary signals for initiating the corresponding operation. | 10-06-2011 |
20110255339 | METHOD AND SYSTEM FOR ACCESSING A FLASH MEMORY DEVICE - An apparatus, system, and computer-implemented method for controlling data transfer between a plurality of serial data link interfaces and a plurality of memory banks in a semiconductor memory is disclosed. In one example, a flash memory device with multiple links and memory banks, where the links are independent of the banks, is disclosed. The flash memory devices may be cascaded in a daisy-chain configuration using echo signal lines to serially communicate between memory devices. In addition, a virtual multiple link configuration is described wherein a single link is used to emulate multiple links. | 10-20-2011 |
20110261616 | WRITE SCHEME IN PHASE CHANGE MEMORY - A method for writing a phase change memory includes receiving an input data corresponding to a plurality of memory cells, while reading a previous data from the plurality of memory cells and comparing the input data with the previous data. Upon determining that the input data is different from the previous data for one or more of the plurality of memory cells, and upon determining that a current value of a write counter is less than a maximum value, one or more of the plurality of memory cells is programmed with the input data and the current value of the writer counter is incremented. | 10-27-2011 |
20110299331 | FLASH MEMORY PROGRAM INHIBIT SCHEME - A method for minimizing program disturb in Flash memories. To reduce program disturb in a NAND Flash memory cell string where no programming from the erased state is desired, a local boosted channel inhibit scheme is used. In the local boosted channel inhibit scheme, the selected memory cell in a NAND string where no programming is desired, is decoupled from the other cells in the NAND string. This allows the channel of the decoupled cell to be locally boosted to a voltage level sufficient for inhibiting F-N tunneling when the corresponding wordline is raised to a programming voltage. Due to the high boosting efficiency, the pass voltage applied to the gates of the remaining memory cells in the NAND string can be reduced relative to prior art schemes, thereby minimizing program disturb while allowing for random page programming. | 12-08-2011 |
20110317487 | MULTIPLE-BIT PER CELL (MBC) NON-VOLATILE MEMORY APPARATUS AND SYSTEM HAVING POLARITY CONTROL AND METHOD OF PROGRAMMING SAME - A Multiple-bit per Cell (MBC) non-volatile memory apparatus, method, and system wherein a controller for writing/reading data to/from a memory array controls polarity of data by selectively inverting data words to maximize a number of bits to be programmed within (M−1) virtual pages and selectively inverts data words to minimize a number of bits to be programmed in an M | 12-29-2011 |
20120020155 | MULTIPAGE PROGRAM SCHEME FOR FLASH MEMORY - A circuit and method for programming multiple bits of data to flash memory cells in a single program operation cycle. Multiple pages of data to be programmed into one physical page of a flash memory array are stored in page buffers or other storage means on the memory device. The selected wordline connected to the cells to be programmed is driven with predetermined program profiles at different time intervals, where each predetermined program profile is configured for shifting an erase threshold voltage to a specific threshold voltage corresponding to a specific logic state. A multi-page bitline controller biases each bitline to enable or inhibit programming during each of the time intervals, in response to the combination of specific logic states of the bits belonging to each page of data that are associated with that respective bitline. | 01-26-2012 |
20120020168 | POWER SUPPLIES IN FLASH MEMORY DEVICES AND SYSTEMS - Power supplies in flash memory devices are disclosed. A first section of a flash memory device includes non-volatile memory for storing data. A second section of the flash memory device includes at least first and second pumping circuits. The first pumping circuit receives a first voltage and produces, at an output of the first pumping circuit, a second voltage at a second voltage level that is higher than the first voltage level. The second pumping circuit has an input coupled to the first pumping circuit output for cooperatively employing the first pumping circuit to pump up from a voltage greater than the first voltage to produce a third voltage at a third voltage level that is higher than the second voltage level. | 01-26-2012 |
