Example tiered storage systems, storage devices, and methods provide intelligent data access across tiered storage systems. An example system can comprise one or more computing devices, a file system, an object storage system comprising an object storage, and a data tiering application. The data tiering application is executable by one or more computing devices to perform operations comprising determining, using machine learning logic, a cluster of associated files stored in the file system; and archiving the cluster of associated files from the file system to the object storage coupled for electronic communication to the file system via a computer network.

The systems and methods of enabling a collaborative application on a private network, comprising: establishing a secure and encrypted private network with a whitelist of two or more profiles using alias and digital keys; hosting an application on a computing device associated with a first profile on the whitelist; enabling the application to accept content using an application program interface, broadcasting the application with digital signature of the first profile to the profiles on the whitelist of the private network; receiving a request to send content to the application with digital signature from a second profile on the whitelist; automatically updating the content of the application after validation of the request; broadcasting the update notification to all the profiles on the whitelist of the private network.

Systems and methods for distributed file processing are disclosed. In one embodiment, a computer-implemented method for distributed file processing in a distributed network may include: (1) receiving, at a first distributed host in a network of a plurality of distributed hosts, an archive command; (2) the first distributed host identifying a plurality of files in a shared file system to archive in response to the archive command; (3) the first distributed host splitting at least one of the plurality of files that is above a predetermined size into a plurality of file chunks; (4) the first distributed host instructing a second distributed host to archive one of the plurality of files or plurality of file chunks to a store; and (5) the first distributed host and the second distributed host archiving the plurality of files and the plurality of file chunks to the store.

Provided are a computer program product, system, and method for switching serialization techniques for handling concurrent write requests to a shared file. A first node serializes write requests from client nodes to write to the shared file. The first node determines whether to switch to a second node to manage write quests to the shared file based on a pattern of write requests to the shared file. The client nodes are notified to direct write requests to the shared file to the second node in response to determining to switch to the second node. The second node processes write requests to the shared file to serialize writes to the shared file after the client nodes are notified to submit the write requests to the shared file to the second node.

Linked clone read performance when retrieving data from a clone is improved at least by aggregating block mapping metadata efficiently. Primary metadata for a child clone maps a logical block address (LBA) for data in a data region of the child clone to a physical sector address (PSA) for data in the data region of the child clone. At least a portion of primary metadata for a parent clone of the child clone is copied into archival metadata for the child clone. In response to a read request, data is returned from the child clone, parent clone, or another ancestor of the child clone based on whether or not a read request LBA is within the primary metadata for the child clone, or within the archival metadata.

Disclosed is a server. A server according to an embodiment of the present disclosure includes a gatherer configured to receive a file collection list from an external server, at least one wagon configured to collect data from the external server based on the file collection list received from the gatherer, a historian file configured to store a transmission history or a file collection history, and a destination folder configured to store the data collected by the wagon, and the wagon is further configured to, when an error occurs during data collection, collect data for a file again in which the error occurs. Accordingly, it is possible to quickly collect data again when an error occurs.

Systems and methods to select an object instance from a database storage to archive to an external storage based on an archiving configuration and attribute values of the object instance, transmit the selection to an application associated with the object instance, determine, based on a response received from the application, to archive the object instance, mark the object instance as ready for archiving, identify the object instance as ready for archiving, convert the object instance to an object notation format, transmit the converted object instance to a cloud application for storage in an external storage, in response to a determination that the storage in the external storage is successful, create an index object in the database storage including a subset of fields of the object instance and a link to the converted object instance stored in the external storage, and mark the object instance in the database storage as archived.

Embodiments of the invention are directed to a system, method, or computer program product for convenient, secure digital data archiving and utilization across multiple communication channels. The method includes extracting one or more data input fields from a form and generating one or more user prompts to be presented to a user in order to complete at least one of the one or more entries of the one or more data input fields. The method further includes causing the transmission of at least one of the one or more user prompts to the user and receiving a prompt response from the user. The method further includes displaying to the user a completed generated form in an appropriate channel format, and provides a process for secure e-signature and cross-stream utilization of user input.

A system, method and computer program product for archiving image, audio, and text data with metadata encapsulation in a client-server storage library is described. The server receives and holds the images, audio, or text to be archived in an image, audio or text logical partition which includes a directory of the images, audio, or text. The information is encapsulated in a metadata wrapper and stored in the library as a closed image, audio, or text file along with a closed copy of the directory. The closed image, audio, or text directory is also stored in the client. The images may be encapsulated in MXF, DICOM, Tape Archive (TAR) or GZIP formats. The storage library may have magnetic tapes, magnetic disks or optical disks as storage media.

Performing snapshot conscious internal file modification for network-attached storage is presented herein. A file system can comprise a first component configured to modify, during a service request, storage for a subset of data blocks of a file—the service request not being recognized by an external entity as a change of content of the file. Further, the file system can comprise a second component configured to prevent, based on the service request, a copy of the storage from being created for servicing of a snapshot—the snapshot comprising a point-in-time copy of the file system.