Connectors for a networking device may be provided. A networking device may comprise a first plurality of switch bars each comprising a first switch type arranged parallel to one another, a second plurality of switch bars each comprising a second switch type arranged parallel to one another, and a third plurality of switch bars each comprising a third switch type arranged parallel to one another. The first plurality of switch bars, the second plurality of switch bars, and the third plurality of switch bars may be arranged orthogonally. A first one of the first plurality of switch bars may be connected to a first one of the second plurality of switch bars via a retractable mechanical connector mechanism.

A rack temperature controlling method includes performing the following operations through a controller: obtaining a rack temperature data, calculating a temperature variant according to the rack temperature data, calculating a temperature deviation according to the temperature variant and a reference temperature, calculating a target speed according to the temperature deviation, and adjusting a speed of a fan to the target speed. A rack temperature controlling system including a thermometer and a controller is further provided. The thermometer measures and outputs a rack temperature data. The controller receives the rack temperature data, and calculates a temperature variant according to the rack temperature data. The controller further calculates a temperature deviation according to the temperature variant and a reference temperature, calculates a target speed according to the temperature deviation, and adjusts a speed of a fan to the target speed.

A software-defined infrastructure can identify and remediate an airflow deficiency scenario on a rack device. A rack device manager can be configured to discover rack devices and create a representation of their physical locations. The rack device manager can also be configured to periodically retrieve airflow metrics of the rack devices to calculate an estimated airflow for each rack device. The rack device manager can use the estimated airflows and the airflow metrics to generate a rack device classifier for each rack device. Using these rack device classifiers, the rack device manager can detect when rack devices are experiencing airflow deficiencies and attempt to automatically remediate such deficiencies.

A rack-mountable computer system directs separate portions of a cooling airflow from an inlet air plenum in the computer system interior through separate air passages to remove heat from separate portions of a set of heat-producing components. The air passages can preclude a portion of cooling airflow removing heat from a component from being preheated by another component. Plenums and air passages can be established through the arrangement of components in the interior. Components can be arranged in progressive offsets throughout the depth of the interior to vary plenum flow area throughout the depth, which can progressively impede and redirect airflow through the inlet plenum into the air passages. Arrangements can include an angled row, a staggered configuration, etc. The computer system can include a chassis which can translate, while maintaining operation of hot-pluggable electronic components coupled throughout the depth, to enable swapping of hot-pluggable electronic components throughout the interior.

A heat dissipation assembly and an electronic assembly, wherein the heat dissipation assembly includes condensers and fan, the condensers each include first chamber body, second chamber body, and pipes. Two opposite ends of each pipe are respectively in fluid communication with the first and second chamber bodies, every two of the pipes located adjacent to each other define a heat dissipation gap therebetween. The first and second chamber bodies and the pipes together define a heat dissipation channel which is in air communication with the heat dissipation gaps. The fan is disposed on the condensers and in air communication with the heat dissipation channel and configured to guide an airflow flowing through the heat dissipation channel and the heat dissipation gaps so as to cool the working fluid flowing through the pipes.

A heat dissipation device of server cabinet heat dissipation device of server cabinet, comprising an outer case and a plurality of heat dissipation devices, the outer case is provided with a plurality of vents on one side, and a plurality of fans are installed on the other side, each of the heat dissipation devices is installed in the outer case, and each of the heat dissipation devices has an included angle toward each of the vents or the directions of the fans, so that the wind can pass through continuously after the fans are activated. Each of the heat dissipation devices is directly discharged after that. Since the heat dissipation devices do not overlap on the air circulation path, even if there is more than one heat dissipation device, it can still ensure that there is no temperature difference between each air, so that the heat dissipation effect is better so as the effect of stabilizing the overall heat dissipation temperature.

Apparatuses, systems, and methods to move end connectors. In at least one embodiment, a linkage system to move an end connector between at least a first position and a second position is driven by an actuator in a first direction to drive movement of the end connector in a second direction, perpendicular to the first direction.

A cartridge module alignment and mounting system, apparatus and method for mounting of a plurality of removable modules where the modules can be densely packed within the apparatus and where physical alignment of the module is maintained during insertion and removal so that the modules are easily connected or disconnected to a printed circuit board. The system includes an alignment pin affixable to the printed circuit board, and a carrier attachable to an electronic device such as a data storage device. The carrier can include a pin bore configured to receive a portion of the alignment pin thereby removably connecting and aligning the electronic device to the printed circuit board so that a space is defined between adjacent electronic devices. The space allows airflow or fluid flow to pass therebetween increasing heat dissipation of the electronic devices and the printed circuit board.

A server information handling system is secured by a bezel that couples to an access location, such as an air vent at a front or rear face of a housing. The bezel includes a security structure having a lock and configured to couple directly at the front face or with a bezel extension at the rear face so that the server information handling system can use the same bezel with both a front face or rear face rack mount. The bezel has a lock integrated with the security structure, an air filter that fits over the security structure to filter air flowing into the housing, and a filter brace that captures the air filter by coupling to the security structure over the air filter. The filter brace attaches and detaches at the security structure when the security structure locks a server information handling system housing so that the air filter can be changed while the housing remains secure.

A cooling assembly for cooling server racks includes a server rack enclosure sub-assembly that includes at least one panel member defining a volume for receiving one or more server racks having a front portion and a rear portion, at least one of the panel members is a rear panel member; at least one frame member defines an opening for receiving the rear portion of the server racks to form a hot space between the rear panel member and the combination of the frame member and the rear portion of the server racks; a cooling sub-assembly disposed in thermal communication with the hot space to cool at least one server supported in the server rack and including a chassis receiving at least one heat exchange member for exchanging heat between a refrigerant fluid flowing through the heat exchange member and fluid flowing through the hot space heated by the server.