Patent application number | Description | Published |
20090043947 | MANAGING PROCESSING DELAYS IN AN ISOCHRONOUS SYSTEM - Command cycles incorporate mechanisms to inform a host processor in advance of a need to service the memory so that the host can respond when it suits the host, but in time for the service to be performed before a catastrophic failure. The regular host cycle need not be interrupted for such notification. | 02-12-2009 |
20090044190 | URGENCY AND TIME WINDOW MANIPULATION TO ACCOMMODATE UNPREDICTABLE MEMORY OPERATIONS - The variable latency associated with flash memory due to background data integrity operations is managed in order to allow the flash memory to be used in isochronous systems. A system processor is notified regularly of the nature and urgency of requests for time to ensure data integrity. Minimal interruptions of system processing are achieved and operation is ensured in the event of a power interruption. | 02-12-2009 |
20090067241 | DATA PROTECTION FOR WRITE ABORT - A portion of a nonvolatile memory array that is likely to contain, partially programmed data may be identified from a high sensitivity read, by applying stricter than usual ECC requirements, or using pointers to programmed sectors. The last programmed data may be treated as likely to be partially programmed data. Data in the identified portion may be copied to another location, or left where it is with an indicator to prohibit further programming to the same cells. To avoid compromising previously stored data during subsequent programming, previously stored data may be backed up. Backing up may be done selectively, for example, only for nonsequential data, or only when the previously stored data contains an earlier version of data being programmed. If a backup copy already exists, another backup copy is not created. Sequential commands are treated as a single command if received within a predetermined time period. | 03-12-2009 |
20090070518 | Adaptive Block List Management - In a nonvolatile memory array, selected blocks are maintained as open blocks that are available to store additional data without being erased first. Nonsequential open blocks are selected from two lists, one list based on recency of the last write operation, and the other list based on frequency of writes to the block. Sequential open blocks are divided into blocks expected to remain sequential and blocks that are not expected to remain sequential. | 03-12-2009 |
20090070521 | WRITE ABORT AND ERASE ABORT HANDLING - A portion of a nonvolatile memory array that is likely to contain, partially programmed data may be identified from a high sensitivity read, by applying stricter than usual ECC requirements, or using pointers to programmed sectors. The last programmed data may be treated as likely to be partially programmed data. Data in the identified portion may be copied to another location, or left where it is with an indicator to prohibit further programming to the same cells. To avoid compromising previously stored data during subsequent programming, previously stored data may be backed up. Backing up may be done selectively, for example, only for nonsequential data, or only when the previously stored data contains an earlier version of data being programmed. If a backup copy already exists, another backup copy is not created. Sequential commands are treated as a single command if received within a predetermined time period. | 03-12-2009 |
20090070748 | POINTERS FOR WRITE ABORT HANDLING - A portion of a nonvolatile memory array that is likely to contain, partially programmed data may be identified from a high sensitivity read, by applying stricter than usual ECC requirements, or using pointers to programmed sectors. The last programmed data may be treated as likely to be partially programmed data. Data in the identified portion may be copied to another location, or left where it is with an indicator to prohibit further programming to the same cells. To avoid compromising previously stored data during subsequent programming, previously stored data may be backed up. Backing up may be done selectively, for example, only for nonsequential data, or only when the previously stored data contains an earlier version of data being programmed. If a backup copy already exists, another backup copy is not created. Sequential commands are treated as a single command if received within a predetermined time period. | 03-12-2009 |
20090080249 | Non-volatile memory cell endurance using data encoding - A method and apparatus for storing an n-bit (for n>=2) data block in an array of non-volatile memory cells utilizes a predetermined n+k-bit (for k>=1) encoding selected to reduce the number of programmed cells required to store the n-bit data block. | 03-26-2009 |
20090089482 | DYNAMIC METABLOCKS - A nonvolatile block erasable memory array links erase blocks together for programming with high parallelism as a metablock. Erase blocks are operated in banks, with each bank having a dedicated bus and controller. Sub-metablocks of different metablocks, in different banks, are accessed in parallel allowing different metablocks to be updated at the same time. | 04-02-2009 |
