Patent application number | Description | Published |
20090217136 | STORAGE APPARATUS, CONTROLLER AND DATA ACCESSING METHOD THEREOF - A storage apparatus is provided. The controller of the storage apparatus includes an error correction module and a data disordering module. The error correction module is configured to perform an error correction procedure for a data packet to be written into a flash memory module of the storage apparatus for generating sequence data codes containing the data packet and corresponding error correcting codes, wherein the data packet includes a data area recording data to be written and a spare area recording data related to the data packet. The data disordering module is configured to convert the sequence data codes into non-sequence data codes, wherein the data of the data area and the spare area and error correcting codes are dispersed in the non-sequence data codes. Accordingly, it is possible to effectively increase the safety of the data packet. | 08-27-2009 |
20090248961 | MEMORY MANAGEMENT METHOD AND CONTROLLER FOR NON-VOLATILE MEMORY STORAGE DEVICE - A memory management method and a controller for a non-volatile memory storage device are provided. The memor management method and the controller are adapted for establishing a logical-to-physical mapping table of each block in a memory buffer of the controller by merely reading the data stored in a system management area within a start page of each block, so as to promote the management efficiency of the non-volatile memory storage device. In addition, the method and the controller of the present invention integrate all of or a part of the system management areas within the start page for efficiently managing and using the memory capacity of all the system management areas within the start page. | 10-01-2009 |
20090287877 | MULTI NON-VOLATILE MEMORY CHIP PACKAGED STORAGE SYSTEM AND CONTROLLER AND ACCESS METHOD THEREOF - A multi non-volatile memory chip packaged storage system having a memory module, a controller, a first and a second control buses and a first and a second I/O buses is provided. The memory module at least includes a first and a second non-volatile memory chips which are both enabled by receiving a chip enabled signal via a chip enabled pin, wherein the memory module and the controller are stacked and packaged as a single chip. After the first and the second non-volatile memory chips are enabled by the chip enable signal via the chip enabled pin, the controller may active the first and second control buses and the first and second I/O buses to access the first and the second non-volatile memory chips, or only active the first control and I/O buses or the second control and I/O buses to access the corresponding first or second non-volatile memory chip. | 11-19-2009 |
20090300271 | STORAGE SYSTEM HAVING MULTIPLE NON-VOLATILE MEMORIES, AND CONTROLLER AND ACCESS METHOD THEREOF - A non-volatile memory storage system including a transmission interface, a memory module, and a controller is provided. The memory module includes first and second non-volatile memory chips. The first and the second non-volatile memory chips can be simultaneously enabled by receiving a chip enable signal from the controller via a chip enable pin. When the controller performs a multichannel access, the controller provides an access instruction to the first and second non-volatile memory chip, after enabling the first non-volatile memory chip and the second non-volatile memory chip with the chip enable signal. When the controller performs a single channel access, the controller provides the access signal to one of the first and second non-volatile memory chips, and provides a non-access instruction to the other one, after enabling the first non-volatile memory chip and the second non-volatile memory chip with the chip enable signal. | 12-03-2009 |
20100125772 | ERROR CORRECTING CONTROLLER, FLASH MEMORY CHIP SYSTEM, AND ERROR CORRECTING METHOD THEREOF - An error correcting controller for connecting an old host controller having an old error correcting function with a new flash memory which requires a new error correcting function is provided. When the old host controller needs to write data into the new flash memory, the error correcting controller generates a new error correcting code according to the new error correcting function for the data. Then, when the old host controller needs to read the data from the new flash memory, the error correcting controller performs an error correcting procedure according to the new error correcting code and transmits information to the old host controller according to the result of the error correcting procedure and the old error correcting function. Accordingly, it is possible to allow the old host controller to access the new flash memory without changing the architecture of the old host controller. | 05-20-2010 |
20100262892 | DATA ACCESS METHOD FOR FLASH MEORY AND STORAGE SYSTEM AND CONTROLLER THEREOF - A data access method for accessing data in a flash memory is provided, wherein the data has a plurality of sub-data. The data access method includes generating an error correction code (ECC) for the data and writing the data and the ECC into the flash memory. The data access method also includes generating a corresponding bit checking code for each of the sub-data and writing the bit checking codes into the flash memory. When the sub-data subsequently is read from the flash memory, whether the sub-data contains any error is determined only according to the bit checking code corresponding to the sub-data. Thereby, the data access efficiency is improved. | 10-14-2010 |
20130254629 | DATA ACCESSING METHOD FOR FLASH MEMORY MODULE - A storage apparatus is provided. The controller of the storage apparatus includes an error correction module and a data disordering module. The error correction module is configured to perform an error correction procedure for a data packet to be written into a flash memory module of the storage apparatus for generating sequence data codes containing the data packet and corresponding error correcting codes, wherein the data packet includes a data area recording data to be written and a spare area recording data related to the data packet. The data disordering module is configured to convert the sequence data codes into non-sequence data codes, wherein the data of the data area and the spare area and error correcting codes are dispersed in the non-sequence data codes. Accordingly, it is possible to effectively increase the safety of the data packet. | 09-26-2013 |
