Creating a replica of a storage system, including: receiving, by a first storage system from a computing device, data to be stored on the first storage system; reducing, by the first storage system, the data using one or more data reduction techniques; sending, from the first storage system to the second storage system, the reduced data, wherein the reduced data is encrypted; and sending, from the second storage system to a third storage system, the reduced data, wherein the reduced data is encrypted.

A memory apparatus comprising: a cell array comprising multiple first and second word lines, a fuse array configured to substitute a selection word line of the multiple first word lines with the multiple second word lines, a fail determination unit configured to determine, as a fail word line, a word line matched with a first condition during an access operation for the multiple first word lines and to determine a fail grade of the fail word line based on a second condition, an information storage unit configured to store a physical address, fail grade and access count of the fail word line as determination information for the fail word line, and a rupture operation unit configured to select the selection word line from the fail word lines based on a result of the analysis of the determination information, and perform rupturing the selection word line into the fuse array.

A memory module includes a first memory device, a second memory device, and a processing buffer circuit that is connected to the first memory device and the second memory device (independently of each other) and a host. A processing buffer circuit is provided, which includes a processing circuit and a buffer. The processing circuit processes at least one of data received from the host, data stored in the first memory device, or data stored in the second memory device based on a processing command received from the host. The buffer is configured to store data processed by the processing circuit. The processing buffer circuit is configured to communicate with the host in compliance with a DDR SDRAM standard.

In a storage system, processing related to data replication includes associating first control information with a logical volume and a snapshot and second control information with data on a pool volume. Data of the logical volume and the snapshot is managed by associating the first control information with the second control information. A time series of the logical volume and one or more snapshots is managed using generation information associated with the first control information, for each piece of data on the pool volume. Generation information indicating a generation in which the data is created is managed in association with the second control information. Invalidation of the first and second control information asynchronously with a processing of data related to the logical volume and the snapshot is executed. Whether the invalidation is possible is determined by referring to the generation information associated with the first and second control information.

An embodiment includes deriving usage data associated with records of a database by monitoring requests to perform read operations on the records of the database. The embodiment generates record correlation data representative of correlations between respective groups of records of the database by parsing the usage data associated with the records of the database. The embodiment stores a plurality of records received as respective write requests during a first time interval in an intermediate storage medium. The embodiment identifies a correlation in the record correlation data between a first record of the plurality of records and a second record of the plurality of records. The embodiment selects, responsive to identifying the correlation, a first location in the database for writing the first record and a second location in the database for writing the second record based on a proximity of the first location to the second location.

In order to quickly recover a management information file, an Edge file storage stores user files and a management information file that manages management states of the user files in the Edge file storage. The Edge file storage manages operation logs indicating operation contents concerning user files accepted by nodes in association with the respective nodes. The Edge file storage extracts operation logs for a user file associated with a targeted management information file as a management information file stored in a failed node from the operation logs corresponding to the nodes. The Edge file storage aggregates operation logs that are extracted from the operation logs corresponding to the nodes and are used for the user file associated with the targeted management information file. The Edge file storage recovers the targeted management information file based on the aggregated operation log.

A high frequency snapshot technique improves data replication in a disaster recovery (DR) environment. A base snapshot is generated from failover data at a primary site and replicated to a placeholder file at a secondary site. Upon commencement of the base snapshot generation and replication, incremental light weight snapshots (LWSs) of the failover data are captured and replicated to the secondary site. A staging file at the secondary site accumulates the replicated LWSs (“high-frequency snapshots”). The staging file is populated with the LWSs in parallel with the replication of the base snapshot at the placeholder file. At a subsequent predetermined time interval, the accumulated LWSs are synthesized to capture a “checkpoint” snapshot by applying and pruning the accumulated LWSs at the staging file. Once the base snapshot is fully replicated, the pruned LWSs are merged to the base snapshot to synchronize the replicated failover data.

In general, embodiments of the invention relate to a method for generating upgrade recommendations. The method comprising obtaining telemetry data for a target entity, determining, using the telemetry data, at least one of a predicted upgrade time and a upgrade readiness factor for the target entity, generating an recommendation based on the at least one of the predicted upgrade time and the upgrade readiness factor for the target entity, and initiating a display of the recommendation on a graphical user interface of client.

A memory device includes a row decoder, a column decoder, and a repair control circuit, which is configured to: (i) compare a row address with a stored failed row address, (ii) compare a column address with a stored failed column address, (iii) control the row decoder to activate the at least one of a plurality of redundancy word lines when the row address corresponds to the failed row address, and (iv) control the column decoder to activate at least one of a plurality of redundancy bit lines when the column address corresponds to the failed column address. The repair control circuit varies a repair unit according to an address input during a repair operation.

In some examples, a computing device may store a first snapshot of a state of data in a first partition at a first point in time. The computing device may create a second partition and a third partition to each receive a portion of the data, the second partition and the third partition each including a metrics schema, and may determine information for the metrics schemas based on information in the first snapshot. During the determining of the information for the metrics schemas, the computing device may receive a write to the first partition. The computing device may update the first partition based on the write and may add a split update command to a data structure based on the write. In addition, the computing device may update at least one of the metrics schemas in the second partition or the third partition based on the split update command.