An electronic device having slots into each of which a circuit board is inserted includes faceplates attached respectively to the circuit boards on the side of an extraction direction. The faceplates each include two handle portions that are disposed respectively at both ends of a main body in the width direction and that extend in the extraction direction. The handle portion of one of two faceplates adjacent in the width direction that is located closer to the other of the faceplates, and the handle portion of the other faceplate that is located closer to the one faceplate, have respective distal ends shifted from each other in a thickness direction.

Technologies for allocating resources of a set of managed nodes to workloads to manage heat generation include an orchestrator server to receive resource allocation objective data including a target temperature for one or more of the managed nodes. The orchestrator server is also to determine an initial assignment of a set of workloads among the managed nodes, receive telemetry data from the managed nodes indicative of resource utilization by each of the managed nodes and one or more temperatures and fan speeds of the managed nodes as the workloads are performed, predict future heat generation of the workloads as a function of the telemetry data, determine, as a function of the predicted future heat generation, an adjustment to the assignment of the workloads to achieve the target temperature, and apply the adjustments to the assignments of the workloads among the managed nodes as the workloads are performed.

A middle frame for supporting flexible display is provided. The middle frame for supporting flexible display comprises middle frame element, and a first through groove and a second through groove respectively located on lateral sides of middle frame element. The invention further provided a flexible display device includes middle frame and flexible display positioned in the middle frame element. The flexible display includes flexible substrate, printing wiring board, and at least one of two lateral sides on flexible substrate adjacent printing wiring board has a protrusion portion. A first through groove is correspondingly located to the printing wiring board, and second through groove is correspondingly located to the protrusion portion. The protrusion portion fixed in second through groove, partial wiring board of printing wiring board fixed in first through groove. This present invention solved the problem about difficult aligning flexible display and middle frame.

A disclosed expansion socket may include a primary slot and a secondary slot, each mounted to a receiver printed circuit board and electrically coupled to a central processing unit via a computing bus. The primary slot may be dimensioned to receive a primary pinout disposed within a primary portion of an edge connector disposed on a connecting edge of a presenter printed circuit board. Likewise, the secondary slot may be positioned and dimensioned to receive a secondary pinout, disposed within a secondary portion of the edge connector, when the primary slot receives the primary portion of the edge connector. Furthermore, the primary pinout and the secondary pinout may each conform to a compact pinout specification that is more compact than a pinout specification defined for the computing bus. Various other systems and methods are also disclosed.

Technologies for managing the efficiency of workload execution in a managed node include a managed node that includes one or more processors that each include multiple cores. The managed nodes is to execute threads of workloads assigned to the managed node, generate telemetry data indicative of an efficiency of execution of the threads, determine, as a function of the telemetry data, an adjustment to a configuration of the threads among the cores to increase the efficiency of the execution of the threads, and apply the determined adjustment. Other embodiments are also described and claimed.

Examples may include racks for a data center and sleds for the racks, the sleds arranged to house physical resources for the data center. The sleds can house physical resources and heat sinks thermally coupled to the physical resources. The physical resources are arranged on the sleds and the heat sinks are configured so as to limit thermal shadowing between physical resources to reduce interference with airflow provided by fans of the racks.

In example implementations, an apparatus is provided. The apparatus includes a riser card body, a first interface, a first 28 slot on a surface of the riser card body, and a second 28 slot on a same side of the surface of the riser card body as the first 28 slot. The first interface includes a first set of fingers and a second set of fingers at an end of the riser card body to connect to a peripheral component interconnect express (PCIe) slot of a motherboard. The first 28 slot and the second 28 slot are positioned perpendicular to the PCIe slot of the motherboard.

A system, comprising: a slot to accept an option card, wherein the slot includes: a connector to receive the option card; and guide rails to guide the option card into the slot, wherein at least one of the guide rails includes a latch and a button, wherein when the option card is not inserted into the slot and the button is: in a locked position, the latch prevents insertion of the option card into the slot; in an unlocked position, the latch allows insertion of the option card into the slot.

A guide panel comprised of unitized construction that includes a guidance slot, an engagement structure, a power-data transmission alignment structure, and electrostatic discharge components.

Provided is a rack mount case storage system separably coupled to a body, wherein, constituting the storage system, a SATA interface based-3.5 inch storage media and a PCIe interface based-3.5 inch storage media are both accommodated in a front case, thereby forming a high-capacity hybrid Bay structure; and a power supply module for supplying power to the storage system of the present invention, as well as a HOST Computer interface card, a storage extension module, a RAID card, and some storage media, which are components for performing various controls of the storage system, are mounted in a rear case.