A configuration of a service of a cloud computing system is rendered in a user interface of an electronic display, according to a discovery chain generated by a networking tool using a service discovery function to establish the configuration. The configuration includes one or more of a router, a splitter, and/or a resolver, each having one or more configuration files that are represented as a graphical element within a graphical representation of the one or more of the router, the splitter, and/or the resolver. The configuration further includes data traffic routes between pairs of the configuration files, each being represented in the UI as a line between each pair of configuration files, where each line is rendered in the UI so as to avoid crossing over any graphical element that represents a configuration file.

Automatic onboarding, management, and control across heterogeneous edge devices of a client network using device abstractions may be performed (e.g., different types of edge devices manufactured by different vendors). A device onboarding and integration service may emulate, by a first device abstraction, an edge device of a client network, where the edge device is a first type of device. The service emulates, by a second device abstraction, the edge device as a second type of edge device (e.g., from a different vendor/uses a different API). The service updates a state of the first device abstraction based on a state of the edge device. The service then updates a state of the emulating, by a second device abstraction, the edge device as a second type of edge device. The second device abstraction sends its updated state to an application at the client network.

A method and system for outcome-based workload configurations for IT environments. Existing solutions directed to implementing multi-tier configurations on bare-metal IT infrastructure tend to require specialized tools and skills on a tier-by-tier basis. A more unified approach, where a single or singleton configuration that defines and implements the desired state (or outcome) of one or more tiers, is sought and thus proposed. Within this disclosure, implementation of workload deployment policies, is emphasized.

An example controller device that manages a plurality of network devices includes one or more processing units implemented in circuitry and configured to receive, via an application programming interface (API) framework, an indication of an intent. The intent includes data indicating an update to a data structure including a plurality of nodes representing the plurality of network devices and a plurality of edges connecting the plurality of nodes. The one or more processing units are further configured to process the intent to select a topology compiler from a plurality of topology compilers and invoke, via the API framework, the selected topology compiler using a role of a network device of the plurality of network devices and an indication of the network device as input to generate abstract configuration information. The one or more processing units are further configured to configure the network device based on the abstract configuration information.

The information processing method includes: acquiring, by an information processing device, numerical value information pertaining to an attribute of a network slice, the numerical value information being obtained by converting input information which has been inputted through a user interface; and selecting, by the information processing device, a network slice as a candidate to which a terminal device is to be connected.

Machine data reflecting operation of a monitored system is ingested and made available for search by a data intake and query system (DIQS). A monitoring function may search the data ingested by the DIQS to determine instances of notable events in regards to the monitored system and may further determine a defined invokable action message (IAM) associated with a notable event instance. Processing ensues to send an IAM to a communications device used by support personnel. The IAM includes information about an action invocation message (AIM) suitable to cause the performance of an action that possibly remedies or improves an operational condition represented by the notable event. Support personnel engages a user interface representation corresponding to the AIM and the AIM is sent to a remedial node where performance of the action is invoked.

A method for managing nodes is disclosed. The method includes testing a management script on a management server for managing at least one node. The method also includes receiving administrator validation to distribute the management script. The method further includes sending the validated management script to one or more management servers on one or more networks.

Techniques are described for automatically generating a consistent configuration state version 2 for a network device with no or minimal help from a user and/or from a provider of the network device when updating from a configuration state version 1 to the configuration state version 2. The techniques and architecture also provide for migration from configuration state version 1 to configuration state version 2 when at least some of a configuration state are located in text files that are applied to the network device at start-up of the network device.

A computer-implemented method and a computer program product for device pairing by cognitive computing. A cognitive computing system creates a knowledge corpus about the historical activities of pairing devices of a user. The cognitive computing system predicts needs of device pairing of the user, based on analysis of the historical activities. The cognitive computing system identifies devices that can be paired in a surrounding area. An augmented reality device tracks an eye direction of the user at a device, extrapolates the eye direction to create an eye focus direction of the user, obtains from the cognitive computing system an eye focus line with an arrow pointing to the device, and creates an augmented reality overlay which shows the eye focus line. The augmented reality device pairs a user currently used device and the device, upon user approval.

A mobile device management method includes: a first electronic device sends a request message including an identifier of at least one second electronic device to a first server. The first electronic device receives a DM service APP from the first server and installs the DM service APP. After the DM service APP is installed, the first electronic device can provide the MDM service. The first electronic device provides the MDM service for the second electronic device, to implement management and device system upgrade of the second electronic device.