A hard disk holder includes an integrated sheet metal framework. The integrated sheet metal framework is a main body structure of the hard disk holder, and a head and a tail of the integrated sheet metal framework are clamped to form a closed framework. The integrated sheet metal framework specifically includes a first side plate, a head end plate, a second side plate, and a tail end plate that are formed by sheet metal and are disposed in sequence. An inner side of the first side plate and an inner side of the second side plate each have a limiting bulge, and the hard disk body has limiting holes. The limiting bulges adapt to the limiting holes. When the hard disk body is mounted to the hard disk holder, the limiting bulges extend into the limiting holes to form a limiting structure.

A device having fool-proofing structure is configured to be inserted into a cabinet along a first direction and includes a case and an elastic sheet module. The elastic sheet module is disposed on a side of the case and includes a first end disposed on the case, a second end opposite to the first end, a first protrusion portion and a second protrusion portion. The first protrusion portion is adjacent to the second end, protrudes from the case and is configured to abut against the cabinet. The second protrusion portion is farther from the second end than the first protrusion portion, protrudes from the case, and is configured to make the second end and the first protrusion portion move toward the interior of the case as being pressed by a force.

One variation of a modular computer system includes: a chassis; an expansion slot; and an expansion card. The chassis includes a main board. The expansion slot: is arranged on a lateral side of the chassis; and defines a receptacle inset a bottom side of the chassis. The expansion slot includes: a latching member arranged within the receptacle; and a female connected to the main board. The expansion card includes: an enclosure configured to couple within the receptacle; a latch receiver configured to transiently couple the latching member to maintain the first enclosure within the first receptacle; and a male connector extending from the enclosure, and configured to interface the female connector of the expansion slot. The expansion card further includes an external port arranged at the enclosure and configured to interface with an external device.

A memory device includes a device housing, a memory module, and a cooling unit. The memory module is disposed in the device housing, wherein the memory module generates heat, and the heat is transmitted to the device housing. The cooling unit is thermally connected to the device housing to dissipate some of the heat. The cooling unit includes a unit housing and a working fluid. An interior space is formed in the unit housing. The working fluid is disposed in the interior space, wherein some of the heat travels from the device housing, passes through the unit housing, and is transmitted to the working fluid.

Provided is an engaging driving structure having a first driving fastener, a second driving fastener and a linking unit. The second driving fastener is disposed beside the first driving fastener. The linking unit is disposed between the first driving fastener and the second driving fastener and adapted to movably connect the first driving fastener and the second driving fastener. Therefore, the engaging driving structure is easy to use, labor-saving, and convenient.

A solid-state drive (SSD) includes a first rigid printed circuit board comprising a surface that defines a first plane. A second rigid printed circuit board of the SSD comprises a surface that defines a second plane that is substantially parallel to the first plane. A flexible interconnect couples the first rigid printed circuit board and the second rigid printed circuit board. The flexible interconnect partially encloses a volume. A capacitor is disposed within the volume.

A drive carrier for a device of an information handling system includes first and second portions. The first and second portions are placed in physical communication with the device. The first portion includes first and second side rails to secure the device within the drive carrier. The first and second side rails slide within a first slot of a bay of the information handling system. The second portion is located on top of the first portion and floats away from and toward the first portion when the drive carrier is inserted with the bay of the information handling system. An amount of float for the second portion is based on a bay pitch of the bay.

A server comprises a cabinet, a computing node and a plurality of hard disk assemblies. The cabinet is provided with a computing node accommodating slot and a plurality of hard disk accommodating slots. The computing node is assembled in the computing node accommodating slot, wherein the computing node is not provided with any hard disk. The hard disk assemblies are respectively assembled in the hard disk accommodating slots, wherein each of the hard disk assemblies has a plurality of hard disks, and the plurality of hard disk is electrically connected to the computing node.

A semiconductor storage device according to an embodiment includes a housing and a board, a controller, and a semiconductor memory component. The housing includes a first wall portion, a second wall portion, a third wall portion, and a fourth wall portion. The first wall portion and the second wall portion are separatable from each other. The third wall portion and the fourth wall portion are separatable from each other.

A device having fool-proofing structure is configured to be inserted into a cabinet along a first direction and includes a case and an elastic sheet module. The elastic sheet module is disposed on a side of the case and includes a first end disposed on the case, a second end opposite to the first end, a first protrusion portion and a second protrusion portion. The first protrusion portion is adjacent to the second end, protrudes from the case and is configured to abut against the cabinet. The second protrusion portion is farther from the second end than the first protrusion portion, protrudes from the case, and is configured to make the second end and the first protrusion portion move toward the interior of the case as being pressed by a force.