A method for synchronizing a binding process among a group of network devices connected to a server that is multi-homed to the group of network devices in provided. The method is executed by a first network device among the group of network devices and includes: receiving, from the server, network traffic associated with a host executing on the server; configuring, using the network traffic, a binding between the first network device and the host and setting a binding status of the first network device for the host to a first status; and transmitting, in response to the setting and via an out-of-band (OOB) channel to a second network device among the plurality of network devices, first binding instructions for causing the second network device set a binding status of the second network device for the host to a second status different from the first status.

Systems, methods, and non-transitory, machine-readable media to facilitate updating media devices in a local network with a client-server architecture are disclosed. A primary media device may be configured to operate as a server in a local network, receive audio/video (A/V) content via an Internet connection and/or a satellite network connection, serve the A/V content to a set of one or more secondary media devices for display with at least one television of a set of one or more televisions, and receive a set of one or more software updates via the Internet connection, a Universal Serial Bus (USB) connection, and/or the satellite network connection. One or more software updates of the set of one or more software updates may be specified for, and may be transferred to, the set of one or more secondary media devices.

A network slice selection method includes, in response to an update in configuration information of a user of a media service, determining first information indicating updated configuration information of the user of the media service. The first information indicates an updated selection of a first network slice from at least two network slices. The method further includes transmitting, by the media service, the first information to an entity of a 5G Core network.

A network slice selection method includes, in response to an update in configuration information of a user of a media service, determining first information indicating updated configuration information of the user of the media service. The first information indicates an updated selection of a first network slice from at least two network slices. The method further includes transmitting, by the media service, the first information to an entity of a 5G Core network.

A method obtains service request information identifying computing device nodes invoked by users. Based on the service request information, sets of computing device nodes are identified, each set of computing device nodes includes computing device nodes invoked simultaneously or sequentially by one of the users. Communities are further identified based on a probability measure that is a measure of a probability of co-occurrence of two sets of computing device nodes. Each community has sets of computing device nodes each having the probability measure over a probability threshold in relation to at least one other set of computing device nodes in the community. Solutions are predicted for provision of services of the sets of computing device nodes of the communities. Each predicted solution for provision of services relates to a community and is determined based on shared knowledge of predicted solutions for provision of services relating to other communities.

A method includes partitioning a set of configuration management (CM) data for one or more cellular network devices into multiple distinct time intervals, each time interval associated with a distinct set of CM settings at the one or more cellular network devices, the CM data comprising multiple CM parameters. The method also includes determining a regression model based on the set of CM data. The method also includes applying the regression model to compute a distinct set of scores and compare the set of scores to estimate whether a performance of the one or more cellular network devices has changed during a second time interval relative to a first time interval.

Some embodiments provide a local controller on a set of host computers that reduce the volume of data that is communicated between the server set and the set of host computers. The local controller executing on a particular host computer, in some embodiments, receives a portion of the namespace including only the policies (e.g., opcode) that are relevant to API-authorization processing for the applications executing on the particular host computer provided by a local agent executing on the computer to authorize the API requests based on policies and parameters. The local controller analyzes the received policies (e.g., policy opcodes) and identifies the parameters (e.g. operands), or parameter types, needed for API-authorization processing (e.g., evaluating the policy opcode upon receiving a particular API request) by the local agent. In some embodiments, the local controller performs this analysis for each updated set of policies (e.g., policy opcodes).

Disclosed are embodiments for injecting sidecar proxy capabilities into non-sidecar applications, allowing such non-sidecar applications to communicate with a service mesh architecture. In an embodiment, a method comprises receiving a request to instantiate a proxy for a non-sidecar application at a service mesh gateway (SMG). The SMG then instantiates the proxy in response to the request and broadcasts network information of the non-sidecar application to a mesh controller deployed in a containerized environment. Finally, the SMG (via the proxy) transmits data over a control plane that is communicatively coupled to the mesh controller.

A symmetric multiprocessor includes with a hierarchical ring-based interconnection network is disclosed. The symmetric processor includes a plurality of buses comprised on the symmetric multiprocessor, wherein each of the buses are configured in a circular topology. The symmetric multiprocessor also includes a plurality of multi-processing nodes interconnected by the buses to make a hierarchical ring-based interconnection network for conveying commands between the multi-processing nodes. The interconnection network includes a command network configured to transport commands based on command tokens, wherein the tokens dictate a destination of the command, a partial response network configured to transport partial responses generated by the multi-processing nodes, and a combined response network configured to combine the partial responses generated by the multi-processing nodes using combined response tokens.

A master node, a local node, a service assurance system, and a respective method performed thereby for predicting one or more metrics associated with a communication network are provided. The method performed by the master node operable in the communication network comprises receiving prediction(s) based on training data from local nodes in the communication network; and determining weight parameter(s) associated with the local nodes based on the current received prediction(s) and past received predictions. The method further comprises adjusting a respective local reporting policy for one or more local nodes based on the determined weight parameter(s).