A system and method according to the principles of the invention provides the data center operator enhanced tools for managing power capacity. The system tracks and stores actual power usage to the item level and automatically adjusts the budgeted power for items, groups of items and item models. The disclosed system and method finds stranded power capacity by adjusting power budgets according to actual usage trends. Operators can implement auto power budget adjustments based on configured policies. The policies can include specifying the power budget headroom for items, groups of items and models.

Method and systems provide automated configuration of replaceable hardware components of a chassis comprising a plurality of IHSs (Information Handling Systems) and a plurality of storage devices that are configured to support demands of a specific computing solution designed for a particular computing task. The IHSs may be computing sleds and the storage devices may be storage sleds, where the sleds are coupled within bays of the chassis. Processes operating on the IHSs monitor for changes to settings related to the first computing solution. A chassis management controller detects updates to the replaceable hardware components that are coupled to the chassis and determines supported settings for detected new hardware components. Parameters for configuring the new hardware components for supporting the first computing solution are selected and used to configure the new hardware components.

In certain embodiments, cable patching may be facilitated. For example, identifiers corresponding to available ports for devices or objects within racks and required ports for patching devices into the racks may be determined. Cable patching schemes for the racks may be retrieved from sensors. The available ports, the required ports, and the cable patching schemes may be input into a prediction model, the prediction model being configured based on the inputs. New identifiers corresponding to new available ports for a new rack and new required ports for patching new devices into the new rack may be determined. A predicted cable patching scheme for patching the new rack may be obtained from the prediction model. In some embodiments, the predicted cable patching scheme may be transmitted to a user device.

Software-defined fail-safe power draw control is provided for rack power distribution units (PDUs). A PDU power manager can be used to map devices to a PDU and its sockets. The PDU power manager can also identify the power rating of the PDU and its sockets. With this information, the PDU power manager can generate and apply priority-based and dynamic power caps to the devices connected to the PDU. In this way, the PDU power manager can ensure that the power ratings of the PDU and of each of its sockets are not exceeded while ensuring that power delivery is prioritized based on the workloads that the devices may experience.

Apparatus and method for the positional interchange of IT hardware nodes at an IT hardware rack. The present apparatus and method is particularly suitable for use with a variety of different IT hardware rack configurations. The present apparatus comprises a mount, a body supported at the mount, grippers movably attached to the body and engagers provided at the grippers configured to enable insertion and/or withdrawal of IT hardware nodes at an IT hardware rack.

Technologies for providing efficient pooling for a system that includes a hyper converged infrastructure. A sled of the system includes a network interface controller that includes a first bridge logic unit to communicatively couple to a network of bridge logic units. The first bridge logic unit is further to obtain, from a requestor device, a request to access a requested device, determine whether the requested device is on the present sled or on a remote sled different from the present sled, selectively power on, in response to a determination that the requested device is located on the present sled, the requested device, communicate, in response to a determination that the requested device is on the remote sled, with a second bridge logic unit of the remote sled, and provide, to the requestor device through the first bridge logic unit, access to the requested device.

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.

Technologies for load balancing a storage network include a system. The system includes circuitry to adjust routing rules in a network interface controller to deliver a packet from one of multiple uplinks to one of any physical functions, circuitry to remap, in response to a failure of a switch, a port from one physical function to another physical function, and circuitry to communicate control data between a software defined network controller and one or more agents in one or more host endpoints with a hierarchical distributed hashing table.

Example implementations relate to method and controller for secure management of a rack. The method includes generating a first unique identifier corresponding to a rack profile of the rack hosting rack devices including physical devices and logical devices, in accordance with a rack topology, wherein the rack profile is based on configuration of the rack devices and the rack topology. Further, the method includes receiving information corresponding to the rack profile of the rack from peripheral devices disposed in the rack, wherein the information is based on monitored condition of the rack devices and the rack topology. The method further includes generating a second unique identifier based on the information, and determining variation in the rack profile based on comparison of the first and second unique identifiers. Further, the method includes generating an alert signal in the rack, in response to determination of the variation in the rack profile.

A method of power management in a datacenter includes obtaining at least one workload status of at least one server rack, obtaining at least one infrastructure parameter, obtaining at least one utility telemetry, and comparing the at least one workload status to the at least one utility telemetry. The method further includes determining a workload demand based at least partially on a difference between the at least one workload status and the at least one utility telemetry and changing the at least one infrastructure parameter based on the workload demand and the at least one infrastructure parameter.