| Patent application number | Description | Published |
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| 20100235572 | DATA STORAGE SYSTEM REDUNDANCY SCHEME VERIFICATION - Data storage systems are provided. Some embodiments of data storage systems include a storage device controller and a plurality of storage devices. The plurality of storage devices are illustratively in a redundancy scheme and the storage device controller receives from the plurality of storage devices a plurality of symbols. In one embodiment, each of the plurality of symbols is representative of data in the redundancy scheme, and the storage device controller verifies the consistency of the redundancy scheme based at least in part on the plurality of symbols. | 09-16-2010 |
| 20110075490 | DATA STRIPES AND ADDRESSING FOR FLASH MEMORY DEVICES - Data stripes and addressing for flash memory devices are provided. Flash memory devices illustratively have a plurality of programmable devices that are capable of simultaneously storing data. A plurality of erasure blocks are within each of the programmable devices, and each erasure block has pages of transistors. The flash memory devices are logically organized as a plurality of stripes. Each stripe has a height and a width. In an embodiment, the stripe height is greater than one page. In another embodiment, the stripe width is less than all of the programmable devices within the flash memory device. | 03-31-2011 |
| 20110119442 | NON-VOLATILE WRITE CACHE FOR A DATA STORAGE SYSTEM - The present disclosure provides a data storage system. In one example, the data storage system includes a data storage media component having a plurality of data storage locations. A first set of the plurality of data storage locations are allocated for a main data storage area. The data storage system also includes a controller configured to define a write cache for the main data storage area by selectively allocating a second set of the plurality of data storage locations. | 05-19-2011 |
| 20110185113 | Maintaining Data Integrity in a Data Storage Device - Method and apparatus for maintaining data integrity in a data storage device. In accordance with some embodiments, a memory space has a plurality of garbage collection units (GCUs) each arranged to store user data identified by logical addresses. Each GCU has a metadata region that stores metadata that correlates the logical addresses LBAs with physical addresses and a header region that stores descriptor data that identifies LBAs stored in the associated GCU. A control circuit identifies an error in the metadata from the descriptor data of a selected GCU and rebuilds the metadata to indicate a storage location of a most current version of data associated with a selected logical address. | 07-28-2011 |
| 20110225346 | GARBAGE COLLECTION IN A STORAGE DEVICE - In general, this disclosure relates to garbage collection in a storage device. Aspects of this disclosure describe techniques to identify one or more candidate memory storage blocks that should be recycled during garbage collection. The one or more candidate memory storage blocks may be identified based at least on monitored soft metrics of the candidate memory storage blocks. During garbage collection, the identified one or more candidate memory storage blocks may be recycled to free up storage space. | 09-15-2011 |
| 20110225347 | LOGICAL BLOCK STORAGE IN A STORAGE DEVICE - In general, this disclosure relates to storage of logical blocks in a storage device. Aspects of this disclosure describe techniques to monitor the frequency of access of one or more logical blocks referenced by one or more logical block addresses. Based on the frequency of access, in non-limiting aspects of this disclosure, a controller may select one or more physical blocks of a common memory storage block. The storage device may store the logical blocks in the selected physical blocks. | 09-15-2011 |
| 20110231596 | Multi-Tiered Metadata Scheme for a Data Storage Array - Method and apparatus for managing metadata associated with a data storage array. In accordance with various embodiments, a group of user data blocks are stored to memory cells at a selected physical address of the array. A multi-tiered metadata scheme is used to generate metadata which describes the selected physical address of the user data blocks. The multi-tiered metadata scheme provides an upper tier metadata format adapted for groups of N user data blocks, and a lower tier metadata format adapted for groups of M user data blocks where M is less than N. The generated metadata is formatted in accordance with a selected one of the upper or lower tier metadata formats in relation to a total number of the user data blocks in the group. | 09-22-2011 |
| 20110231623 | Garbage Collection Management in a Data Storage Device - Method and apparatus for handling data in a data storage device. In accordance with some embodiments, a memory space with a plurality of garbage collection units (GCUs) that are each arranged into pages of memory that store user data identified by logical addresses (LAs) and each GCU has a metadata region that stores metadata that correlates the LAs with physical addresses (PAs). A header region in each page of memory stores a bitmask and a sequence map of the LAs in each page that are used by a log manager to creates a bitmask table stored in a first cache and a hierarchical log stored in a second cache. The bitmask table and hierarchical log are used to determine when the LAs stored in the selected GCU are stale, and update the bitmask for each page in the selected GCU after the stale data has been erased. | 09-22-2011 |
| 20110258380 | FAULT TOLERANT STORAGE CONSERVING MEMORY WRITES TO HOST WRITES - A data storage apparatus and associated method involving a memory with a plurality of storage elements defining an associated set of stored data, and memory control logic that, responsive to a request to store first data in a first storage element of the plurality of storage elements, computes without storing to any of the plurality of storage elements first redundancy data for the associated set of stored data inclusive of the first data. | 10-20-2011 |
| 20110264843 | DATA SEGREGATION IN A STORAGE DEVICE - An example method includes providing at least two data storage areas in a memory, providing a first amount of over-provisioning for a first of the at least two data storage areas and a second amount of over-provisioning for a second of the at least two data storage areas, categorizing data based on a characteristic of the data, and storing the data in one of the at least two data storage areas based on the categorization. | 10-27-2011 |
| 20110302474 | Ensuring a Most Recent Version of Data is Recovered From a Memory - Method and apparatus for ensuring a most recent version of data is retrieved from a memory, such as a non-volatile flash memory array. In accordance with various embodiments, a controller is adapted to sequentially store different versions of an addressable data block having a selected logical address in different locations within a memory. The controller assigns a revision indication value to each said version, with at least two of said stored versions concurrently sharing the same revision indication value. In some embodiments, the revision indication value constitutes a repeating cyclical sequence count that is appended to each block, or logically combined with a code value and stored with each block. The total number of counts in the sequence is less than the total number of versions resident in the memory. | 12-08-2011 |
| 20110302477 | Data Hardening to Compensate for Loss of Data Retention Characteristics in a Non-Volatile Memory - Method and apparatus for enhancing reliability and integrity of data stored in a non-volatile memory, such as in a solid-state drive (SSD) having an array of flash memory cells. In accordance with various embodiments, a controller is adapted to harden data stored in a first location of said memory in relation to a detected loss of retention characteristics of the first location. In some embodiments, the data are hardened by storing redundancy information associated with said data in a second location of said memory. The redundancy information can be a redundant set of the data or higher level error correct codes (ECC). The hardened data can be recovered to the host during a read operation by accessing the data stored in both the first and second locations. | 12-08-2011 |
