Techniques for mechanized modify/add/create/delete (MACD) for network configuration are provided. A method can include creating a data object from input data relating to a requested change to a target network configuration, the data object comprising a first parameter indicating a type of the requested change and a second parameter identifying the target network configuration; retrieving, from a repository according to a group of logical rules, executable instructions associated with the type of the requested change, as given by the first parameter of the data object, and the target network configuration, as given by the second parameter of the data object; and performing, further according to the group of logical rules, the requested change to the target network configuration, the performing of the requested change comprising executing the executable instructions retrieved from the repository.

A method for mitigating errors in the transportation of configuration data may include identifying, at a development system, dependent configuration data associated with a first transport request. The dependent configuration data may implement a customization to a software application hosted at a production system. A reference table identifying the dependent configuration data may be sent to the production system. A missing object list identifying dependent configuration data absent from the production system may be generated at the production system based on the reference table. The missing object list may be sent to the development system where a corrective action may be performed such that the dependent configuration data identified by the missing object list as being absent from the production system is sent to the production system in the first transport request and/or a second transport request. Related systems and articles of manufacture, including computer program products, are also provided.

Embodiments are directed to a distributed computing system comprising a plurality of compute nodes for providing resources to users and a hierarchy of two or more layers of controllers coupling the compute nodes to a user interface via a control plane, wherein at least one compute node receives a local application program interface (API) call from an application running on the at least compute node, the local API call causing the at least one compute node to configure a local resource without requiring commands from the control plane.

This application provides a network configuration method, apparatus, and system. The method includes: determining, based on a mapping relationship, that a first data node in a first YANG data model corresponds to a second data node in a second YANG data model, where the first data node and the second data node include a same indication operation, and the mapping relationship includes a correspondence between a data node in the first YANG data model and a data node in the second YANG data model; and generating a first packet based on the second data node.

Examples described herein include systems and methods for providing dynamic serviceability for a software-defined data center (“SDDC”). An example method can include collecting data-center metrics from a management service that monitors the SDDC, filtering the data-center information based on a predetermined list of metrics provided by a partner entity, and translating the filtered data-center information into a partner-specific format requested by the partner entity. The example method can also include generating metadata associated with the translated data-center information and transmitting the metadata and translated data-center information to a partner site associated with the partner entity. If the partner site is not available, the method can include transmitting the information to a partner-accessible storage location and, when the partner site becomes available, identifying the storage location and failed attempt to deliver the information.

Examples described herein include systems and methods for providing dynamic serviceability for a software-defined data center (“SDDC”). An example method can include collecting data-center metrics from a management service that monitors the SDDC, filtering the data-center information based on a predetermined list of metrics provided by a partner entity, and translating the filtered data-center information into a partner-specific format requested by the partner entity. The example method can also include generating metadata associated with the translated data-center information and transmitting the metadata and translated data-center information to a partner site associated with the partner entity. If the partner site is not available, the method can include transmitting the information to a partner-accessible storage location and, when the partner site becomes available, identifying the storage location and failed attempt to deliver the information.

A computer-based system comprising a library module associated with an application, the library module using stored configuration data and configuration metadata for the application and a configurator to generate a web user interface using the configuration metadata. The web user interface allowing a user to input configuration information for the application.

A computer-based system comprising a library module associated with an application, the library module using stored configuration data and configuration metadata for the application and a configurator to generate a web user interface using the configuration metadata. The web user interface allowing a user to input configuration information for the application.

Embodiments of the invention are directed to systems, methods, and computer program products for dynamic processing of temporal upstream data and downstream data in communication networks. The invention is configured for dynamic processing and cascading of instance data and configuration files from edge node devices of a distributed network for reduction of latency in data transmissions. The invention involves constructing a first device cluster comprising one or more first cluster edge computing nodes of a plurality of edge computing nodes. In response to receiving a first downstream request for determining a current modification to the first source instance data, embodiments of the invention involves extracting at least one cluster configuration file associated with the at least one cluster edge computing node associated with first edge computing node, and processing the first technology application therewith.

A method for managing at least one network element includes receiving, by a deployment platform, an instruction from a user device to execute a command on the at least one network element, the instruction comprising command metadata identifying the command within a command catalog stored in a repository; obtaining the command by the deployment platform from the repository based on the command metadata; and executing the command on the at least one network element using a framework operating on the deployment platform.