Disclosed is an attachment mechanism for attaching a wireless access point to a vertical structure, such as a wall. The attachment mechanism includes a bracket that is mounted to the vertical structure. The attachment mechanism also includes at least two engagement members positioned on opposing sides of the access point. The two engagement members are horizontally aligned, in some embodiments, when the access point is engaged with a bracket. The two engagement members engage with receptacles that are part of the bracket. One of the receptacles includes a tab which prevents its corresponding engagement member from fully engaging with the receptacle, allowing the attachment mechanism to disengage via disengagement of only one of the engagement members.

A modular remote radio unit assembly that has a frame assembly, electrical components coupled to the frame assembly and configured to provide wireless data transfer, and a single power input for the electrical components. Wherein, when the power input is coupled to a power source, the electrical components are powered to provide wireless data transfer.

Technologies for dynamically managing resources in disaggregated accelerators include an accelerator. The accelerator includes acceleration circuitry with multiple logic portions, each capable of executing a different workload. Additionally, the accelerator includes communication circuitry to receive a workload to be executed by a logic portion of the accelerator and a dynamic resource allocation logic unit to identify a resource utilization threshold associated with one or more shared resources of the accelerator to be used by a logic portion in the execution of the workload, limit, as a function of the resource utilization threshold, the utilization of the one or more shared resources by the logic portion as the logic portion executes the workload, and subsequently adjust the resource utilization threshold as the workload is executed. Other embodiments are also described and claimed.

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 circuitry 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 mounting plate for removable mounting to a telecommunications frame includes a first set of mounting features for allowing a first type of telecommunications device to be mounted to the plate and a second set of mounting features for allowing a second type of telecommunications device to be mounted to the plate, the second type of telecommunications device defining a different width from a right side to a left side than the first type of telecommunications device.

A bracket for coupling at least three frame members to one another may include a structural portion including at least one relatively rigid first material, and a sealing portion including at least one second material different than the at least one first material. The bracket may also include first, second, and third receivers, each including a retainer portion configured to be coupled to an end of a respective frame member, and a sealing interface configured to provide a substantially dirt-resistant and fluid-resistant seal between a portion of the end of the respective frame member and the respective receiver. The bracket and frame members may form a joint configured to be incorporated into a frame for forming a cabinet.

A telecommunications device fixation assembly includes a bracket configured to be mounted to a telecommunications fixture, the bracket defining at least one planar wall and a device holder configured to be removably mounted to the bracket, the device holder defining a device holding portion and a fixation portion, wherein the fixation portion defines at least one pocket configured to receive an edge of the planar wall of the bracket, the fixation portion further including an elastically flexible latch configured to snap fit to a portion of the planar wall of the bracket to fix the device holder to the bracket.

A telecommunications equipment frame including a base, and two vertical uprights, and a top member; the upright members defining an upper equipment zone and a lower cable tray zone. One or more front trays are in the lower cable tray zone, and openings are provided through the frame to one or more rear trays. The equipment zone defined by the two uprights is open without cable management structure for receiving telecommunications equipment. At least one slack storage zone adjacent to the central zone includes a plurality of cable management devices for storing cable slack.

An assembly includes a ring frame having first and second open sides and an electrical connector block; a mounting structure to which the ring frame is secured; a plurality of power and signal cable connection points defined on the ring frame; and a plurality of power and signal cables coupled to the power and signal cable connection points and the connector block. First and second covers are secured to the ring frame. Each of the first and second covers is open on one side facing the ring frame and defines a mounting cavity. A plurality of heat-dissipating electronic components are mechanically and thermally coupled to the first and second covers and located in the mounting cavities. The heat-dissipating electronic components are releasably electrically coupled to the electrical connector block.

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.