20120023285 | NON-VOLATILE MEMORY WITH DYNAMIC MULTI-MODE OPERATION - A method and system for extending the life span of a flash memory device. The flash memory device is dynamically configurable to store data in the single bit per cell (SBC) storage mode or the multiple bit per cell (MBC) mode, such that both SBC data and MBC data co-exist within the same memory array. One or more tag bits stored in each page of the memory is used to indicate the type of storage mode used for storing the data in the corresponding subdivision, where a subdivision can be a bank, block or page. A controller monitors the number of program-erase cycles corresponding to each page for selectively changing the storage mode in order to maximize lifespan of any subdivision of the multi-mode flash memory device. | 01-26-2012 |
20120033497 | NON-VOLATILE MEMORY DEVICE HAVING CONFIGURABLE PAGE SIZE - A flash memory device having at least one bank, where the each bank has an independently configurable page size. Each bank includes at least two memory planes having corresponding page buffers, where any number and combination of the memory planes are selectively accessed at the same time in response to configuration data and address data. The configuration data can be loaded into the memory device upon power up for a static page configuration of the bank, or the configuration data can be received with each command to allow for dynamic page configuration of the bank. By selectively adjusting a page size the memory bank, the block size is correspondingly adjusted. | 02-09-2012 |
20120087182 | PHASE-CHANGE MEMORY WITH MULTIPLE POLARITY BITS HAVING ENHANCED ENDURANCE AND ERROR TOLERANCE - A Phase-Change Memory (PCM) apparatus including a data field for storing a data bits representing a data value or an inversion of the data value and a polarity field for storing a plurality of polarity bits for indicating that the data bits stored in the data field represent the data value or the inversion of the data value. In one embodiment an odd number of set polarity bits indicates that the data bits represent the inversion of the data value and an even number of set polarity bits indicates that the data bits represent the data value. The PCM apparatus has enhanced endurance and improved error tolerance. | 04-12-2012 |
20120113721 | FLEXIBLE MEMORY OPERATIONS IN NAND FLASH DEVICES - A flash memory device having at least two bank, where the each bank has an independently configurable page size and core controller. The core controller is local to each bank, and governs memory access operations for the bank that include read, program and erase operations. Each core controller controls timing and activation of row circuits, column circuits, voltage generators, and local input/output path circuits for a corresponding memory access operation of the bank. Concurrent operations are executable in multiple banks to improve performance. Each bank has a page size that is configurable with page size configuration data such that only selected wordlines are activated in response to address data. The configuration data can be loaded into the memory device upon power up for a static page configuration of the bank, or the configuration data can be received with each command to allow for dynamic page configuration of the bank. | 05-10-2012 |
20120134194 | BRIDGE DEVICE ARCHITECTURE FOR CONNECTING DISCRETE MEMORY DEVICES TO A SYSTEM - A bridge device architecture for connecting discrete memory devices. The bridge device is used in conjunction with a composite memory device including at least one discrete memory device. The bridge device includes a local control interface for connecting to the at least one discrete memory device, a local input/output interface for connecting to the at least one discrete memory device, and a global input/output interface. The global input/output interface receives and provides global memory control signals and also receives and provides write data to and read data from the at least one discrete memory device. | 05-31-2012 |
20120215974 | MEMORY WITH OUTPUT CONTROL - An apparatus, system, and method for controlling data transfer to an output port of a serial data link interface in a semiconductor memory is disclosed. In one example, a flash memory device may have multiple serial data links, multiple memory banks and control input ports that enable the memory device to transfer the serial data to a serial data output port of the memory device. In another example, a flash memory device may have a single serial data link, a single memory bank, a serial data input port, a control input port for receiving output enable signals. The flash memory devices may be cascaded in a daisy-chain configuration using echo signal lines to serially communicate between memory devices. | 08-23-2012 |
