The present disclosure describes an equipment rack for a telecommunications cabinet. The equipment rack allows a telecommunications cabinet to be reconfigured such that telecommunications equipment can be vertically mounted therein. The equipment rack includes a structural rail configured to be mounted within the telecommunications cabinet, an insert plate configured to fit within a cavity of the structural rail and be secured to the structural rail, and a bracket configured to be secured to the to the insert plate and configured such that a piece of telecommunications equipment can be mounted thereto.

A method for providing wireless telecommunications. The method includes providing a modular remote radio unit (RRU) capable of wirelessly transmitting data, placing the modular RRU on a boom truck with a boom arm, transporting the remote radio unit to a deployment location, setting the modular RRU on a structure at the deployment location by lifting the modular RRU off the boom truck with the boom arm, electrically coupling a power input of the modular RRU to a power source to power the modular RRU, and transmitting and receiving wireless data with the modular RRU unit after the power input is coupled to the power source.

Technologies for connecting data cables in a data center are disclosed. In the illustrative embodiment, racks of the data center are grouped into different zones based on the distance from the racks in a given zone to a network switch. All of the racks in a given zone are connected to the network switch using data cables of the same length. In some embodiments, certain physical resources such as storage may be placed in racks that are in zones closer to the network switch and therefore use shorter data cables with lower latency. An orchestrator server may, in some embodiments, schedule workloads or create virtual servers based on the different zones and corresponding latency of different physical resources.

Methods and apparatus to manage workload domains in virtual server racks are disclosed. An example apparatus includes processor circuitry to, in response to detecting that a number of available physical racks satisfies a threshold number of physical racks, apply a first resource allocation technique by reserving requested resources by exhausting first available resources of a first physical rack before using second available resources of a second physical rack; in response to detecting that the number of available physical racks does not satisfy the threshold number of physical racks, apply a second resource allocation technique by reserving the requested resources using a portion of the first available resources without exhausting the first available resources and using a portion of the second available resources without exhausting the second available resources; and execute one or more workload domains associated with a number of requested resources.

Embodiments are generally directed apparatuses, methods, techniques and so forth to select two or more processing units of the plurality of processing units to process a workload, and configure a circuit switch to link the two or more processing units to process the workload, the two or more processing units each linked to each other via paths of communication and the circuit switch.

A utility cabinet includes a housing having an interior compartment, a rear wall, a top wall, a bottom wall, a first side wall, a second side wall, a front opening, and a side opening. A frame is connected to the housing and moveable between a first position where the frame is entirely in the housing and a second position where at least a portion of the frame is outside of the housing. The frame is configured to receive one or more utility components. A front door is connected to the housing and moveable between a closed position covering the front opening and an open position providing access to the front opening. A side door is connected to the housing and moveable between a closed position covering the side opening and an open position providing access to the side opening.

Disclosed is a fixing device for fixing a communication device, including an upper mounting member, a lower mounting member, and at least one limiting mechanism fixed to the upper mounting member and/or the lower mounting member; the lower mounting member including a fixing portion fixed to the lower end of the communication device and a hinge portion hinged to the fixing portion; and the limiting mechanism configured to limit the fixing portion from continuing to rotate relative to the hinge portion in response to that the upper mounting member is not fixedly connected to the communication device and the fixing portion rotates a preset angle relative to the hinge portion along a preset path, the preset angle is greater than 0° and less than 140°. A communication apparatus is also disclosed.

A patch panel, including a front portion for accommodating a plurality of front side ports, and a back portion for accommodating one or more back side ports and for storing one or more extension cables; and one or more inner cables for connecting at least one of the front side ports to at least one of the back side ports, wherein the patch panel is configured such that when the patch panel is placed in a rack, the front side ports are proximate a first side of the rack, and the back side ports are proximate a second side of the rack, the first side of the rack and the second side of the rack being opposite, or substantially opposite, one another.

A damping device and a CPE assembly are disclosed. The damping device may include a housing, a guide roller, a friction drum, and a buffer shaft. The buffer shaft includes a shaft body, and a buffer arranged in the housing. The shaft body has one end connected with the buffer and the other end arranged on the bottom plate of the housing. The guide roller is rotatably arranged on the shaft body. The friction drum is sleeved on the guide roller, the guide roller has an outer diameter less than an inner size of the friction drum. The housing is provided with a first wire inlet hole and a first wire outlet hole in a sidewall, and the friction drum is provided with a second wire inlet hole and a second wire outlet hole respectively opposite to the first wire inlet hole and the first wire outlet hole.

Embodiments are generally directed apparatuses, methods, techniques and so forth determine an access level of operation based on an indication received via one or more network links from a pod management controller, and enable or disable a firmware update capability for a firmware device based on the access level of operation, the firmware update capability to change firmware for the firmware device. Embodiments may also include determining one or more configuration settings of a plurality of configuration settings to enable for configuration based on the access level of operation, and enable configuration of the one or more configuration settings.