According to one aspect of the present invention, there is provided a method for performing storage control. Member storage media and a hot spare storage medium are identified in a storage system. The member storage media are members of a storage medium array, and the hot spare storage medium is for joining in the storage medium array when a member storage medium fails. Data on a member storage medium having a write amplification effect is migrated to the hot spare storage medium. In the member storage medium having a write amplification effect, an erase operation is performed on a storage medium where the migrated data is located. Embodiments of the present invention can alleviate adverse impact caused by a write amplification effect.

A method begins with a dispersed storage network (DSN) processing module receiving content retrieval message from one or more requesters. The method continues by determining DRM policies and read operational parameters. The method continues by retrieving a set of encoded data slices from DSN memory, the set of encoded data slices including unique subsets of the set of encoded data slices with each of the unique subsets assigned to one or more of the requesters based at least in part on the determined read operational parameters. The method continues by sending the set of encoded data slices to the requesters. The requestors select their assigned subset of the received set of encoded data slices and decode to produce the content.

Limiting the execution of background management operations in a drive array, including: receiving a read instruction to read data from a memory drive in the drive array; determining whether the read instruction is associated with a write instruction to write data to a memory drive in the drive array; responsive to determining that the read instruction is associated with the write instruction, restricting performance of background management operations on the memory drive targeted by the write instruction; determining whether the write instruction has completed; and responsive to determining that the write instruction has completed, removing restrictions associated with the performance of background management operations on the memory drive targeted by the write instruction.

A system and method for offset protection data in a RAID array. A computer system comprises client computers and data storage arrays coupled to one another via a network. A data storage array utilizes solid-state drives and Flash memory cells for data storage. A storage controller within a data storage array is configured to store user data in a first page of a first storage device of the plurality of storage devices; generate intra-device protection data corresponding to the user data, and store the intra-device protection data at a first offset within the first page. The controller is further configured to generate inter-device protection data corresponding to the first page, and store the inter-device protection data at a second offset within a second page in a second storage device of the plurality of storage devices, wherein the first offset is different from the second offset.

An integrity record is appended to data slices prior to being sent to multiple slice storage units. Each of the data slices includes a different encoded version of the same data segment. An integrity indicator of each data slice is computed, and the integrity record is generated based on each of the individual integrity indicators, and may be, for example, list or a hash of the combined integrity indicators. When retrieving data slices from storage, the integrity record can be stripped off, a new integrity indicator of the data slice calculated, and a new integrity record created. The new integrity record can be compared to the original integrity record, and used to verify the integrity of the data slices.

A system and method for offset protection data in a RAID array. A computer system comprises client computers and data storage arrays coupled to one another via a network. A data storage array utilizes solid-state drives and Flash memory cells for data storage. A storage controller within a data storage array is configured to store user data in a first page of a first storage device of the plurality of storage devices; generate intra-device protection data corresponding to the user data, and store the intra-device protection data at a first offset within the first page. The controller is further configured to generate inter-device protection data corresponding to the first page, and store the inter-device protection data at a second offset within a second page in a second storage device of the plurality of storage devices, wherein the first offset is different from the second offset.

A system and method for offset protection data in a RAID array. A computer system comprises client computers and data storage arrays coupled to one another via a network. A data storage array utilizes solid-state drives and Flash memory cells for data storage. A storage controller within a data storage array is configured to store user data in a first page of a first storage device of the plurality of storage devices; generate intra-device protection data corresponding to the user data, and store the intra-device protection data at a first offset within the first page. The controller is further configured to generate inter-device protection data corresponding to the first page, and store the inter-device protection data at a second offset within a second page in a second storage device of the plurality of storage devices, wherein the first offset is different from the second offset.

According to one aspect of the present invention, there is provided a method for performing storage control. Member storage media and a hot spare storage medium are identified in a storage system. The member storage media are members of a storage medium array, and the hot spare storage medium is for joining in the storage medium array when a member storage medium fails. Data on a member storage medium having a write amplification effect is migrated to the hot spare storage medium. In the member storage medium having a write amplification effect, an erase operation is performed on a storage medium where the migrated data is located. Embodiments of the present invention can alleviate adverse impact caused by a write amplification effect.

In a data storage system including a non-volatile random access memory (NVRAM) array, a page is a smallest granularity of the NVRAM array that can be accessed by read and write operations, and a memory block containing multiple pages is a smallest granularity of the NVRAM array that can be erased. Data are stored in the NVRAM array in page stripes distributed across multiple memory blocks. In response to detection of an error in a particular page of a particular block of the NVRAM array, only the particular page of the particular block is retired, such that at least two of the multiple memory blocks across which a particular one of the page stripes is distributed include differing numbers of active (non-retired) pages.

A method includes obtaining a data object for storage. The method further includes generating a data object identifier for the data object. The method further includes determining a vault for storing the data object. The method further includes generating a source name for the data object based on the data object identifier and a vault identifier. The method further includes dispersed storage error encoding the data object to produce a plurality of sets of encoded data slices. The method further includes generating a plurality of sets of slice names, wherein each of the slice names of the plurality of slice names includes the source name. The method further includes sending, in accordance with the plurality of sets of slice names, the plurality of sets of encoded data slices to a set of storage units of the DSN that supports the vault for storage therein.