Undo logging for persistent memory transactions may permit concurrent transactions to write to the same persistent object. After an undo log record has been written, a single persist barrier may be issued. The tail pointer of the undo log may be updated after the persist barrier, and without another persist barrier, so the tail update may be persisted when the next log record is written and persisted. Undo logging for persistent memory transactions may rely on inferring the tail of an undo log after a failure rather than relying on a guaranteed correct tail pointer based on persisting the tail after every append. Additionally, transaction version numbers and checksum information may be stored to the undo log enabling failure recovery.

The object of the invention relates to a method for the backing up and recovery of digital data stored on a solid-state data storage device (1), including operatively connecting the solid-state data storage device (1) to an information technology device via a connection interface (2), writing the data created during the operation of the information technology device onto the data storage device (1) via the connection interface (2) with the use of the storage controller (3) of the data storage device (1),transmitting the data previously stored on the data storage device (1) that becomes necessary during the operation of the information technology device to the information technology device via the connection interface (2) with the use of the storage controller (3) of the data storage device (1). The essence of the method is making a disc image level security backup of the digital data stored in the primary volume (4) of the data storage area of the data storage device (1) during which, by using the storage controller (3) of the data storage device (1), and copying the data through the internal data buses (7) of the data storage device (1), without any data traffic passing through the connection interface (2), from the primary volume (4) to the physically separate backup volume (5) of the data storage area of the data storage device (1), and using the storage controller (3) to copy a backed up disc image copied onto the dedicated separate backup volume (5) through the internal data buses (7) of the data storage device (1), without any data traffic passing through the connection interface (2), back to the primary volume (4) of the data storage device (1) in the case of disc image recovery. The object of the invention also relates to a high-security solid-state data storage device serving for executing such a method.

Devices and techniques are disclosed herein for more efficiently exchanging large amounts of data between a host and a storage system. In an example, a read command can optionally include a read-type indicator. The read-type indicator can allow for exchange of a large amount of data between the host and the storage system using a single read command.

Devices and techniques are disclosed herein for more efficiently exchanging large amounts of data between a host and a storage system. In an example, a large read operation can include receiving a pre-fetch command, a parameter list and a read command at a storage system. In certain examples, the pre-fetch command can provide an indication of the length of the parameter list, and the parameter list can provide location identifiers of the storage system from which the read command can sense the read data.

A computing system having memory components of different tiers. The computing system further includes a controller, operatively coupled between a processing device and the memory components, to: receive from the processing device first data access requests that cause first data movements across the tiers in the memory components; service the first data access requests after the first data movements; predict, by applying data usage information received from the processing device in a prediction model trained via machine learning, second data movements across the tiers in the memory components; and perform the second data movements before receiving second data access requests, where the second data movements reduce third data movements across the tiers caused by the second data access requests.

A remote data replication method and a storage system, where a production array sends a data replication request to a disaster recovery array. The data replication request includes an identifier of a source object and a data block corresponding to the source object. The data block is stored in physical space of a hard disk of the production array. The disaster recovery array receives the data replication request. The disaster recovery array creates a target object when the disaster recovery array does not include an object having a same identifier as the source object. An identifier of the target object is the same as the identifier of the source object, the disaster recovery array writes the data block into the physical space. This may reduce bandwidth load between the production array and the disaster recovery array.

The present disclosure includes apparatuses, methods, and systems for data relocation in memory. An embodiment includes a controller, and a memory having a plurality of physical units of memory cells. Each of the physical units has a different sequential physical address associated therewith, a first number of the physical units have data stored therein, a second number of the physical units do not have data stored therein, and the physical address associated with each respective one of the second number of physical units is a different consecutive physical address in the sequence. The controller can relocate the data stored in the physical unit of the first number of physical units, whose physical address in the sequence is immediately before the first of the consecutive physical addresses associated with the second number of physical units, to the last of the consecutive physical addresses associated with the second number of physical units.

A host of a storage system is coupled to multiple SSDs. Each SSD is configured with a migration cache, and each SSD corresponds to one piece of access information. The host obtains migration data information of to-be-migrated data in a source SSD, determines a target SSD, and sends a read instruction carrying information about to-be-migrated data and the target SSD to the source SSD. The source SSD reads a data block according to the read instruction from a flash memory of the source SSD into a migration cache of the target SSD. After a read instruction is completed by the SSD, the host sends a write instruction to the target SSD to instruct the target SSD to write the data block in the cache of the target SSD to a flash memory of the target SSD.

A computer-implemented method according to one embodiment includes receiving, by a target system from a source system, a description of a set of data updates that are to be written to the target system. For each given portion of data of the target system that is to be rewritten during performance of the set of data updates, forward lookup is performed on the target system for determining a physical storage address of the given portion of data. The method further includes marking each of the determined physical storage addresses of the portions of data of the target system in a copy of a reverse lookup table of the target system. The marked-up reverse lookup table is used for determining an ordering in which the performance of the set of data updates would result in a least amount of garbage collection being performed while performing the set of data updates.

An illustrative embodiment disclosed herein is an apparatus including a processor having programmed instructions to map a plurality of objects to a region and map the region to a plurality of vdisks. The plurality of objects are stored in the plurality of vdisks. The processor has programmed instructions to, responsive to mapping the plurality of objects to the region, identify a policy associated with the region. The policy specifies a policy action in response to satisfying a predetermined condition. The processor has programmed instructions to, responsive to satisfying the predetermined condition, access the plurality of vdisks and perform the policy action on the plurality of objects.