For various implementations, a first application streaming client can obtain portions of an application from a application streaming server, execute the application based on those portions obtained, and provide a second application streaming client (a pixel-based application streaming client) access to the executing application using a pixel stream generated based on output from the executing application. Depending on the implementation, the first application streaming client could execute the application, based on the portions obtained, on behalf of a user at the application streaming client, on behalf of the pixel-based application streaming client, or both. In various implementations, the first application streaming client and the second application streaming client can be communicatively coupled through a local network (e.g., LAN or local WiFi), while the first application streaming client and the application streaming server can be communicatively coupled through a wider area network (e.g., WAN or MAN).

To address a service interruption while a procedure to change to a dynamic frequency selection (DFS) wireless frequency channel is being performed, a service interruption message is displayed to the user or some other action is taken while a wireless access point changes to the DFS wireless frequency channel. Another action to address the service interruption may be the media content client playing buffered media content stored in a buffer on the media content client to avoid an appearance to the user of an interruption in service. Also, in some embodiments, buffered video is received from the receiving device after the interruption in service has ended so that the media content client may resume playing, and the user may continue to view, the video program from the point where the user left off when the DFS change process and service interruption had started.

A method for offloading services of a sewer application in a network system. The method includes receiving, by a first in-network computation offload instance, a first request packet from a client application, wherein the first request packet includes a first application payload for processing by the server application; generating, by the first instance, a modified request packet that includes the first application payload and first offload information that describes the first instance for use by the server application in coordinating offloading processing to one or more in-network computation offload instances; and transmitting, by the first instance, the modified request packet to the next device in the traffic flow between the client application and the server application, wherein the next device is either (1) a second in-network computation offload instance in the traffic flow between the client application and the server application or (2) the sewer application.

A method, server, user terminal, and system are disclosed for sending notification messages in the Internet communication filed. In the method: when detecting it needs to send a message to a target terminal, an application server detects a state of the signaling channel. When the signaling channel is in connected state, the application server sends a notification message to the target terminal through this signaling channel. When the signaling channel is in a disconnected state, the application server generates a notification request to a corresponding account of the target terminal and sends the notification request to the notification server so that the notification server pushes a notification message to the target terminal according to the notification request.

A device may receive, from a load balancing device, configuration information that identifies a set of nodes for which a status is to be determined. The device may generate a data structure. The data structure may store information that identifies a status of the set of nodes. The device may transmit a status request to one or more nodes. The device may determine the status of the one or more nodes based on transmitting the status request. The device may update the data structure based on determining a change in status of the one or more nodes. The device may provide, to the load balancing device, information that identifies the change in status of the one or more nodes based on updating the data structure.

A method and system for migrating a plurality of physical desktop machines to a virtual desktop infrastructure is described. Physical machines are discovered on a computer network using at least one network search criteria using a tool module. User data is then gathered from the discovered physical machines. A virtual disk image file is created for each user of the discovered physical machines. The virtual disk image file contains user specific data collected from the discovered physical machines. A destination pool of virtual machines is selected and a virtual machine in the destination pool is configured for each of the users of the discovered physical machines. The configured virtual machines include an attached user data disk (UDD) backed by a corresponding virtual disk image file. A user can then remotely access their assigned configured virtual machines.

A client accepts operation information for operating a circuit design CAD tool. The client transmits the accepted operation information to an application server. The application server receives the transmitted operation information. The application server generates a result screen representing a result of operating an implementation design CAD tool according to the received operation information. The application server transmits the generated result screen to the client.

A system, method, and computer program product are provided for testing at least a portion of a Network Function Virtualization based (NFV-based) communication network utilizing at least one virtual service testing element. In use, at least one virtual service testing element is instantiated, the at least one virtual service testing element being operable for testing at least a portion of a NFV-based communication network including a plurality of virtual services. Further, at least one time to implement the at least one virtual service testing element is identified such that the at least one virtual service testing element tests the at least a portion of the NFV-based communication network by: sending a known test case communication from the at least one virtual service testing element as an input to an ingress point of the at least a portion of the NFV-based communication network; receiving a result of the input as an output at an egress point of the at least a portion of the NFV-based communication network; and analyzing the result to determine whether at least a portion of the NFV-based communication network is performing as expected.

The present disclosure relates to virtualizing a network function in an ad-hoc group. The ad-hoc group comprises a plurality of mobile terminals (302, 304) that are configured for device-to-device communication, e.g., Proximity-Based Services (ProSe). The Pro Se-enabled mobile terminals (302, 304) subscribe to a Network Functions Virtualization (NFV) service with an NFV management server (322). The NFV management server (322) discovers the ad-hoc group that is suitable for NFV and informs an NFV application server (324) of the ad-hoc group. The NFV application server (324) then downloads data and configuration parameters to the ad-hoc group to offload a network function to the ad-hoc group for execution

A distributed node service management system utilizes multiple existing processor nodes of a distributed computing system, in support of the primary data processing functions of the distributed computing system. The distributed node service management system coordinates and manages service functions on behalf of processor nodes of the distributed computing system. Other features and aspects may be realized, depending upon the particular application.