20120262986 | SOURCE SIDE ASYMMETRICAL PRECHARGE PROGRAMMING SCHEME - A method for programming NAND flash cells to minimize program stress while allowing for random page programming operations. The method includes asymmetrically precharging a NAND string from a positively biased source line while the bitline is decoupled from the NAND string, followed by the application of a programming voltage to the selected memory cell, and then followed by the application of bitline data. After asymmetrical precharging and application of the programming voltage, all the selected memory cells will be set to a program inhibit state as they will be decoupled from the other memory cells in their respective NAND strings, and their channels will be locally boosted to a voltage effective for inhibiting programming. A VSS biased bitline will discharge the locally boosted channel to VSS, thereby allowing programming of the selected memory cell to occur. | 10-18-2012 |
20120320693 | DUAL FUNCTION COMPATIBLE NON-VOLATILE MEMORY DEVICE - A dual function memory device architecture compatible with asynchronous operation and synchronous serial operation. The dual function memory device architecture includes one set of physical ports having two different functional assignments. Coupled between the physical ports and core circuits of the memory device are asynchronous and synchronous input and output signal paths or circuits. The signal paths include shared or dedicated buffers coupled to the ports, asynchronous and synchronous command decoders, a network of switches, and a mode detector. The mode detector determines the operating mode of the dual function memory device from a port, and provides the appropriate switch selection signal. The network of switches routes the input or output signals through the asynchronous or synchronous circuits in response to the switch selection signal. The appropriate command decoder interprets the input signals and provides common control logic with the necessary signals for initiating the corresponding operation. | 12-20-2012 |
20130016557 | SEMICONDUCTOR MEMORY DEVICE HAVING A THREE-DIMENSIONAL STRUCTURE - A three-dimensional memory device includes a stack of semiconductor layers. Phase change memory (PCM) cell arrays are formed on each layer. Each PCM cell includes a variable resistor as storage element, the resistance of which varies. On one layer, formed is peripheral circuitry which includes row and column decoders, sense amplifiers and global column selectors to control operation of the memory. Local bit lines and worldliness are connected to the memory cells. The global column selectors select global bitlines to be connected to local bit lines. The row decoder selects wordlines. Applied current flows through the memory cell connected to the selected local bitline and wordline. In write operation, set current or reset current is applied and the variable resistor of the selected PCM cell stores “data”. In read operation, read current is applied and voltage developed across the variable resistor is compared to a reference voltage to provide as read data. | 01-17-2013 |
20130033929 | WRITE SCHEME IN A PHASE CHANGE MEMORY - In a phase change memory, an input data corresponding to a plurality of memory cells is received and a previous data is read from the plurality of memory cells. The input data is compared with the previous data. In the case where the input data is different from the previous data for one or more of the plurality of memory cells and a write count is less than a maximum value, one or more of the plurality of memory cells is programmed with the input data and the write count is updated or incremented. Such operations of data comparison and update of the write count are repeated. If the write count reaches the maximum value, it will be determined that the writing is failed. | 02-07-2013 |
20130039125 | FLASH MEMORY PROGRAM INHIBIT SCHEME - A method for minimizing program disturb in Flash memories. To reduce program disturb in a NAND Flash memory cell string where no programming from the erased state is desired, a local boosted channel inhibit scheme is used. In the local boosted channel inhibit scheme, the selected memory cell in a NAND string where no programming is desired, is decoupled from the other cells in the NAND string. This allows the channel of the decoupled cell to be locally boosted to a voltage level sufficient for inhibiting F-N tunneling when the corresponding wordline is raised to a programming voltage. Due to the high boosting efficiency, the pass voltage applied to the gates of the remaining memory cells in the NAND string can be reduced relative to prior art schemes, thereby minimizing program disturb while allowing for random page programming. | 02-14-2013 |
