A storage cabinet includes a cabinet body and is characterized in that at least one layer of storage unit is disposed in the cabinet body and is provided with sliding mechanisms capable of being pushed or pulled to move the storage unit forwards or backwards with respect to the cabinet body, and the storage units are installed layer by layer. The storage units and storage cabinet facilitate storage, taking and classification of a large batch of articles, reduce management cost and have a high degree of intelligence, thus, improving work efficiency.

In one general embodiment, an apparatus includes a guidance system configured for coupling to a frame of an automated data storage library, the guidance system including a guide member coupled to a rail and configured to move along the rail in a first direction. A robot is detachably coupled to the guidance system and physically configured to be moved out of the automated data storage library in a direction about perpendicular to a plane of intended movement directions of the robot. The guidance system is configured such that the guide member remains engaged with the rail upon detachment of the robot therefrom.

A tool-less quick assembly and disassembly device for a hard disk module, including a mounting rack, a hard disk accommodation cavity being provided on the mounting rack, a multilayer hard disk support structure being provided on the mounting rack inside the hard disk accommodation cavity, and a baffle being provided on the mounting rack at a position corresponding to each layer of the hard disk support structure, the baffle being provided at the end part of one end of the mounting rack, and the other end of the mounting rack being an opening end; elastic positioning mechanisms are provided on both sides of the mounting rack; elastic clamping mechanisms are provided at the bottom of the mounting rack. The invention can enable multiple hard disks to be completely assembled and disassembled without tools, has a simple structure, is easy to assemble and disassemble.

The embodiments herein describe a computing device (e.g., a storage server) that includes at least one telescoping unit which includes a plurality of removable (or pluggable) hardware components. The computing device includes a chassis which defines a form factor of the computing device. The telescoping unit, when prompted by the user, can extend vertically from a top surface of the computing device. By doing so, the pluggable hardware components are then exposed to the user who can add or replace the components. In one embodiment, the telescoping unit includes telescoping links disposed on opposite sides which are used to guide or urge the telescoping unit vertically from the chassis. Cross links may be coupled between first and second rails where one end of each of the links is coupled to a sliding member in the rail while the other end is fixably attached to the rail.

A configurable storage-system drawer may include (1) a chassis, (2) a slide assembly coupled to a side of the chassis that is configured to enable the chassis to be temporarily pulled out of a data-center rack, and (3) a passive drive-plane board housed within the chassis and configured to enable storage-system modules that differ between two or more storage-system configurations of the storage-system drawer to be interchanged. In some examples, the passive drive-plane board may include (1) storage-drive connectors that are each configured to detachably mate with a storage drive, (2) a storage-system-module connector configured to detachably mate with a storage-system module that includes one or more components necessary for one of the two or more storage-system configurations, and (3) electrical interconnects that electrically couple the storage-drive connectors to the storage-system-module connector. Various other apparatus, systems, and methods for enabling multiple storage-system configurations are also disclosed.

Servers, methods, and computer-readable media for performing thermal management of a server including a plurality of data storage devices. In one example, a server includes a controller configured to apply a machine learning model to identify a first portion of the plurality of data storage devices located in a hot zone relative to a second portion of the plurality of data storage devices located outside of the hot zone. The controller identifies the hot zone based on thermal data received from each of the plurality of data storage devices. Based on an identification of the first portion of the plurality of data storage devices located in the hot zone, the controller performs thermal management of the plurality of data storage devices by logically shuffling the plurality of data storage devices to create a distributed hot zone.

Aspects extend to devices that facilitate positioning components in a rack to permit base plane access. In one aspect, a drive carrier rail is configured to have variable widths to facilitate positioning a drive carrier in a fixed position within a slot (of a rack) where a drive is disengaged from the base plane printed circuit board (PCB). In another aspect, at least one slot rail of a slot includes a (e.g., sheet metal) spring. The spring allows a drive carrier to rest on the spring in a fixed position where the hard drive is disengaged from the base plane printed circuit board.

A removable disk clamp assembly for mounting disk media on a motor-driven spindle of a magnetic read-write device includes a disk clamp and a mechanism for generating a predetermined force to press the disk media to a flange of the spindle such that the predetermined force can be repeatedly overcome by an applied counterforce to remove the disk clamp from engagement with a hub of the spindle. Such a mechanism may include a spring-loaded removable disk clamp assembly or a magnetic removable disk clamp assembly, and whereby a vacuum-driven chuck may be employed for disk and clamp handling purposes, all of which are suitable for implementation and use in a read-write device configured for use in an archival data storage system library such as in a cleanroom storage system.

In one general embodiment, an apparatus includes a guidance system configured for coupling to a frame of an automated data storage library, the guidance system including a guide member coupled to a rail and configured to move along the rail in a first direction. A robot is detachably coupled to the guidance system and physically configured to be moved out of the automated data storage library in a direction about perpendicular to a plane of intended movement directions of the robot. The guidance system is configured such that the guide member remains engaged with the rail upon detachment of the robot therefrom.