A data storage library system includes a data storage library, at least one environmental conditioning unit, at least one data storage drive retained within the data storage library, and at least one access door for providing access to an interior portion of the data storage library. The system also includes a library controller, wherein the library controller is configured to initiate a service mode prior to and during a service procedure performed within the data storage library, and further wherein at least one operational state within the at least one data storage drive is changed during the service mode. The change in the at least one operational state may be, for example, an increase in temperature within the at least one data storage drive, or the insertion of a data storage cartridge into the at least one data storage drive during the service mode.

A system, method and apparatus to acclimate a data storage component from a first environmental setting to a second environmental setting is disclosed. In one embodiment a system having a data storage library with a plurality of data storage cartridges and at least one media acclimation device having one or more storage locations which are sized to accept one or more data storage cartridges therein is disclosed. The at least one media acclimation device is configured to gradually acclimate the one or more storage locations from an external environmental condition to an internal environmental condition. In another embodiment, a method of acclimating a data storage library component is disclosed. The system, method and apparatus may optionally further include at least one environmental conditioning unit for conditioning the internal environment within the library.

A system, method and apparatus to acclimate a data storage component from a first environmental setting to a second environmental setting is disclosed. In one embodiment a system having a data storage library with a plurality of data storage cartridges and at least one media acclimation device having one or more storage locations which are sized to accept one or more data storage cartridges therein is disclosed. The at least one media acclimation device is configured to gradually acclimate the one or more storage locations from an external environmental condition to an internal environmental condition. In another embodiment, a method of acclimating a data storage library component is disclosed. The system, method and apparatus may optionally further include at least one environmental conditioning unit for conditioning the internal environment within the library.

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 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 component accommodating body managing apparatus includes a preparation component extractor, a management storage, and a storage instructing unit. The storage instructing unit generates and transmits storage instruction of the component accommodating body that is stored in the component accommodating body storeroom, based on the preparing number of components, which is extracted by the preparation component extractor, and the accommodating number of components, which is stored in the management storage. Further, the storage instructing unit instructs the component accommodating body storeroom that the accommodating number of components in the component accommodating body that is to be stored in the component accommodating body storeroom henceforth satisfies the preparing number of components.

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 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.

An automated data center management system includes one or more equipment racks housing at least one server farm equipment, each of the at least one server farm equipment having a respective attachment point, a spare equipment repository having at least one replacement equipment, and a hardware management robot. The hardware management robot includes a robotic arm having an interface point, the interface point configured to couple to the attachment point. A hardware management controller is communicates with the hardware management robot, the hardware management controller including at least one processor, and non-transitory computer readable media having encoded thereon computer software comprising a set of instructions to receive a service request indicating a server farm equipment needing service, determine a location of the server farm equipment, generate a path to the location of the server farm equipment, and transmit the path to the hardware management robot.

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.