20130042024 | APPARATUS AND METHOD FOR PRODUCING IDS FOR INTERCONNECTED DEVICES OF MIXED TYPE - A plurality of memory devices of mixed type (e.g., DRAMs, SRAMs, MRAMs and NAND-, NOR- and AND-type Flash memories) having associated device type information is serially interconnected. A serial input (SI) containing a device type (DT) and a device identifier (ID) is fed to one device of the serial interconnection. Upon a match between the fed DT matches the DT of the device, the fed ID is latched in a register of the device and an ID for another device is generated, which is then transferred to the next device in the serial interconnection. Otherwise, ID generation is skipped. These steps are performed in all devices. Thus, sequential IDs are generated for the different device types and also the total number of each device type is recognized. If the fed DT is “don't care”, sequential IDs are generated for all devices and the total number of the devices is recognized. | 02-14-2013 |
20130044543 | NON-VOLATILE MEMORY BANK AND PAGE BUFFER THEREFOR - A memory system having a serial data interface and a serial data path core for receiving data from and for providing data to at least one memory bank as a serial bitstream. Each half of the memory bank is divided into upper and lower sectors. Each sector provides data in parallel to a shared two-dimensional page buffer with an integrated self column decoding circuit. A serial to parallel data converter within the memory bank couples the parallel data from either half to the serial data path core. The shared two-dimensional page buffer with the integrated self column decoding circuit minimizes circuit and chip area overhead for each bank, and the serial data path core reduces chip area. Therefore a multiple memory bank system is implemented without a significant corresponding chip area increase when compared to a single memory bank system having the same density. | 02-21-2013 |
20130070539 | DYNAMIC RANDOM ACCESS MEMORY WITH FULLY INDEPENDENT PARTIAL ARRAY REFRESH FUNCTION - A dynamic random access memory device includes a plurality of memory subblocks. Each subblock has a plurality of wordlines whereto a plurality of data store cells are connected. Partial array self-refresh (PASR) configuration settings are independently made. In accordance with the PASR settings, the memory subblocks are addressed for refreshing. The PASR settings are made by a memory controller. Any kind of combinations of subblock addresses may be selected. Thus, the memory subblocks are fully independently refreshed. User selectable memory arrays for data retention provide effective memory control programming especially for low power mobile application. | 03-21-2013 |
20130073754 | APPARATUS AND METHOD FOR ESTABLISHING DEVICE IDENTIFIERS FOR SERIALLY INTERCONNECTED DEVICES - A method or apparatus operates a multitude of devices in a serial interconnection configuration to establish a device identifier (ID) for each device. An input signal is transmitted through a serial interconnection to a first device using inputs that are also used by the first device to input other information thereto (e.g., data, commands, control signals). A generating circuit generates a device ID in response to the input signal. A transfer circuit then transfers an output signal associated with the device ID to a second device through a serial output of the first device. The serial output is also used by the first device to output other information (e.g., signals, data) to another device in the serial interconnection configuration. | 03-21-2013 |
20130080730 | FLASH MEMORY SYSTEM - A method and system for controlling an MBC configured flash memory device to store data in an SBC storage mode, or a partial MBC storage mode. In a full MBC storage mode, pages of data are programmed sequentially from a first page to an Nth page for each physical row of memory cells. Up to N virtual page addresses per row of memory cells accompany each page to be programmed for designating the virtual position of the page in the row. For SBC or partial MBC data storage, a flash memory controller issues program command(s) to the MBC memory device using less than the maximum N virtual page addresses for each row. The MBC memory device sequentially executes programming operations up to the last received virtual page address for the row. | 03-28-2013 |
20130107443 | FLASH MEMORY MODULE AND MEMORY SUBSYSTEM | 05-02-2013 |
20130128668 | NON-VOLATILE MEMORY DEVICE HAVING CONFIGURABLE PAGE SIZE - A flash memory device having at least one bank, where the each bank has an independently configurable page size. Each bank includes at least two memory planes having corresponding page buffers, where any number and combination of the memory planes are selectively accessed at the same time in response to configuration data and address data. The configuration data can be loaded into the memory device upon power up for a static page configuration of the bank, or the configuration data can be received with each command to allow for dynamic page configuration of the bank. By selectively adjusting a page size the memory bank, the block size is correspondingly adjusted. | 05-23-2013 |
