A power supply assembly includes a power supply unit disposed within a housing and an adjustable plate module movably disposed on a floor thereof. The adjustable plate module includes a plate, a shaft, a stopper panel, and a compressible device. The plate has two planar surfaces positioned at different heights with respect to the floor. The shaft is fixedly coupled to and extends outwardly from the plate. The shaft is configured to move between a first position and a second position to transition a connector between the planar surfaces. The stopper panel is disposed adjacent to a distal end of the shaft and has an opening therein for accommodating the shaft. The compressible device is disposed around the shaft such that a displacement of the plate causes the compressible device to compress against the stopper panel and facilitate movement of the shaft from the first position to the second position.

A cabinet and a server having the cabinet are disclosed, the cabinet includes a housing, two trays, an elastic piece, and a limiting piece. The trays are arranged in parallel and capable of sliding out of an opening or retracting in the housing. The elastic piece is connected to the housing and arranged between the trays. The limiting piece is connected to the elastic piece and arranged between the trays, each of the trays defines a hole corresponding to the limiting piece, each of the trays includes a protrusion. When one of the trays slides out of the opening, the protrusion slides to the limiting piece and pushes the limiting piece into the hole of the other tray; when the tray retracts in the housing, the protrusion slides away from the limiting piece, the elastic piece elastically recover the limiting piece to separate from the hole.

Technologies for providing shared memory for accelerator sleds includes an accelerator sled to receive, with a memory controller, a memory access request from an accelerator device to access a region of memory. The request is to identify the region of memory with a logical address. Additionally, the accelerator sled is to determine from a map of logical addresses and associated physical address, the physical address associated with the region of memory. In addition, the accelerator sled is to route the memory access request to a memory device associated with the determined physical address.

Disclosed is a system and a method for connecting at least one electronic card to an electronic board of a computer device, the system including an electronic board, equipped with a plurality of connectors for connecting at least one electronic cards to the electronic board, and slots for connecting at least one component to the electronic board. The at least one electronic card are substantially perpendicular to the electronic board. The system further includes a first supporting means being configured such that the at least one electronic card is first mounted onto the first support before the first support is placed above the electronic board in the vertical direction. The system further includes a second support installed underneath the electronic board in the vertical direction. The system includes further ejection mechanism and insertion mechanism. The system for connecting may include a plurality of electronic boards.

A connector for use in a free-standing connector port for mating with an external pluggable module is disclosed. The connector has terminals that extend lengthwise of the connector so that cables may be terminated to the terminals and the terminals and cable generally are horizontally aligned together. The connector includes a housing and a pair of connecting elements that flank a card-receiving slot of the connector. The cables exit from the rear of the connector elements and from the connector port. The connector elements engage the connector port to fix the connector in place within the connector port.

A system for performing computing operations includes a rack, one or more shelves coupled to the rack, and two or more computing modules. Each computing module may include a chassis, one or more circuit board assemblies in a primarily vertical orientation, and one or more hard disk drives in a primarily vertical orientation. The circuit board assemblies and the hard disk drives are coupled to the chassis of the computing module.

An apparatus comprises an electronic equipment chassis comprising a housing and at least one lid, the housing comprising a control panel with a first set of one or more status indicators. The apparatus also comprises at least one latch configured for securing the at least one lid to the housing, the at least one latch comprising a second set of one or more status indicators. The apparatus further comprises a processing device configured to determine status information for electronic equipment housed in the electronic equipment chassis, the status information characterizing whether at least one of opening and removing the at least one lid is safe to perform at a given time, and controlling, based at least in part on the determined status information, at least one of the first set of indicators and at least one of the second set of indicators.

A multi-node server includes a plurality of nodes and a hard disk backplane. Each node includes a power supply module. The power supply module is built in the node. The hard disk backplane is connected to the plurality of nodes through a first connector. The power supply module of each node is connected to a power supply interface of another node through a second connector, where the first connector and the second connector are spaced apart, and air flowing from an air inlet of the multi-node server circulates through a spacing between the first connector and the second connector. A system backplane for connection is not arranged in the multi-node server, but is replaced with the first connector and the second connector with a relatively small volume.

A server tray assembly includes a server tray support configured to receive a server board that includes a working fluid conduit fluidly coupled to a server board connector disposed on a back plane of the server board, a back wall of the server tray support includes a fluid connector configured to form an unbiased fluid connection with the server board connector; and a locking assembly secured to at least one of a server rack or the server tray support, the locking assembly disposed opposite the fluid connector is configured to engage a portion of the server board to bias the server board toward the fluid connector to fluidly seal the unbiased fluid connection between the server board connector and the fluid connector of the server tray support.

An electronics assembly including a plurality of midplanes positioned between and coupled to a plurality of electronic components at one side of the plurality of midplanes and at least one electronic component at an opposite side of the plurality of midplanes in a manner so that the midplanes are vertically oriented in parallel relative to each other so as to define spaces therebetween. The midplanes each include electrical traces configured to send signals among and between the plurality of electronic components at the one side of the midplanes and the at least one electronic component at the opposite side of the midplanes.