Technologies for switching network traffic include a network switch. The network switch includes one or more processors and communication circuitry coupled to the one or more processors. The communication circuity is capable of switching network traffic of multiple link layer protocols. Additionally, the network switch includes one or more memory devices storing instructions that, when executed, cause the network switch to receive, with the communication circuitry through an optical connection, network traffic to be forwarded, and determine a link layer protocol of the received network traffic. The instructions additionally cause the network switch to forward the network traffic as a function of the determined link layer protocol. Other embodiments are also described and claimed.

A graphics processing unit (GPU) server having a GPU host head with one or more host graphics processing units (GPUs). The GPU server further has a GPU system with a plurality of system GPUs that are separate from the host GPUs, and that are configured to rapidly accelerate creation of images for output to a display device. The GPU server also has a mounting assembly that integrates the GPU host head and the GPU system into a single GPU server unit. The GPU host head is independently movable relative to the GPU system.

An adjustable air block for routing cables includes a housing, a first inner plate, and a second inner plate. The housing includes a central gate extending between a top end and a bottom end thereof. The first inner plate and the second inner plate are fastened at the top end of the housing. The first inner plate includes a first vertical portion adjustably coupled to a left edge of the central gate along a first inner surface. The second inner plate includes a second vertical portion adjustably coupled to a right edge of the central gate along a second inner surface.

Adapters for mounting patch panels to data center racks enable the patch panels to be repositioned with respect to the racks in a rotatable or pivotable manner. A patch panel mounted to an adapter has a jack or port on one side of the adapter, and a jack or port on another side of the adapter. With the adapter aligned at an obtuse angle with respect to a front edge of a rack, a component may be inserted into the rack, or removed from the rack. Subsequently, the adapter aligned at an acute angle, or any other angle, with respect to the front edge of the rack. Mounting patch panels to the adapters enables the patch panels to be maintained outside of the rack, and increases a number of components that may be installed within the rack, or space or volume that may e occupied by components within the rack.

Example high-density cable management bars are provided. In an example, a cable management bar comprises a cable channel configured to fit one or more cables and comprising a first end and a second end. The cable management bar can also comprise a first attachment point extending perpendicular from the first end. The cable management bar can also comprise a second attachment point extending perpendicular from the second end, the first attachment point and the second attachment point configured to attach to a rackmount computer, the cable management system configured to extend away from a rack in which the rackmount computer is located when attached to the rackmount computer via the first attachment point and the second attachment point, and when the rackmount computer is mounted in a rack.

A rack within a datacenter or other environment can include a plurality of appliances arranged in the rack such that ports of the appliances are aligned vertically or in another direction. A cartridge can include an elongate rigid body along which connectors are arranged. The connectors may be engageable with the aligned ports of the appliances in response to translation of the cartridge toward the rack. The cartridge can include cabling within the elongate rigid body, and the cabling can provide paths among subsets of the connectors, for example, such that subsets of the appliances are accordingly connected for transmission of data or other signals.

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.

Example implementations relate to a cable management arm for a computing system. The cable management arm includes a pair of latches, a pair of first bars, and a second bar. The pair of latches is detachably connectable to a chassis of the computing system. Each first bar has a first end pivotably connected to a respective latch of the pair of latches, and a second end connected to the second bar for defining an open space therebetween. The open space provides a non-interfering entrance for accessing the one or more electronic components from rear side of the chassis. The second bar supports the cables connected to the one or more electronic components. The pair of first bars is pivotable relative to the pair of latches such that the second bar is movable to a plurality of preset positions for providing the clearance from the cables during service event, for instance.

The present disclosure is directed to a system for providing substantially 180 degrees, or more, of rotation between a sheet metal door mounted on a sheet metal sidewall of a chassis, relative to the chassis. The system includes a first and a second shaft passing through a module positioned between the door and the sidewall, whereby the door rotates about the two shafts, where the two shafts are not axially aligned. The chassis may hold sleds of a server, and the door may further comprise multiple linking modules, such that the sleds are coupled to the linking modules when the door is in a closed position, and the sleds are slid home within the chassis.

In one embodiment, a method for removably coupling a tray bracket to a cable holder of an information handling system includes: receiving, by an open slot of a lock ring receiver of the cable holder, a closed end of a lock ring of the tray bracket, the lock ring receiver disposed on a surface of the cable holder, the closed end of the lock ring removably coupled to the lock ring receiver; applying, by two or more guiding structures of a lock ring neck receptacle of the cable holder, a compression force on a neck of the lock ring; and causing, by the compression force, the neck of the lock ring to be received by a recessed area of the lock ring neck receptable to removably couple the tray bracket to the cable holder.