20130141973 | NON-VOLATILE MEMORY WITH DYNAMIC MULTI-MODE OPERATION - A method and system for extending the life span of a flash memory device. The flash memory device is dynamically configurable to store data in the single bit per cell (SBC) storage mode or the multiple bit per cell (MBC) mode. In the MBC storage mode, the cell can have one of multiple possible states, where each state is defined by respective threshold voltage ranges. In the SBC mode, the cell can have states with threshold voltages corresponding to states of the MBC storage mode which are non-adjacent to each other to improve reliability characteristics of the cell. | 06-06-2013 |
20130163175 | SOLID STATE DRIVE MEMORY SYSTEM - A solid-state drive architecture and arrangement for standardized disk drive form factors, PCI type memory cards and general motherboard memory. The solid-state drive architecture is modular in that a main printed circuit board (PCB) of the memory system includes a host interface connector, a memory controller, and connectors. Each connector can removably receive a memory blade, where each memory blade includes a plurality of memory devices serially connected to each other via a serial interface. Each memory blade includes a physical serial interface for providing data and control signals to a first memory device in the serial chain and for receiving data and control signals from a last memory device in the serial chain. Each memory blade can be sized in length and width to accommodate any number of memory devices on either side thereof. | 06-27-2013 |
20130170294 | MULTIPLE-BIT PER CELL (MBC) NON-VOLATILE MEMORY APPARATUS AND SYSTEM HAVING POLARITY CONTROL AND METHOD OF PROGRAMMING SAME - A Multiple-bit per Cell (MBC) non-volatile memory apparatus, method, and system wherein a controller for writing/reading data to/from a memory array controls polarity of data by selectively inverting data words to maximize a number of bits to be programmed within (M-1) virtual pages and selectively inverts data words to minimize a number of bits to be programmed in an M | 07-04-2013 |
20130170298 | SCALABLE MEMORY SYSTEM - A memory system architecture has serially connected memory devices. The memory system is scalable to include any number of memory devices without any performance degradation or complex redesign. Each memory device has a serial input/output interface for communicating between other memory devices and a memory controller. The memory controller issues commands in at least one bitstream, where the bitstream follows a modular command protocol. The command includes an operation code with optional address information and a device address, so that only the addressed memory device acts upon the command. Separate data output strobe and command input strobe signals are provided in parallel with each output data stream and input command data stream, respectively, for identifying the type of data and the length of the data. The modular command protocol is used for executing concurrent operations in each memory device to further improve performance. | 07-04-2013 |
20130188422 | METHOD AND SYSTEM FOR ACCESSING A FLASH MEMORY DEVICE - An apparatus, system, and computer-implemented method for controlling data transfer between a plurality of serial data link interfaces and a plurality of memory banks in a semiconductor memory is disclosed. In one example, a flash memory device with multiple links and memory banks, where the links are independent of the banks, is disclosed. The flash memory devices may be cascaded in a daisy-chain configuration using echo signal lines to serially communicate between memory devices. In addition, a virtual multiple link configuration is described wherein a single link is used to emulate multiple links. | 07-25-2013 |
20130215677 | PHASE-CHANGE MEMORY WITH MULTIPLE POLARITY BITS HAVING ENHANCED ENDURANCE AND ERROR TOLERANCE - A Phase-Change Memory (PCM) apparatus including a data field for storing a data bits representing a data value or an inversion of the data value and a polarity field for storing a plurality of polarity bits for indicating that the data bits stored in the data field represent the data value or the inversion of the data value. In one embodiment an odd number of set polarity bits indicates that the data bits represent the inversion of the data value and an even number of set polarity bits indicates that the data bits represent the data value. The PCM apparatus has enhanced endurance and improved error tolerance. | 08-22-2013 |
20130229874 | MEMORY WITH OUTPUT CONTROL - An apparatus, system, and method for controlling data transfer to an output port of a serial data link interface in a semiconductor memory is disclosed. In one example, a flash memory device may have multiple serial data links, multiple memory banks and control input ports that enable the memory device to transfer the serial data to a serial data output port of the memory device. In another example, a flash memory device may have a single serial data link, a single memory bank, a serial data input port, a control input port for receiving output enable signals. The flash memory devices may be cascaded in a daisy-chain configuration using echo signal lines to serially communicate between memory devices. | 09-05-2013 |
