An electrical enclosure including a housing having a plurality of side walls and a base, a housing cover positioned over, and secured to, the housing, a circuit board positioned between the housing and the housing cover, a plurality of connectors extending through the housing cover and the circuit board and into the housing, the plurality of connectors securing the housing cover and the circuit board to the housing, a first protrusion extending inwardly from a first side wall of the housing, and a second protrusion extending inwardly from a second side wall of the housing.

Methods and devices for selectively presenting a user interface in a dual screen device. More particularly, the method includes providing a gallery for the dual screen device. The gallery can present one or more images in a user interface. The gallery user interface can adapt to changes in the device configuration. Further, the gallery can display images or videos in the various configurations.

A compute device to manage workflow to disaggregated computing resources is provided. The compute device comprises a compute engine receive a workload processing request, the workload processing request defined by at least one request parameter, determine at least one accelerator device capable of processing a workload in accordance with the at least one request parameter, transmit a workload to the at least one accelerator device, receive a work product produced by the at least one accelerator device from the workload, and provide the work product to an application.

Methods and devices for selecting a card from an application stack, wherein the card represents a corresponding application that a user would like to make active or bring focus to. The selecting includes one or more of a dragging and a tapping action, with these actions being triggers for transitioning the device to an optional drag state or tapped state, respectively. Transitioning through this state executes the activating of a corresponding application or other action on the device to facilitate window/application/desktop management. The selecting further allows a user to specify which a touch screen (or portion hereof) on which a particular application should be launched.

A carrier module assembly having a module removably attached to a carrier frame and a carrier riser. The carrier module assembly can be inserted into a slot of a control cabinet without having to re-wire or re-configure the control cabinet. The carrier module assembly has a length which enables the carrier module assembly to be located within the slot of the control cabinet. The module is removable from the carrier frame such that the module can be attached to a backplate of a rack.

An electronic device is provided. The electronic device includes a housing having an insertion slot, a connecting interface, and an adaptor card. The connecting interface is disposed in the housing for connecting with a first electronic module or a second electronic module separately and has a first connecting part and a second connecting part. The adaptor card is detachably disposed in the housing and includes a flow guide. When the electronic device is in a first mode, the first electronic module is connected to the first connecting part, and the adaptor card is disposed between the insertion slot and the connecting interface. The flow guide directs an airflow toward the first electronic module. When the electronic device is in a second mode, the adaptor card is removed from the housing, and the second electronic module is connected to the first connecting part and the second connecting part.

A compute device to manage workflow to disaggregated computing resources is provided. The compute device comprises a compute engine receive a workload processing request, the workload processing request defined by at least one request parameter, determine at least one accelerator device capable of processing a workload in accordance with the at least one request parameter, transmit a workload to the at least one accelerator device, receive a work product produced by the at least one accelerator device from the workload, and provide the work product to an application.

Technologies for an accelerator interface over Ethernet are disclosed. In the illustrative embodiment, a network interface controller of a compute device may receive a data packet. If the network interface controller determines that the data packet should be pre-processed (e.g., decrypted) with a remote accelerator device, the network interface controller may encapsulate the data packet in an encapsulating network packet and send the encapsulating network packet to a remote accelerator device on a remote compute device. The remote accelerator device may pre-process the data packet (e.g., decrypt the data packet) and send it back to the network interface controller. The network interface controller may then send the pre-processed packet to a processor of the compute device.

A connection device includes a housing having a first face provided with a first opening that is closed by a PCB, and a second face provided with a second opening facing at least one electrical connection interface of the PCB. The housing includes at least one well extending from an edge of the second opening to the PCB so as to position a first connector relative to the connection interface, and in that the housing is a one-piece part that includes the well.

A method electrically insulates an electronic device including a housing having a first face provided with a first opening closed by a PCB and a second face provided with a second opening extending facing at least a portion of at least one connection interface in which at least one first connector is connected. The method includes the steps of forming a mold around the connection interface, and while the device is placed in a vacuum enclosure, pouring a liquid resin into the mold in order to form a layer of electrically insulating material between the connector and the connection interface. A device is obtained by performing the method.