A connector comprises a first housing having a connection end to be inserted into an opening of a second connector, the first housing containing a first electrical contact, wherein the connection end comprises a first opening. The connector further comprises a first cover biased towards a closed position in which the first electrical contact is inaccessible via the first opening, wherein the first cover is moved from the closed position to an open position exposing the first electrical contact during insertion of the connection end into the opening of the second connector.

Provided is an adapter. The adapter includes a housing and an elastic component. The elastic component is configured to connect the housing with an installation frame. The elastic component includes an installation body, a blocking portion and a clamping elastic piece, the blocking portion and the clamping elastic piece are disposed on the installation body. The installation body is configured to be detachably connected to the housing. A first clamping gap capable of accommodating the installation frame is provided between the blocking portion and the clamping elastic piece.

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.

Certain embodiments of the present invention provide an RJ45 jack that has a self-closing shutter door and allows for RJ45 plug insertion in one linear motion, but which incorporates a free contact plug stop on the shutter door and a door catch feature that aids in the retention of the door in the housing when a plug is subjected to a pull out force while latched into the jack.

A power supply device of a motor-driven child seat for a vehicle is provided. The motor-driven child seat can be easily mounted and fixed to a rear seat by adopting a method where a latch of the motor-driven child seat is fastened to an anchor of the rear seat, and power can be easily supplied to power consuming components, i.e., an electric mechanism including a motor, a ventilation system, and a heating system, by automatically fastening male-female connectors for supplying power, especially when the motor-driven child seat is fixedly mounted on the rear seat.

A cooking appliance includes sidewalls and a rear wall defining a heating cavity. At least one heat source is in thermal communication with the heating cavity. An oven cavity connector is disposed within an interior surface of the heating cavity. The oven cavity connector is in communication with the heating cavity. A first tray sliding structure is disposed proximate opposing vertical sidewalls of the heating cavity. A second tray sliding structure is disposed proximate the opposing vertical sidewalls and is vertically offset relative to the first tray sliding structure. A powered accessory tray has a connecting plug, the powered accessory tray being alternatively and selectively engaged with one of the first and second sliding tray structures, and the connecting plug is in selective communication with oven cavity connector when the powered accessory tray is engaged with any one of the first and second tray sliding structures.

Technologies for generating manifest data for a sled include a sled to generate manifest data indicative of one or more characteristics of the sled (e.g., hardware resources, firmware resources, a configuration of the sled, or a health of sled components). The sled is also to associate an identifier with the manifest data. The identifier uniquely identifies the sled from other sleds. Additionally, the sled is to send the manifest data and the associated identifier to a server. The sled may also detect a change in the hardware resources, firmware resources, the configuration, or component health of the sled. The sled may also generate an update of the manifest data based on the detected change, where the update specifies the detected change in the hardware resources, firmware resources, the configuration, or component health of the sled. The sled may also send the update of the manifest data to the server.

A protecting cover includes a latching component and a releasing component. The latching component includes an engaging portion. The engaging portion engages with a cooperating portion of a connecting port when the latching component is at least partially accommodated inside the connecting port. The releasing component is detachably installed on the latching component and includes a resilient arm. The resilient arm abuts against the engaging portion to drive the engaging portion to disengage from the cooperating portion by operation of the resilient arm when the releasing component is installed on the latching component. The latching component at least partially accommodated inside the connecting port covers a front opening of the connecting port, and removal of the latching component requires the releasing component. It not only prevents outside dust particles or substances from entering into the connecting port but also prevents an unauthorized connection of the connecting port.

There is provided a connector configured by a first connector and a second connector which are fitted and electrically connected to each other. The first connector includes: a first housing; and a projecting portion that projects backward from an end portion of the first housing and extends in a fitting direction. The second connector includes: a terminal; a cap that covers a front surface of the terminal; and a second housing including a guide groove that guides the projecting portion and supporting a rotating shaft. The guide groove extends along the fining direction front an opening portion on a side of the first connector with respect to the rotating shaft toward an opposite side to the first connector.