20130242653 | FLASH MULTI-LEVEL THRESHOLD DISTRIBUTION SCHEME - A threshold voltage distribution scheme for multi-level Flash cells where an erase threshold voltage and at least one programmed threshold voltage lie in an erase voltage domain. Having at least one programmed threshold voltage in the erase voltage domain reduces the Vread voltage level to minimize read disturb effects, while extending the life span of the multi-level Flash cells as the threshold voltage distance between programmed states is maximized. The erase voltage domain can be less than 0V while a program voltage domain is greater than 0V. Accordingly, circuits for program verifying and reading multi-level Flash cells having a programmed threshold voltage in the erase voltage domain and the program voltage domain use negative and positive high voltages. | 09-19-2013 |
20130271910 | SYSTEM INCLUDING A PLURALITY OF ENCAPSULATED SEMICONDUCTOR CHIPS - A solid state drive is disclosed. The solid state drive includes a circuit board having opposing first and second surfaces. A plurality of semiconductor chips are attached to the first surface of the circuit board of the solid state drive, and the plurality of semiconductor chips of the solid state drive include at least one memory chip that is at least substantially encapsulated in a resin. An in-line memory module-type form factor circuit board is also disclosed. The in-line memory module-type form factor circuit board has opposing first and second surfaces. A plurality of semiconductor chips are attached to the first surface of the in-line memory module-type form factor circuit board, and these semiconductor chips include at least one memory chip that is at least substantially encapsulated in a resin. | 10-17-2013 |
20130343123 | FLASHMEMORY PROGRAM INHIBIT SCHEME - A method for minimizing program disturb in Flash memories. To reduce program disturb in a NAND Flash memory cell string where no programming from the erased state is desired, a local boosted channel inhibit scheme is used. In the local boosted channel inhibit scheme, the selected memory cell in a NAND string where no programming is desired, is decoupled from the other cells in the NAND string. This allows the channel of the decoupled cell to be locally boosted to a voltage level sufficient for inhibiting F-N tunneling when the corresponding wordline is raised to a programming voltage. Due to the high boosting efficiency, the pass voltage applied to the gates of the remaining memory cells in the NAND string can be reduced relative to prior art schemes, thereby minimizing program disturb while allowing for random page programming. | 12-26-2013 |
20140010019 | NON-VOLATILE MEMORY WITH DYNAMIC MULTI-MODE OPERATION - A method and system for extending the life span of a flash memory device. The flash memory device is dynamically configurable to store data in the single bit per cell (SBC) storage mode or the multiple bit per cell (MBC) mode. In the MBC storage mode, the cell can have one of multiple possible states, where each state is defined by respective threshold voltage ranges. In the SBC mode, the cell can have states with threshold voltages corresponding to states of the MBC storage mode which are non-adjacent to each other to improve reliability characteristics of the cell. | 01-09-2014 |
20140019705 | BRIDGING DEVICE HAVING A CONFIGURABLE VIRTUAL PAGE SIZE - A composite memory device including discrete memory devices and a bridge device for controlling the discrete memory devices. The bridge device has memory organized as banks, where each bank is configured to have a virtual page size that is less than the maximum physical size of the page buffer. Therefore only a segment of data corresponding to the virtual page size stored in the page buffer is transferred to the bank. The virtual page size of the banks is provided in a virtual page size (VPS) configuration command having an ordered structure where the position of VPS data fields containing VPS configuration codes in the command correspond to different banks which are ordered from a least significant bank to a most significant bank. The VPS configuration command is variable in size, and includes only the VPS configuration codes for the highest significant bank being configured and the lower significant banks. | 01-16-2014 |
