A new scalable approach to conflict-free deployment of changes across networks. The conflict rules or constraints may be modeled using policies and algorithms to determine an optimized schedule for change deployment.

An infrastructure management subsystem receives a selection of a planned configuration of the computing infrastructure and a baseline demand that includes a current usage of computing resources of the computing infrastructure. The infrastructure management subsystem determines an anticipated turbulence. The anticipated turbulence includes a quantitative indication of anticipated fluctuations in future infrastructure demand as a function of time. The infrastructure management subsystem determines an effective turbulence for the planned infrastructure configuration. The effective turbulence includes a quantitative indication of anticipated fluctuations in future infrastructure availability. The infrastructure management subsystem determines a configuration score corresponding to an extent to which the anticipated fluctuations in the effective turbulence destructively interfere with the anticipated fluctuations in the anticipated turbulence.

Described herein are systems, methods, and software to enhance the management of responses to incidents. In one example, a method of improving incident response comprises identifying an incident in an information technology (IT) environment associated with a first entity of a plurality of entities, and identifying action implementation information related to the incident. The method further anonymizes the action implementation information for the incident, and determines action suggestions based at least on the anonymized action implementation information.

A method for providing printing services to a local network is described. The method includes receiving, at an electronic device, an indication from a server outside a local network to run a service manager. The method also includes running the service manager on the electronic device. The method also includes receiving, at the electronic device, an indication to run one or more printing services on the local network based on one or more printing service settings. The one or more printing services communicate at regular intervals with the server to determine whether the printing service settings have been reconfigured or updated.

Some embodiments provide a method for associating data message flows from applications executing on a host computer with network interfaces of the computer. The method of some embodiments identifies a set of applications operating on a machine executing on the host computer, identifies candidate teaming policies for associating each identified application with a subset of one or more interfaces, and generates a report to display the identified candidate teaming policies per application to a user. In response to user input selecting a first teaming policy for a first application, the method generates a rule, and distributes the rule, to the host computer to associate the first application with a first subset of the network interfaces specified by the first teaming policy. Similarly, in response to user input selecting a second teaming policy for a second application executing on the machine, the method generates a second rule, and distributes the second rule, to the host computer to associate the second application with a second subset of the network interfaces specified by the second teaming policy.

Some organizations have a deployed and functional “controllerless” EVPN VxLAN Fabric in their data centers. Eventually, however, the organization may deploy a controller within the network. In one example, this disclosure describes a method that includes configuring a controller to communicate with each of a plurality of elements in a network; determining, by the controller, an initial operational state of the network; translating, by the controller, the initial operational state of the network to an intent-based configuration; pushing, by the controller, the intent-based configuration to the network to reconfigure each of the plurality of elements in the network in a manner consistent with the intent-based configuration; determining, by the controller and after pushing the intent-based configuration, an updated operational state of the network; and comparing, by the controller, the initial operational state of the network with the updated operational state of the network.

A method for controlling deployment of network configuration changes includes receiving, by centralized network management system executed by a processor and memory, configuration change instructions to alter a configuration of a network; computing, by the centralized network management system, a weighted impact of the configuration change instructions; determining, by the centralized network management system, whether the weighted impact of the configuration change instructions exceeds a threshold impact level; and in response to determining that the weighted impact does not exceed the threshold impact level, executing the configuration change instructions.

A tool is provided to configure an edge compute environment of a network. The edge compute configuration tool may generate a configuration process for instantiating an edge compute environment at an edge site of a network including configuring one or more of the components of the edge compute environment. The configuration process may be based on seeding data and/or information provided to the edge compute configuration tool via a user interface and/or from one or more databases associated with the network. The configuration process may further include generating automatically executed configuration instructions that communicate with the devices of the edge compute environment to configure operational processes of the devices, provision communication ports, establish one or more network addresses with the devices, etc. In some instances, the edge compute configuration tool may execute one or more micro-services to communicate with and control configuration of the devices of the edge compute environment.

The present technology provides a framework for user-guided end-to-end automation of network deployment and management, that enables a user to guide the automation process for any kind of network deployment from the ground up, as well as offering network management, visibility, and compliance verification. The disclosed technology accomplishes this by creating a stateful and interactive virtual representation of a fabric using a customizable underlay fabric template instantiated with user-provided parameter values and network topology data computed from one or more connected network devices. A set of expected configurations corresponding to the user-specified underlay and overly fabric policies is then generated for deployment onto the connected network devices. Network deviations from the intended fabric policies are addressed by the provision of one or more configuration lines to be deployed onto or removed from the connected network devices to bring the network state in agreement with the set of expected configuration.

Some embodiments of the invention provide a method for deploying network elements for a set of machines in a set of one or more datacenters. The datacenter set is part of one availability zone in some embodiments. The method receives intent-based API (Application Programming Interface) requests, and parses these API requests to identify a set of network elements to connect and/or perform services for the set of machines. In some embodiments, the API is a hierarchical document that can specify multiple different compute and/or network elements at different levels of compute and/or network element hierarchy. The method performs automated processes to define a virtual private cloud (VPC) to connect the set of machines to a logical network that segregates the set of machines from other machines in the datacenter set. In some embodiments, the set of machines include virtual machines and containers, the VPC is defined with a supervisor cluster namespace, and the API requests are provided as YAML files.