An apparatus is described. The apparatus includes an add-in card having multiple semiconductor chip packages mounted to a printed circuit board of the add-in card. The add-in card includes separate dedicated heat sinks respectively coupled to the semiconductor chip packages with spring loaded fixturing elements, a heat pipe coupled to a plurality of the heat sinks.

Embodiments disclosed herein include electronic packages and methods of forming such packages. In an embodiment, an electronic package comprises a package substrate and a first region in the package substrate. In an embodiment, the first region comprises first conductive routing. The electronic package may further comprise a second region in the package substrate. In an embodiment, the second region comprises second conductive routing. In an embodiment, the second conductive routing is embedded in a magnetic material.

The present disclosure relates to stretchable and flexible lithium ion batteries that can store high energy density. The stretchable and flexible lithium ion battery can comprise flexible battery pouch cells connected in a serial, parallel, flat, or 3D configuration by, for example, stretchable, flexible, twistable, and durable material, which may include stretchable and flexible conductive connections.

A chassis of a server comprises a backplane. The backplane is disposed in the chassis of the server, and the backplane includes a first sub-board, a second sub-board, and at least one air baffle. The first sub-board is isolated from the second sub-board. Each air baffle forms an included angle with the first sub-board and forms an included angle with the second sub-board. Space enclosed by the first sub-board, the second sub-board, and a side wall, an upper wall, and a lower wall of the chassis is divided into a first air cavity and at least one second air cavity by using the at least one air baffle. The first air cavity is used for at least one first module to dissipate heat, and the second air cavity is used for at least one second module to dissipate heat.

The invention provides a power supply structure of a desktop computer, a mainboard to which the desktop computer belongs comprises a mainboard power input port. The power supply structure comprises a cabinet, a power supply device, a power adapting device and a mainboard power supply line. The cabinet comprises a cabinet inner space and a bearing plate. The cabinet inner space is divided into a mainboard mounting side provided for the mainboard to be disposed thereon and a back side. The bearing plate comprises a first through hole. The power adapting device is disposed in the cabinet and located at the back side. The power adapting device comprises a power source input port and a mainboard power supply port penetrating through the first through hole. The mainboard power supply line is connected with the mainboard power supply port and the mainboard power input port.

A desktop computing system having at least a central core surrounded by housing having a shape that defines a volume in which the central core resides is described. The housing includes a first opening and a second opening axially displaced from the first opening. The first opening having a size and shape in accordance with an amount of airflow used as a heat transfer medium for cooling internal components, the second opening defined by a lip that engages a portion of the airflow in such a way that at least some of the heat transferred to the air flow from the internal components is passed to the housing.

The disclosure provides a server including a housing, a plurality of Hash boards, a power module, a control module, a power supply module, and an electrical connection board. Each Hash board is disposed in the first accommodation cavity of the housing; the power module is disposed in the second accommodation cavity; the control module is slidably disposed in the third accommodation cavity; the power supply module is slidably disposed in the fourth accommodation cavity; the electrical connection board is disposed in the housing. The plurality of Hash boards, the power module, the control module, and the power supply module are all connected to the electrical connection board; the power module supplies power to the plurality of Hash boards via the electrical connection board, and the power supply module supplies power to the control module via the electrical connection board.

The disclosure discloses a server, which includes a housing, a plurality of hash boards, a control module, a power supply module, an electrical connection board and a heat dissipation nodule, wherein a second accommodation space is suitable for assembling a power supply module. A plurality of hash boards are slidably arranged in a first accommodation space of the housing. The control module is slidably arranged in a third accommodation space of the housing, and the power module is slidably arranged in a fourth accommodation space of the housing. The hash board, the power module, the control module and the power supply module are respectively connected with the electrical connection board. The power supply module supplies power to the hash board through the electrical connection board, and the power supply module supplies power to the control module through the electrical connection board.

The disclosure relates to a power supply module. The power supply module may include a flexible substrate and a plurality of battery cells distributed in an array on one side of the flexible substrate. Adjacent battery cells of the plurality of battery cells on each line in a first direction may be connected in series by a flexible connector to form a plurality of lines of battery cells, and the plurality of lines of battery cells may be connected in parallel through a first electrode.

The disclosure relates to computer technical field, and provides a GPU with specific shape of casing and a host casing hardware configuration. Body of the casing of the GPU includes a rectangle of a notch, the notch is located on a corner of the rectangle and is in a right trapezoid shape. In the host casing hardware configuration, the 2U host casing is divided into front area and rear area; hard disk assembly and fan assembly are disposed on the front area; the rear area is divided into top area and bottom area; 4 GPUs and a GPU tray are disposed on the top area in a staggered relationship, and motherboard and CUP and motherboard connector disposed on the motherboard are disposed on bottom area. The disclosure provides an advantage of improving the arrangement density of the components in the host casing.