Patent application number | Description | Published |
20130051154 | Method for and Flash Memory Device Having Improved Read Performance - A Flash memory device operable under a single-bit or multiple-bit serial protocol is provided with a capability to determine the address boundary condition of an application from the address field of an address boundary configurable (“ABC”) read command. Based on the identified address boundary condition, the Flash memory device may perform multiple sensing of the memory array as required by the ABC read command using optimal internal sense times for each sensing. The number of dummy bytes may be specified for the read command in advance by the user, based on the address boundary of the application and the desired frequency of operation of the Flash memory device. Therefore, Flash memory device read performance is improved both by minimizing the number of dummy bytes in the read command and by optimizing the internal sense times for the read operation. | 02-28-2013 |
20130297987 | Method and Apparatus for Reading NAND Flash Memory - A page buffer for a NAND memory array has a data register and a cache register that are suitably organized and operated to eliminate gaps and discontinuities in the output data during a continuous page read. The cache register may be organized in two portions, and the page data in the cache may be output from the cache portions in alternation. ECC delay may be eliminated from the output by performing the ECC computation on one cache portion while the other is being output. The data register may also be organized in two portions corresponding to the cache portions, so that data may be transferred to one cache portion while the other is being output. In a variation, the continuous page read may be done without ECC. | 11-07-2013 |
20130346671 | On-Chip Bad Block Management for NAND Flash Memory - Certain functions relating to creation and use of a look-up table for bad block mapping may be implemented “on chip” in the memory device itself, that is on the same die in an additional circuit, or even within the command and control logic of the memory device, so as to reduce the overhead. Moreover, the on-chip implementation of the look-up table may be tightly integrated with other functions of the command and control logic to enable powerful new commands for NAND flash memory, such as a continuous read command and variations thereof. | 12-26-2013 |
20140104947 | NON-VOLATILE SEMICONDUCTOR MEMORY DATA READING METHOD THEREOF - A non-volatile semiconductor memory includes a memory array, a selecting device selecting a page according to addresses, a data storage device, storing page data, and an output device outputting the stored data. The data storage device includes a first data storage device receiving data from a selected page of the memory array, a second data storage device receiving data from the first data storage device, and a data transmission device configured between the first and the second data storage device. The data transmission device transmits data in a second part of the first data storage device to the second data storage device when data in a first part of the second data storage device is output, and transmits data in a first part of the first data storage device to the second data storage device when data in a second part of the second data storage device is output. | 04-17-2014 |
20140269065 | NAND Flash Memory - Serial NAND flash memory may be provided with the characteristics of continuous read of the memory across page boundaries and from logically contiguous memory locations without wait intervals, while also being clock-compatible with the high performance serial flash NOR (“HPSF-NOR”) memory read commands so that the serial NAND flash memory may be used with controllers designed for HPSF-NOR memory. Serial NAND flash memory having these compatibilities is referred to herein as high-performance serial flash NAND (“SPSF-NAND”) memory. Since devices and systems which use HPSF-NOR memories and controllers often have extreme space limitations, HPSF-NAND may also be provided with the same physical attributes of low pin count and small package size of HPSF-NOR memory for further compatibility. HPSF-NAND memory is particularly suitable for code shadow applications, even while enjoying the low “cost per bit” and low per bit power consumption of a NAND memory array at higher densities. | 09-18-2014 |
20140307509 | Method for and Flash Memory Device Having Improved Read Performance - A Flash memory device operable under a single-bit or multiple-bit serial protocol is provided with a capability to determine the address boundary condition of an application from the address field of an address boundary configurable (“ABC”) read command. Based on the identified address boundary condition, the Flash memory device may perform multiple sensing of the memory array as required by the ABC read command using optimal internal sense times for each sensing. The number of dummy bytes may be specified for the read command in advance by the user, based on the address boundary of the application and the desired frequency of operation of the Flash memory device. Therefore, Flash memory device read performance is improved both by minimizing the number of dummy bytes in the read command and by optimizing the internal sense times for the read operation. | 10-16-2014 |
20160034346 | NAND Flash Memory Having Internal ECC Processing and Method of Operation Thereof - A continuous read operation may be achieved by using a data buffer having a partitioned data register and a partitioned cache register, user configurable internal ECC associated with the cache register, and fast bad block management. During a data read operation, the ECC status may be indicated by ECC status bits. The status (1:1), for example, may indicate for the Continuous Read Mode that the entire data output contains more than 4 bits errors/page in multiple pages. However, one may wish to know the ECC status of each page or of each page partition. For the former, the ECC status for the entire page may be determined and made in the status register at the end of the output of the page. For the latter, the ECC status of each page partition may be determined and output before output of the corresponding page partition. | 02-04-2016 |
20160034351 | Apparatus and Method for Programming ECC-Enabled NAND Flash Memory - The NAND flash memory array in a memory device may be programmed using a cache program execute technique for fast performance. The memory device includes a page buffer, which may be implemented as a cache register and a data register. Program data may be loaded to the cache register, where it may be processed by an error correction code (“ECC”) circuit. Thereafter, the ECC processed data in the cache register may be replicated to the data register and used to program the NAND flash memory array. Advantageously, immediately after the ECC processed data in the cache register is replicated to the data register, the cache register may be made available for other operations. Of particular benefit is that a second page of program data may be loaded into the cache register and ECC processed while the first page of program data is being programmed into the NAND flash memory array. | 02-04-2016 |
20160034352 | NAND Flash Memory Having an Enhanced Buffer Read Capability and Method of Operation Thereof - A page buffer suitable for continuous page read may be implemented with a partitioned data register, a partitioned cache register, and a suitable ECC circuit. The partitioned data register, partitioned cache register, and associated ECC circuit may also be used to realize a substantial improvement in the page read operation by using a modified Page Data Read instruction and/or a Buffer Read instruction, including in some implementations the use of a partition busy bit. | 02-04-2016 |