Systems and methods for establishing a connection with an edge application server are provided. A user equipment (UE) in a wireless communication network establishes a connection with an edge application server to offload the data processing of an application executing on the UE to the edge application server. The UE communicates key performance indicators (KPIs) associated with the application to the edge data network. The KPIs indicate the resources that application uses to process the data. In response, the UE receives edge application server parameters from multiple servers in the edge data network that meet or exceed the KPIs. The parameters include compute, graphical compute, memory and storage parameters with various levels of specificity. The UE selects one of the edge application servers to process the data on behalf of the application based on the parameters.

Systems and methods for establishing a connection with an edge application server are provided. A user equipment (UE) in a wireless communication network establishes a connection with an edge application server to offload the data processing of an application executing on the UE to the edge application server. The UE communicates key performance indicators (KPIs) associated with the application to the edge data network. The KPIs indicate the resources that application uses to process the data. In response, the UE receives edge application server parameters from multiple servers in the edge data network that meet or exceed the KPIs. The parameters include compute, graphical compute, memory and storage parameters with various levels of specificity. The UE selects one of the edge application servers to process the data on behalf of the application based on the parameters.

Disclosed implementations display information about entities in a structured way. In one aspect, a method is performed at a server system comprising memory and processors. The server receives a request from a client device for an information page associated with an entity belonging to a viewable media category. The server identifies predefined information types associated with the viewable media category and populates a first region of a search result page with information about the entity corresponding to the predefined information types. Responsive to determining that the first entity is available for streaming or downloading, the server populates a second region of the search result page with a location-based information type that is distinct from the set of predefined information types and populated using information about a location from which the first entity can be streamed or downloaded. The server transmits the search result page to the client device.

Disclosed implementations display information about entities in a structured way. In one aspect, a method is performed at a server system comprising memory and processors. The server receives a request from a client device for an information page associated with an entity belonging to a viewable media category. The server identifies predefined information types associated with the viewable media category and populates a first region of a search result page with information about the entity corresponding to the predefined information types. Responsive to determining that the first entity is available for streaming or downloading, the server populates a second region of the search result page with a location-based information type that is distinct from the set of predefined information types and populated using information about a location from which the first entity can be streamed or downloaded. The server transmits the search result page to the client device.

A novel design of a gateway that handles traffic in and out of a network by using a datapath pipeline is provided. The datapath pipeline includes multiple stages for performing various data-plane packet-processing operations at the edge of the network. The processing stages include centralized routing stages and distributed routing stages. The processing stages can include service-providing stages such as NAT and firewall. The gateway caches the result previous packet operations and reapplies the result to subsequent packets that meet certain criteria. For packets that do not have applicable or valid result from previous packet processing operations, the gateway datapath daemon executes the pipelined packet processing stages and records a set of data from each stage of the pipeline and synthesizes those data into a cache entry for subsequent packets.

A novel design of a gateway that handles traffic in and out of a network by using a datapath pipeline is provided. The datapath pipeline includes multiple stages for performing various data-plane packet-processing operations at the edge of the network. The processing stages include centralized routing stages and distributed routing stages. The processing stages can include service-providing stages such as NAT and firewall. The gateway caches the result previous packet operations and reapplies the result to subsequent packets that meet certain criteria. For packets that do not have applicable or valid result from previous packet processing operations, the gateway datapath daemon executes the pipelined packet processing stages and records a set of data from each stage of the pipeline and synthesizes those data into a cache entry for subsequent packets.

In some examples, a computing device comprises a first service function instance to apply a service function and a service function forwarder to: receive a first layer 3 routing protocol route advertisement that includes service function instance data for a second service function instance, the service function instance data indicating a service function type and a service identifier for the service function instance; receive a second layer 3 routing protocol route advertisement that includes service function chain data for a service function chain, the service function chain data indicating a service path identifier and one or more service function items; and send, to the second service function instance and based at least on determining a service function item of the one or more service function items indicates the second service function instance, a packet classified to the service function chain.

In some examples, a computing device comprises a first service function instance to apply a service function and a service function forwarder to: receive a first layer 3 routing protocol route advertisement that includes service function instance data for a second service function instance, the service function instance data indicating a service function type and a service identifier for the service function instance; receive a second layer 3 routing protocol route advertisement that includes service function chain data for a service function chain, the service function chain data indicating a service path identifier and one or more service function items; and send, to the second service function instance and based at least on determining a service function item of the one or more service function items indicates the second service function instance, a packet classified to the service function chain.

Disclosed are various embodiments for managing voice-driven application. In one embodiment, among others, a system includes a computing device and program instructions. The program instructions can cause the computing device to initiate a management session between a voice application service and a management service based on receiving a first request from the voice application service. The program instructions can cause the computing device to initiate an application session between a voice-driven application and the management service based at least in part on a second request received from the voice application service. The program instructions can cause the computing device to enforce a compliance policy on a data request for the voice-driven application. The data response can be transmitted to the voice application. The voice application service can provide the data response to the client device for playback.

Disclosed are various embodiments for managing voice-driven application. In one embodiment, among others, a system includes a computing device and program instructions. The program instructions can cause the computing device to initiate a management session between a voice application service and a management service based on receiving a first request from the voice application service. The program instructions can cause the computing device to initiate an application session between a voice-driven application and the management service based at least in part on a second request received from the voice application service. The program instructions can cause the computing device to enforce a compliance policy on a data request for the voice-driven application. The data response can be transmitted to the voice application. The voice application service can provide the data response to the client device for playback.