According to one embodiment, a computer-implemented method for remotely controlling a capture of images of a data storage library during operation thereof with a bracket on an accessor includes pairing a remote controller to a wireless image capture device that is coupled to a bracket mounted on an accessor, instructing the wireless image capture device to start recording images of the data storage library during operation thereof, including movement of the accessor, thereafter, instructing the wireless image capture device to stop recording images of the data storage library during operation thereof, and instructing the wireless image capture device to save the recorded images to a file.

A data storage library system includes a first data storage library and a second data storage library, and at least one pass-through mechanism coupling the first data storage library to the second data storage library, wherein the at least one pass-through mechanism is configured to enable data storage cartridges to be transported between the first data storage library and the second data storage library. The environmental conditions within the first data storage library are controllable to maintain operational conditions conducive to at least one of reading and writing of data on a plurality of data storage cartridges. The environmental conditions within the second data storage library are controllable so as to gradually transition the environmental conditions between ambient environmental conditions and operational conditions within the first data storage library. Associated methods for transporting components between the first and second data storage libraries are disclosed.

Embodiments disclosed herein provide systems, methods, and computer readable media to handle unsuccessful movements of removable storage media in an automated removable media system. In a particular embodiment, a method provides receiving one or more user provided parameters that indicate one or more types of unsuccessful media move operations that should be reported as successful. The method further provides receiving a first request to move a first item of removable storage media from a first position in the automated removable media system to a second position in the automated removable media system and initiating a first move operation of the first item from the first position to the second position by at least one changer device. The method then provides determining that the first move operation resulted in one of the one or more types of unsuccessful media move operations and indicating that the first move operation was successful in response to the first request.

Utilities (e.g., systems, apparatuses, methods) that reduce robotic assembly contention in media element storage libraries by rotating (e.g., flipping, swinging, etc.) a robot arm of a first robotic assembly mounted over a first of first and second spaced storage arrays in a storage library into a first position between the first storage array and a central reference plane disposed between and parallel to the first and second storage arrays to allow a robot arm of a second robotic assembly to slide or otherwise move past the robot arm of the first robotic assembly (e.g., in a direction along or parallel to an x-axis parallel to the first and second storage arrays), even when the robot arms of the first and second robotic assemblies are disposed at the same height (e.g., along a z-axis that is perpendicular to the x-axis) within the storage library.

A computer program product, device, system, and method are provided for decommissioning a tape cartridge internally within a tape library. In one embodiment, a decommission canister is configured to be accepted within a tape library canister bay. The decommission canister has a fusing element configured to fuse together at least a portion of layers of magnetic tape of a tape cartridge within the tape library, to decommission the tape cartridge within the tape library. In one embodiment, the fusing element is a heating element adapted to emit heat directed at layers of magnetic tape of a tape cartridge to melt together at least a portion of layers of magnetic tape of a tape cartridge within the tape library. As a result, unwinding and reading of the magnetic tape is inhibited.

An object of the invention is to provide a magnetic-tape storage apparatus having a simple structure and being able to surely store magnetic tapes on each of which valuable data are recorded and the recorded data on them at a low cost and over a long period in a small space.

A magnetic-tape storage apparatus comprises

a housing,

a cartridge storage part,

a magnetic tape drive,

a cartridge transfer device to selectively transfer a plurality of cartridges stored in the cartridge storage part to the magnetic tape drive and to return to the original position,

a cartridge data reading device to selectively and contactlessly read data retained in each memory chip of the cartridges stored in the cartridge storage part, and

a computer to control them and to rewind the cartridges timely.

Embodiments for predetermining optimal demount position for demounting data storage cartridges in an automated data storage library by a processor. A selected demount position may be predetermined, while performing one of a plurality of robotic movements by an accessor, for each mounted data storage cartridge for demounting data storage cartridges in the automated data storage library such that each predetermined selected demount position is stored in a lookup table of predetermined selected demount positions for a subsequent demount operation. The idle time of the accessor during a demount operation may be reduced.

A conveying block 20 for conveying recording mediums between slots 15 and a drive block 16 is provided with a recording medium delivery block 50 for delivering the recording mediums to and from the slots 15 or the drive block 16, an extendable and retractable rail portion for moving the recording medium delivery block to a desired slot, and a control block 17 for controlling extension and retraction operation of the rail portion 31. The control block 17 determines whether the slots 15 are provided in an expansion area provided in an extending direction of the rail portion 31, and when the slots 15 are provided in the expansion area, the rail portion 31 is extended so that the recording medium delivery block 50 is moved to the desired slot in the expansion area. The recording mediums are efficiently stored for changer operation.

The present invention provides a magazine-based data cartridge library that, in one embodiment, comprises a plurality of shelves that are capable of holding a plurality of data cartridge magazines, one or more drives, a magazine transport for moving magazines within the cabinet, and a cartridge transport for moving data cartridges between a magazine and a drive.

According to one embodiment, a computer-implemented method for remotely controlling a capture of images of a data storage library during operation thereof with a bracket on an accessor includes pairing a remote controller to a wireless image capture device that is coupled to a bracket mounted on an accessor, instructing the wireless image capture device to start recording images of the data storage library during operation thereof, including movement of the accessor, thereafter, instructing the wireless image capture device to stop recording images of the data storage library during operation thereof, and instructing the wireless image capture device to save the recorded images to a file.