A system includes an enclosure with a first side wall, a second side wall, and a first wall assembly. The first wall assembly extends between the first side wall and the second side wall and includes a first shaft-holding portion, a first plurality of latch assemblies having a first latch end and a first pivot end, and a first shaft that extends within the first shaft-holding portion and that is coupled to the first plurality of latch assemblies at respective first pivot ends of the first plurality of latch assemblies.

A system includes an enclosure with a first side wall, a second side wall, and a first wall assembly. The first wall assembly extends between the first side wall and the second side wall and includes a first shaft-holding portion, a first plurality of latch assemblies having a first latch end and a first pivot end, and a first shaft that extends within the first shaft-holding portion and that is coupled to the first plurality of latch assemblies at respective first pivot ends of the first plurality of latch assemblies.

Systems and methods that may be employed for mounting data storage drives (e.g., HDDs, SSDs, etc.) within a chassis of an information handling system using storage drive carrier retaining features of a chassis and mating securing features of a storage drive carrier to provide a tool-less storage drive carrier mounting solution for an information handling system chassis that accommodates both cost-effective tooled storage drive carrier and premium tool-less storage drive carrier mounting configurations, e.g., without additional investment or reconfiguration of the chassis for either type of mounting configuration. The disclosed systems and methods may be further so implemented in a manner that without the presence of one or more drive bays within the chassis interior that may restrict access to the chassis interior and which may require a larger chassis and chassis enclosure to contain bay/s.

Each disk drive in an array includes a housing that encloses a motor and at least one magnetic disk. The housing also encloses first and second actuators each with respective first and second heads that independently access the magnetic disk. The first actuator is mapped to a first logical unit and the second actuator is mapped to a second logical unit. A host interface of each disk drive facilitates access to the first and second logical units. A system includes a first storage controller attached to all of the first logical units as a first active server and attached to all of the second logical units as a first passive server. A second storage controller operates redundantly with the first storage controller. The second storage controller is attached to all of the second logical units as a second active server and attached to all of the first logical units as a second passive server.

A server device comprising a chassis, a first hard disk drive frame and a second hard disk drive frame. The first hard disk drive frame is fixed on the chassis. The first hard disk drive frame has at least one first opening exposed to the outside. The second hard disk drive frame is pivotally disposed on the chassis and movable between an in-use position and an inclined position. The second hard disk drive frame has at least one second opening. When the second hard disk drive frame is in the in-use position, the at least one second opening of the second hard disk drive frame is covered by the first hard disk drive frame. When the second hard disk drive frame is in the inclined position, the at least one second opening of the second hard disk drive frame is exposed to the outside.

A server box embodiment is disclosed that generally comprises an array of dummy HDDs that share a common set of universal disk drive components in a master components module, or power module. Each dummy HDDs is constructed without expensive onboard chipsets that control the normal functionality of a standard HDD. By sharing expensive chipsets in a master components module (power module) money can be saved in building and selling the dummy HDD server. Embodiments envision a power module possessing the needed chipset functionality that is missing in a dummy HDD. The power module can be made to move from dummy HDD to dummy HDD supplying the necessary chipset in a shared manner when data is being stored or retrieved for client or end-user.

According to one embodiment, a disk device includes a housing with a bottom wall, magnetic disks supported on a hub of a motor, a printed circuit board provided on an outer surface of the bottom wall, and a wiring board attached on the outer surface of the bottom wall. The bottom wall includes a recess formed in the outer surface, a step located on border between the outer surface and the recess, and through holes opened to the recess. The wiring board includes one end portion disposed in the recess and connection pads on the one end portion, connected to lead wires of a coil. An adhesive is filled into the recess and the through holes, and covers the one end and a solder joint and seals the through holes.

The present invention provides devices for presenting entertainment by obtaining from a selected artist video and audio data regarding the artist's work and placing the data on a portable storage device for use in an entertainment device. After uploading the data into the entertainment frame's controller, the user selects one or more presentations by the artist to be played on the entertainment device. The entertainment device comprises a picture frame being mounted on a vertical surface with a display screen in the picture frame. The frame has a rechargeable battery for operating a controller that accepts an input device with a selected artist's video and audio data. The audio and video are played on the screen to provide entertainment from a singer or painter. Further, the entertainment device may be modular and removable from the picture frame so as to be transported easily to other locations, or the input device may be an flash album device.

The present invention provides devices for presenting entertainment by obtaining from a selected artist video and audio data regarding the artist's work and placing the data on a portable storage device for use in an entertainment device. After uploading the data into the entertainment frame's controller, the user selects one or more presentations by the artist to be played on the entertainment device. The entertainment device comprises a picture frame being mounted on a vertical surface with a display screen in the picture frame. The frame has a rechargeable battery for operating a controller that accepts an input device with a selected artist's video and audio data. The audio and video are played on the screen to provide entertainment from a singer or painter. Further, the entertainment device may be modular and removable from the picture frame so as to be transported easily to other locations, or the input device may be an flash album device.

An isolated vibration assembly for a computing device includes a top assembly having a top plate. The assembly further includes a base assembly having a base plate that is generally parallel to and offset from the top plate. A partition assembly is positioned generally perpendicularly between the top plate and the bottom plate, with two partition plates defining an internal space. A plurality of vibration isolators is attached in an interspersed manner to one or more surfaces of the top plate, the base plate, or the two partition plates. A computing device is removably installed within the internal space, generating vibrations that are reduced when passing through the plurality of vibration isolators.