20140022846 | NAND FLASH MEMORY HAVING MULTIPLE CELL SUBSTRATES - A NAND flash memory bank having a plurality of bitlines of a memory array connected to a page buffer, where NAND cell strings connected to the same bitline are formed in at least two well sectors. At least one well sector can be selectively coupled to an erase voltage during an erase operation, such that unselected well sectors are inhibited from receiving the erase voltage. When the area of the well sectors decrease, a corresponding decrease in the capacitance of each well sector results. Accordingly, higher speed erasing of the NAND flash memory cells relative to a single well memory bank is obtained when the charge pump circuit drive capacity remains unchanged. Alternately, a constant erase speed corresponding to a single well memory bank is obtained by matching a well segment having a specific area to a charge pump with reduced drive capacity. A reduced drive capacity charge pump will occupy less semiconductor chip area, thereby reducing cost. | 01-23-2014 |
20140036435 | STORAGE SYSTEM HAVING A HEATSINK - A storage system sized to fit within a standard magnetic hard disk drive (HDD) form factor. The storage system includes a solid state disk (SSD) and a cooling means thermally coupled to the body of the SSD. The components of the SSD occupy a smaller volume of space than magnetic HDD's. In particular, while the SSD has width and length dimensions matching those of the HDD form factor, the SSD has a height dimension that is less than the HDD form factor. Accordingly, the volume of space between the HDD form factor height and the SSD height is beneficially occupied by the cooling means. The storage system can be then be used as a direct replacement for HDD as it can fit within HDD bays configured for the standardized HDD form factor. | 02-06-2014 |
20140071729 | STACKED SEMICONDUCTOR DEVICES INCLUDING A MASTER DEVICE - A stack that includes non-volatile memory devices is disclosed. One of the non-volatile memory devices in the stack is a master device, and the remaining memory device or devices is a slave device(s). | 03-13-2014 |
20140082260 | FLASH MEMORY CONTROLLER HAVING DUAL MODE PIN-OUT - A memory controller of a data storage device, which communicates with a host, is configurable to have at least two different pinout assignments for interfacing with respective different types of memory devices. Each pinout assignment corresponds to a specific memory interface protocol. Each memory interface port of the memory controller includes port buffer circuitry configurable for different functional signal assignments, based on the selected memory interface protocol to be used. The interface circuitry configuration for each memory interface port is selectable by setting a predetermined port or registers of the memory controller. | 03-20-2014 |
20140122777 | FLASH MEMORY CONTROLLER HAVING MULTI MODE PIN-OUT - A memory controller of a data storage device which communicates with a host, has channel control modules each being configurable to have at three different pinout assignments for interfacing with two different types of memory devices operating with different memory interface protocols. One pinout assignment corresponds to a memory interface protocol where memory devices can be connected in parallel with each other. Two other pinout assignments correspond respectively to inbound and outbound signals of another memory interface protocol where memory devices are serially connected with each other. In this mode of operation, one channel control module is configured to provide the outbound signals while another channel control module is configured to receive the inbound signals. Each memory port of the channel control modules includes port buffer circuitry configurable for different functional signal assignments. The configuration of each channel control module is selectable by setting predetermined ports or registers. | 05-01-2014 |
20140133235 | NON-VOLATILE MEMORY DEVICE HAVING CONFIGURABLE PAGE SIZE - A flash memory device having at least one bank, where the each bank has an independently configurable page size. Each bank includes at least two memory planes having corresponding page buffers, where any number and combination of the memory planes are selectively accessed at the same time in response to configuration data and address data. The configuration data can be loaded into the memory device upon power up for a static page configuration of the bank, or the configuration data can be received with each command to allow for dynamic page configuration of the bank. By selectively adjusting a page size the memory bank, the block size is correspondingly adjusted. | 05-15-2014 |
20140133242 | MEMORY WITH OUTPUT CONTROL - An apparatus, system, and method for controlling data transfer to an output port of a serial data link interface in a semiconductor memory is disclosed. In one example, a flash memory device may have multiple serial data links, multiple memory banks and control input ports that enable the memory device to transfer the serial data to a serial data output port of the memory device. In another example, a flash memory device may have a single serial data link, a single memory bank, a serial data input port, a control input port for receiving output enable signals. The flash memory devices may be cascaded in a daisy-chain configuration using echo signal lines to serially communicate between memory devices. | 05-15-2014 |
