Techniques for management of movable devices are disclosed. A system receives a request for an operation associated with a position on a rail. The system selects a component on the rail to execute the operation. The system identifies a rail segment that extends from the component's initial position to the position associated with the operation. The system requests a reservation of that rail segment. If the reservation is obtained, then the system applies electrical signals to move the component along the rails segment to the rail position associated with the operation. The system may also identify one or more other components, physical cells, etc. to reserve, in order to complete the operation.

A computer-implemented method, according to one embodiment, includes: maintaining a reference count and an access count for each of a plurality of objects stored in an optical media storage system, using the reference count and access count to create a popularity metric for each of the plurality of objects, for each medium having one or more of the plurality of objects, creating a medium popularity metric based on the popularity metrics of the one or more objects on the respective medium, and using the medium popularity metric of each respective optical medium to arrange the optical media in the optical media storage system. Other systems, methods, and computer program products are described in additional embodiments.

Techniques for management of movable devices are disclosed. A system receives a request for an operation associated with a position on a rail. The system selects a component on the rail to execute the operation. The system identifies a rail segment that extends from the component's initial position to the position associated with the operation. The system requests a reservation of that rail segment. If the reservation is obtained, then the system applies electrical signals to move the component along the rails segment to the rail position associated with the operation. The system may also identify one or more other components, physical cells, etc. to reserve, in order to complete the operation.

A computer-implemented method, according to one embodiment, includes: maintaining a reference count and an access count for each of a plurality of objects stored in an optical media storage system, using the reference count and access count to create a popularity metric for each of the plurality of objects, for each medium having one or more of the plurality of objects, creating a medium popularity metric based on the popularity metrics of the one or more objects on the respective medium, and using the medium popularity metric of each respective optical medium to arrange the optical media in the optical media storage system. Other systems, methods, and computer program products are described in additional embodiments.

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.

In an approach for preventing damage to a tape library, a processor receives a first sensor reading, wherein the first sensor is located within a tape library. A processor receives a second sensor reading, wherein the second sensor is located external to the tape library. A processor determines that the second sensor reading is greater than or equal to the first sensor reading. A processor receives an indication that a door to the tape library is open. Responsive to receiving the indication that the door to the tape library is open, a processor disables a fan.

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.

In an approach for preventing damage to a tape library, a processor receives a first sensor reading, wherein the first sensor is located within a tape library. A processor receives a second sensor reading, wherein the second sensor is located external to the tape library. A processor determines that the second sensor reading is greater than or equal to the first sensor reading. A processor receives an indication that a door to the tape library is open. Responsive to receiving the indication that the door to the tape library is open, a processor disables a fan.

Embodiments include systems and methods for providing throughput increase and/or physical expansion of a data storage library. Some embodiments include multiple robotic assemblies, each having its own hand assembly, which are electrically and mechanically integrated for concurrent use in a single storage library environment for increased throughput. Other embodiments include an active vertical pass-through assembly that operates to ferry cartridges from one storage library environment to another, vertically adjacent storage library environment. Some such embodiments use existing robotic mechanisms of the libraries to exploit a shared slot through which vertical pass-through functionality can be realized. Other embodiments include an active horizontal pass-through assembly that operates to ferry cartridges from one storage library environment to another, horizontally adjacent storage library environment. Some such embodiments include a separate robotic mechanism that couples with each library and actively passes a cartridge among them and is adjustable to varying spans between the libraries.

A tape-based data storage system, according to one embodiment, includes: a tape library having: a plurality cells, each of the cells being configured to store one or more tape cartridges therein, and at least an antenna of a near field communication reader positioned at each of the cells. Moreover, each of the antennas are positioned relative the associated cell to be in direct communication with a near field communication tag coupled to a tape cartridge stored in the associated cell. Other systems, methods, and computer program products are described in additional embodiments.