Described is a system (and method) for size-based organization of backup files within an object storage for efficient object re-tiering. The system may perform a specialized process to re-tier objects stored within an object storage by organizing backup files into individual or shared objects based on a backup file size. Accordingly, the system may initiate a re-tiering of objects immediately after performing an incremental backup to improve storage efficiency while at the same time retaining the ability to synthetically perform a full restore.

A method for processing backup policy generation requests includes receiving, by a production agent manager, a backup policy generation request, in response to receiving the backup policy generation request: identifying a backup to transfer to a backup storage, wherein the backup comprises a plurality of data blocks, performing a data storage device evaluation on a set of data storage devices to obtain a set of health scores, wherein each health score of the set of health scores corresponds to a data storage device of the set of data storage devices, assigning, based on the set of health scores, a production agent to a data storage device of the set of data storage devices to generate a backup policy, and initiating, based on the backup policy, a deployment of the production agent to the data storage device.

One example method includes [searching a legacy data backup system and identifying, in the legacy data backup system, a legacy backup asset, identifying a type of the legacy backup asset, creating a wrapper service instance that corresponds to the type of the legacy backup asset, detaching the legacy backup asset from the legacy data backup system, receiving, by the legacy backup asset, backup calls and restore calls from a new data backup system that is different from the legacy data backup system, and servicing, by the legacy backup asset the backup calls and restore calls based on a state of the legacy backup asset.

A method, computer program product, and computer system for triggering, by a computing device, a synchronization activity on a storage object. A request may be executed for a copy operation resulting from the synchronization activity to copy the storage object from a source to a destination when a current number of concurrent copy operations is below a maximum number of copy operations. The request for the copy operation resulting from the synchronization activity to copy the storage object from the source to the destination may be placed in a queue when the current number of concurrent copy operations is at least at the maximum number of copy operations. One or more attributes of the request in the queue may be identified. The request for the copy operation may be executed according to a replication policy based upon, at least in part, the one or more attributes of the request in the queue.

A data protection application creates backups of assets. Each asset is mapped in a directory service to one or more asset owners. The directory service is separate from the data protection application. A search query from a user seeking to search the backups is received at the data protection application. The directory service is consulted to identify assets having the user as an asset owner. A search filter is generated including a list of the identified assets. The search filter is applied to the search query to exclude from a search result backups of assets not having the user as the asset owner. The search result is returned to the user, the search result thereby including backups of assets having the user as an asset owner and excluding other backups of other assets not having the user as the asset owner.

A backup system (100) installed in an airplane comprises a controller (130), storages (140, 150), a detector (120), and an input apparatus (180). The first storage (140) stores a large amount of data needing to be backed up, such as software for on-board equipment and usage information for an entertainment apparatus (160) and a payment apparatus (170). Based on information from the detector (120) and the input apparatus (180), the controller (130) determines/predicts a transition to stable flight and determines a timing at which a backup operation will be carried out. In addition, an interruption of stable flight is predicted/determined and a backup process is interrupted. A priority is decided for each piece of data to be backed up, and a backup order is decided based on the priority. The backup system (100) predicts sections in which stable flight will be possible from meteorological information, etc., and performs backup.

According to one embodiment, the memory system includes a nonvolatile semiconductor memory, a data buffer, a volatile memory for storing a management table uniquely associates the user data with an address of the physical storage region of nonvolatile semiconductor memory, a controller that carries out a force quit process for writing the user data stored in a data buffer, the management table stored in volatile memory into the nonvolatile semiconductor memory, and a storage battery. The controller starts the force quit process prior to the power supply of the internal power supply regulator is switched from an external power supply to the storage battery.

Featured are a method and apparatus for managing various point-in-time copies of workloads or applications using a software system called workload manager. An aspect of the invention is to receive backup images of point-in-time backup images of workload from a backup client and realize corresponding virtual resource from backup image on the cloud platform that is part of the workload manager appliance. Workload manager maintains catalog of point-in-time copies of workloads. Each item in the catalog refers resource entries on the cloud platform. When user wishes to instantiate a point-in-time copy, workload manager instantiates all the resources identified in the catalog entry. User can also restore a particular point-in-time workload to production system or migrate a particular point-in-time workload to remote application.

Systems, methods, and machine-storage medium for classifying snapshot image processing are described. The system receives read requests to read snapshot information. Each read request includes an offset identifying a storage location and a length. The snapshot information includes snapshots including a full snapshot and at least one incremental snapshot. The read requests include a first read request to read data from the snapshot information. The system generates a first plurality of read events including a second plurality of read events that are generated by processing the first read request. The second plurality of read events includes first and a second read events. The system identifies whether utilizing a cache optimizes the job based on the first plurality of read events.

A backup manager for providing backup services includes persistent storage and a backup orchestrator. The persistent storage includes protection policies. The backup orchestrator generates a backup for a client based on the protection policies. The backup orchestrator generates an index for the backup. The index specifies a sensitivity level of each portion of the backup. The backup orchestrator stores portions of the backup in regions of a container that correspond to the sensitivity level of the respective portion of the backup. The backup orchestrator stores the container in backup storage.