20140192593 | FLASH MULTI-LEVEL THRESHOLD DISTRIBUTION SCHEME - A threshold voltage distribution scheme for multi-level Flash cells where an erase threshold voltage and at least one programmed threshold voltage lie in an erase voltage domain. Having at least one programmed threshold voltage in the erase voltage domain reduces the Vread voltage level to minimize read disturb effects, while extending the life span of the multi-level Flash cells as the threshold voltage distance between programmed states is maximized. The erase voltage domain can be less than 0V while a program voltage domain is greater than 0V. Accordingly, circuits for program verifying and reading multi-level Flash cells having a programmed threshold voltage in the erase voltage domain and the program voltage domain use negative and positive high voltages. | 07-10-2014 |
20140195715 | SCALABLE MEMORY SYSTEM - A memory system architecture has serially connected memory devices. The memory system is scalable to include any number of memory devices without any performance degradation or complex redesign. Each memory device has a serial input/output interface for communicating between other memory devices and a memory controller. The memory controller issues commands in at least one bitstream, where the bitstream follows a modular command protocol. The command includes an operation code with optional address information and a device address, so that only the addressed memory device acts upon the command. Separate data output strobe and command input strobe signals are provided in parallel with each output data stream and input command data stream, respectively, for identifying the type of data and the length of the data. The modular command protocol is used for executing concurrent operations in each memory device to further improve performance. | 07-10-2014 |
20140233325 | DYNAMIC RANDOM ACCESS MEMORY WITH FULLY INDEPENDENT PARTIAL ARRAY REFRESH FUNCTION - A dynamic random access memory device includes a plurality of memory subblocks. Each subblock has a plurality of wordlines whereto a plurality of data store cells are connected. Partial array self-refresh (PASR) configuration settings are independently made. In accordance with the PASR settings, the memory subblocks are addressed for refreshing. The PASR settings are made by a memory controller. Any kind of combinations of subblock addresses may be selected. Thus, the memory subblocks are fully independently refreshed. User selectable memory arrays for data retention provide effective memory control programming especially for low power mobile application. | 08-21-2014 |
20140241080 | BRIDGE DEVICE ARCHITECTURE FOR CONNECTING DISCRETE MEMORY DEVICES TO A SYSTEM - A composite memory device including discrete memory devices and a bridge device for controlling the discrete memory devices in response to global memory control signals having a format or protocol that is incompatible with the memory devices. The discrete memory devices can be commercial off-the-shelf memory devices or custom memory devices which respond to native, or local memory control signals. The global and local memory control signals include commands and command signals each having different formats. The composite memory device includes a system in package including the semiconductor dies of the discrete memory devices and the bridge device, or can include a printed circuit board having packaged discrete memory devices and a packaged bridge device mounted thereto. | 08-28-2014 |
20150049550 | NON-VOLATILE MEMORY SERIAL CORE ARCHITECTURE - A memory system having a serial data interface and a serial data path core for receiving data from and for providing data to at least one memory bank as a serial bitstream. The memory bank is divided into two halves, where each half is divided into upper and lower sectors. Each sector provides data in parallel to a shared two-dimensional page buffer with an integrated self column decoding circuit. A serial to parallel data converter within the memory bank couples the parallel data from either half to the serial data path core. The shared two-dimensional page buffer with the integrated self column decoding circuit minimizes circuit and chip area overhead for each bank, and the serial data path core reduces chip area typically used for routing wide data buses. Therefore a multiple memory bank system is implemented without a significant corresponding chip area increase when compared to a single memory bank system having the same density. | 02-19-2015 |