20140047160 | DATA WRITING METHOD, AND MEMORY CONTROLLER AND MEMORY STORAGE APPARATUS USING THE SAME - A data writing method for writing data into a memory cell of a rewritable non-volatile memory module, and a memory controller and a memory storage apparatus using the same area provided. The method includes recording a wear degree of the memory cell and adjusting an initial write voltage and a write voltage pulse time corresponding to the memory cell based on the wear degree thereof. The method further includes programming the memory cell by applying the initial write voltage and the write voltage pulse time, thereby writing the data into the memory cell. Accordingly, data can be accurately stored into the rewritable non-volatile memory module by the method. | 02-13-2014 |
20140129206 | SIMULATOR AND SIMULATING METHOD FOR FLASH MEMORY BACKGROUND - A simulating method for a flash memory and a simulator using the simulating method are provided. The simulator is configured to couple to a memory controller. The simulating method includes: setting a predetermined response condition; providing multiple command sets, wherein each of the command sets corresponds to a memory type; receiving a first command from the memory controller; identifying a second command in the command sets according to the first command; determining if the second command matches the predetermined response condition; obtaining a first signal corresponding to the second command according to the predetermined response condition; and, transmitting the first signal to the memory controller. Accordingly, the usage of the simulator is flexible. | 05-08-2014 |
20140160844 | MEMORY REPAIRING METHOD, AND MEMORY CONTROLLER AND MEMORY STORAGE APPARATUS USING THE SAME - A memory repairing method for a rewritable non-volatile memory module and a memory controller and a memory storage apparatus are provided. The method includes monitoring a wear degree of the rewritable non-volatile memory module; determining whether the wear degree of the rewritable non-volatile memory module is larger than a threshold; and heating the rewritable non-volatile memory module such that the temperature of the rewritable non-volatile memory module lies in between 100° C.˜600° C. if the wear degree of the rewritable non-volatile memory module is larger than the threshold. Accordingly, deteriorated memory cells in the rewritable non-volatile memory module can be repaired, thereby preventing data loss. | 06-12-2014 |
20140286105 | NAND FLASH MEMORY UNIT, OPERATING METHOD AND READING METHOD - A NAND flash memory unit, an operating method and a reading method are provided. The NAND flash memory unit includes a plurality of gate layers, a tunnel layer, a charge trapping layer, a conductor layer and a second dielectric layer. A first dielectric layer is included between two adjacent gate layers among the gate layers. The tunnel layer, the charge trapping layer, the conductor layer, and the second dielectric layer penetrate the gate layers. The charge trapping layer is disposed between the tunnel layer and the gate layers, and the second dielectric layer is disposed between the conductor layer and the tunnel layer. Therefore, an erasing speed may be increased; the charge trapping layer may be repaired; the controllability of the gate layers may be increased. | 09-25-2014 |
20140293696 | DATA READING METHOD, AND CONTROL CIRCUIT, MEMORY MODULE AND MEMORY STORAGE APPARATUS AND MEMORY MODULE USING THE SAME - A data reading method for a rewritable non-volatile memory module is provided. The method includes applying a test voltage to a word line of the rewritable non-volatile memory module to read a plurality of verification bit data. The method also includes calculating a variation of bit data identified as a first status among the verification bit data, obtaining a new read voltage value set based on the variation, and updating a threshold voltage set for the word line with the new read voltage value set. The method further includes using the updated threshold voltage set to read data from a physical page formed by memory cells connected to the word line. Accordingly, storage states of memory cells in the rewritable non-volatile memory module can be identified correctly, thereby preventing data stored in the memory cells from losing. | 10-02-2014 |
20140325118 | DATA WRITING METHOD, MEMORY CONTROLLER AND MEMORY STORAGE APPARATUS - A data writing method for writing data into a physical erasing unit and a memory controller and a memory storage apparatus using the data writing method are provided. The method includes dividing the data into a plurality of information frames in a unit of one physical programming unit. The method also includes writing the information frames in sequence into at least one physical programming unit constituted by memory cells disposed on at least one first word line and programming the storage state of memory cells disposed on at least one second word line following the first word line to an auxiliary pattern. Accordingly, the method effectively prevents data stored in the physical erasing unit, which is not full of data, from being lost due to a high temperature. | 10-30-2014 |
20150067446 | DECODING METHOD, MEMORY STORAGE DEVICE AND REWRITABLE NON-VOLATILE MEMORY MODULE - A decoding method, a memory storage device and a rewritable non-volatile memory module are provided. The method includes: reading a plurality of bits from the rewritable non-volatile memory module according to a reading voltage; performing a parity check of a low density parity check (LDPC) algorithm on the bits to obtain syndromes, and each of the bits is corresponding to at least one of the syndromes; determining whether the bits have an error according to the syndromes; if the bits have the error, obtaining a syndrome weight of each of the bits according to the syndromes corresponding to each of the bits; obtaining an initial value of each of the bits according to the syndrome weight of each of the bits; and performing a first iteration decoding of the LDPC algorithm on the bits according to the initial values. Accordingly, the decoding speed is increased. | 03-05-2015 |