20090204824 | SYSTEM, METHOD AND MEMORY DEVICE PROVIDING DATA SCRAMBLING COMPATIBLE WITH ON-CHIP COPY OPERATION - Data scrambling techniques implemented externally to a flash memory device are disclosed which can be used in concert with flash memory on-chip copy functionality operating internally to the flash device, thus supporting high performance copying operations. All the data stored in the flash may be scrambled, including headers and control structures. Robust file system operation may be achieved, including the capability to tolerate a power loss at any time, and yet be able to relocate data internally within the flash without having to de-scramble and then re-scramble the data. An exemplary hardware based solution has little or no impact on overall system performance, and may be implemented at very low incremental cost to increase overall system reliability. The data scrambling technique preferably uses a logical address, such as logical block address or logical page address, rather than a physical address, to determine a seed scrambling key. | 08-13-2009 |
20100146186 | Program Control of a non-volatile memory - A method of storing data onto a non-volatile memory includes receiving, from a host, first data that is originally assigned to a first storage area, programming the first data to a second storage area, receiving second data from the host, and while receiving the second data from the host, programming, to the first storage area, the first data that has been programmed to the second storage area, wherein the second data is received from the host simultaneously with the first data being programmed to the first storage area. The second storage area is capable of having data stored thereon faster than the first storage area. | 06-10-2010 |
20100172180 | Non-Volatile Memory and Method With Write Cache Partitioning - A portion of a nonvolatile memory is partitioned from a main multi-level memory array to operate as a cache. The cache memory is configured to store at less capacity per memory cell and finer granularity of write units compared to the main memory. In a block-oriented memory architecture, the cache has multiple functions, not merely to improve access speed, but is an integral part of a sequential update block system. Decisions to write data to the cache memory or directly to the main memory depend on the attributes and characteristics of the data to be written, the state of the blocks in the main memory portion and the state of the blocks in the cache portion. | 07-08-2010 |
20100174846 | Nonvolatile Memory With Write Cache Having Flush/Eviction Methods - A portion of a nonvolatile memory is partitioned from a main multi-level memory array to operate as a cache. The cache memory is configured to store at less capacity per memory cell and finer granularity of write units compared to the main memory. In a block-oriented memory architecture, the cache has multiple functions, not merely to improve access speed, but is an integral part of a sequential update block system. Decisions to archive data from the cache memory to the main memory depend on the attributes of the data to be archived, the state of the blocks in the main memory portion and the state of the blocks in the cache portion. | 07-08-2010 |
20100174847 | Non-Volatile Memory and Method With Write Cache Partition Management Methods - A portion of a nonvolatile memory is partitioned from a main multi-level memory array to operate as a cache. The cache memory is configured to store at less capacity per memory cell and finer granularity of write units compared to the main memory. In a block-oriented memory architecture, the cache has multiple functions, not merely to improve access speed, but is an integral part of a sequential update block system. The cache memory has a capacity dynamically increased by allocation of blocks from the main memory in response to a demand to increase the capacity. Preferably, a block with an endurance count higher than average is allocated. The logical addresses of data are partitioned into zones to limit the size of the indices for the cache. | 07-08-2010 |
20100174869 | MAPPING ADDRESS TABLE MAINTENANCE IN A MEMORY DEVICE - A method and system maintains an address table for mapping logical groups to physical addresses in a memory device. The method includes receiving a request to set an entry in the address table and selecting and flushing entries in an address table cache depending on the existence of the entry in the cache and whether the cache meets a flushing threshold criteria. The flushed entries include less than the maximum capacity of the address table cache. The flushing threshold criteria includes whether the address table cache is full or if a page exceeds a threshold of changed entries. The address table and/or the address table cache may be stored in a non-volatile memory and/or a random access memory. Improved performance may result using this method and system due to the reduced number of write operations and time needed to partially flush the address table cache to the address table. | 07-08-2010 |