In one general embodiment, a computer-implemented method includes receiving, by the computer, a request to access a first magnetic recording tape. A determination is made, by the computer, whether the first magnetic recording tape is currently loaded in a tape drive. In response to determining that the first magnetic recording tape is not currently loaded in a tape drive, a determination is made, by the computer, of an amount of time to unmount and unload a magnetic recording tape from each of at least two tape drives each having a magnetic recording tape loaded therein. The tape drive with the shortest amount of time to unmount and unload the magnetic recording tape loaded therein is selected and instructed to unload the magnetic recording tape loaded therein. The first magnetic recording tape is caused to be loaded into the selected tape drive.

A data storage library includes a number of storage cartridges arranged in a rack accessed by a actuated media player. The actuated media player is adapted to move the along a plane relative to a fixed subset of the storage cartridges in the rack to and to selectively couple to each storage cartridge of the fixed subset to facilitate selective read/write access.

A method comprising: determining, by a tape library, respective tape densities supported by each of a plurality of tape drives and respective tape densities indicated for each of a plurality of tape cartridges; receiving, by the tape library, a command to load a given one of the tape cartridges into a given one of the tape drives; determining, by the tape library, that the indicated tape density for the given tape cartridge matches a tape density supported by the given tape drive; and in response to the determination that the tape densities match, configuring, by the tape library, the given tape drive to initialize the given tape cartridge to the tape density indicated for the given tape cartridge.

A method comprising: determining, by a tape library, respective tape densities supported by each of a plurality of tape drives and respective tape densities indicated for each of a plurality of tape cartridges; receiving, by the tape library, a command to load a given one of the tape cartridges into a given one of the tape drives; determining, by the tape library, that the indicated tape density for the given tape cartridge matches a tape density supported by the given tape drive; and in response to the determination that the tape densities match, configuring, by the tape library, the given tape drive to initialize the given tape cartridge to the tape density indicated for the given tape cartridge.

A data storage system that moves and transfers components utilizing drones is disclosed. The data storage system comprises a data storage library for reading and writing of data on a plurality of data storage cartridges, at least one drone vehicle, a processing device, and a non-transitory, computer-readable memory containing programming instructions. The programming instructions are configured to cause the processing device to: receive a request to transfer a data storage component to a destination location in the data storage library, in response to receiving the request, instruct a drone vehicle to perform at least part of the transfer of the data storage component to the destination location, and perform at least part of the transfer of the data storage component to the destination location by the drone vehicle.

A data storage system that moves and transfers components utilizing drone systems is disclosed. In one embodiment, the system includes a plurality of data storage libraries comprising a first data storage library for the storage, reading, and writing of data on a plurality of data storage cartridges and a second data storage library for the storage of data on a plurality of data storage cartridges, and at least one drone vehicle. The system also includes a processing device and a non-transitory, computer-readable memory containing programming instructions. The programming instructions are configured to cause the processing device to receive a request to transfer a data storage component to a destination location, in response to receiving the request, instruct a drone vehicle to transfer the data storage component to the destination location, and transfer the data storage component to the destination location by the drone vehicle.

A data storage system that moves and transfers components utilizing drone systems is disclosed. In one embodiment, the system includes a plurality of data storage libraries comprising a first data storage library for the storage, reading, and writing of data on a plurality of data storage cartridges and a second data storage library for the storage of data on a plurality of data storage cartridges, and at least one drone vehicle. The system also includes a processing device and a non-transitory, computer-readable memory containing programming instructions. The programming instructions are configured to cause the processing device to receive a request to transfer a data storage component to a destination location, in response to receiving the request, instruct a drone vehicle to transfer the data storage component to the destination location, and transfer the data storage component to the destination location by the drone vehicle.

A data storage library system includes at least one data storage library comprising at least one library frame and at least one environmental conditioning unit, the at least one environmental conditioning unit configured to control one or more environmental conditions within the at least one library frame. The system further includes at least one access door for providing access to an interior portion of the data storage library, a library controller, and at least one warning indicator associated with the data storage library and in electronic communication with the library controller. The at least one warning indicator is configured to provide an indication to an operator when the conditions within the data storage library are such that the at least one access door may be opened and when the conditions within the data storage library are such that the access door should not be opened.

A data storage library system includes at least one data storage library comprising at least one library frame and at least one environmental conditioning unit, the at least one environmental conditioning unit configured to control one or more environmental conditions within the at least one library frame. The system further includes at least one access door for providing access to an interior portion of the data storage library, a library controller, and at least one warning indicator associated with the data storage library and in electronic communication with the library controller. The at least one warning indicator is configured to provide an indication to an operator when the conditions within the data storage library are such that the at least one access door may be opened and when the conditions within the data storage library are such that the access door should not be opened.

A method of servicing a data storage library includes providing an enclosure configured to surround at least one library access opening to form a chamber. The at least one enclosure has an access opening of sufficient size to permit an adult human access to the interior chamber, and the enclosure is configured to resist environmental conditions from the exterior of the enclosure from intruding into the chamber and to permit environmental conditions from the interior of the library to intrude into the chamber. The method also includes acclimating the chamber so that at least one desired environmental condition in the chamber is within a desired range of the corresponding environmental condition within the interior of the library. Additionally, the method includes accessing the interior of the library via the at least one library access opening.