Systems, methods, and computer-readable media for porting locally processed media data with low latency to a remote client device via various wireless links are provided. In one example embodiment, a transceiver module may include a local network interface and a controller that may receive a client control signal from a client device over a wireless local area network via the local network interface, transmit a media control signal based on the client control signal to a media device, receive media data based on the media control signal from the media device, and transmit to the client device over the wireless local area network via the local network interface client data based on the media data and a low-latency compression technique. The receipt of the media data and transmission of the client data may be accomplished with substantially no detectable latency. Additional embodiments are also provided.

Methods for and operating a service and systems are provided. One method includes executing one or more video games on one or more servers of a service. The one or more video games are played or used by one or more users on one or more client devices remote to the service via compressed streaming interactive video. The compressed streaming interactive video is sent to the one or more client devices where decompression of the compressed streaming interactive video is preformed to display video of each of said one or more video games and said one or more servers are configured to receive user control input to driver interactivity with said one or more video games. The method includes broadcasting the one or more video games as one or more streams of compressed streaming interactive video to enable one or more viewing client devices to view said one or more video games over the Internet. Each of the one or more viewing client devices receives one or more of the streams of compressed streaming interactive video. The method includes overlaying with the streams of compressed streaming interactive video, audio from one or more of the viewing client devices, such that the audio is included in the broadcasting of the one or more video games. And, adjusting a compression rate for said broadcasting to each of said viewing client devices based on a respective connection performance each of said viewing client devices has with respect to said one or more servers of the service.

A computer-implemented method is provided. The method includes executing a game application on one or more servers of a data center. The game application is for a game and the game is played by a first user of a first client device remote to the data center. The one or more servers interfaced with one or more encoders for compressing interactive video from the game application responsive to input from the first client device and streaming of the interactive video in a compressed format to the first client device for decompression and rendering to a display of the first client device. The method includes storing, at the data center, a recording of at least part of the game played by the first user using the first client device. The method includes storing, at the data center, state data for at least part of the game played by the first user using the first client device. The method includes generating a replay of the recording responsive to input from a second user device. The replay is generated with a different camera view from a camera view in the recording. The replay is executed using as input the state data.

Methods for hosting low-latency streaming interactive audio/video (A/V) include executing one or more video games or applications on a server communicatively coupled to a data network. Packet streams are received from a plurality of users and routed to the one or more video games. The packet streams include user control input that are used to compute A/V data in response. The A/V data are received from the video games or applications. Portions of the A/V data are compressed in parallel using processing units resulting in low-latency streaming compressed A/V data. The low-latency streaming compressed A/V data are routed to each of the users over a corresponding data network communication channel. The executing of video games, receiving of packet streams and A/V data, compressing portions of the A/V data and routing the compressed A/V data are performed with a latency such that at least one user has the perception that the controlled video game is responding instantly.

Systems, methods, and computer-readable media for porting locally processed media data with low latency to a remote client device via various wireless links are provided. In one example embodiment, a transceiver module may include a local network interface and a controller that may receive a client control signal from a client device over a wireless local area network via the local network interface, transmit a media control signal based on the client control signal to a media device, receive media data based on the media control signal from the media device, and transmit to the client device over the wireless local area network via the local network interface client data based on the media data and a low-latency compression technique. The receipt of the media data and transmission of the client data may be accomplished with substantially no detectable latency. Additional embodiments are also provided.

Methods for hosting online video games are provided. The method includes generating a plurality of video frames and initiating a sending of each one of the plurality of video frames to a client. Each of the video frames that is sent is compressed. Then, stopping the compression and sending of video frames when one of the plurality of video frames is taking longer than a frame time to compress and send. A frame time is defined as one over a frame rate, and wherein stopping the compression of video frames includes ignoring the video frames by an encoder. The method includes continuing to compress and send audio data to the client when one or more of the plurality of video frames are not sent to the client. The client is configured to display a received video frame for more than one frame time when a video frame is not received.

A computer-implemented method for online game streaming includes receiving a request from a remote client to access a user account. The request is received at a hosting service that includes one or more servers and identifies digital content including video games available to the user. Selection of a video game is received by the hosting service from the remote client. In response, the hosting service initiates a data rate test of the remote client to identify a maximum available data rate available between the remote client and one or more servers of the hosting service. The data rate test is performed to identify an active data rate for streaming interactive content of the video game. The method also includes assigning the remote client to a server and setting the compression level to attain the active data rate having packet loss and latency that is within a predefined acceptable level.

Methods for hosting low-latency streaming interactive audio/video (A/V) include executing one or more video games or applications on a server communicatively coupled to a data network. Packet streams are received from a plurality of users and routed to the one or more video games. The packet streams include user control input that are used to compute A/V data in response. The A/V data are received from the video games or applications. Portions of the A/V data are compressed in parallel using processing units resulting in low-latency streaming compressed A/V data. The low-latency streaming compressed A/V data are routed to each of the users over a corresponding data network communication channel. The executing of video games, receiving of packet streams and A/V data, compressing portions of the A/V data and routing the compressed A/V data are performed with a latency such that at least one user has the perception that the controlled video game is responding instantly.

Computer-implemented methods for hosting online video games are provided. One method includes generating a plurality of video frames. The method includes initiating a sending of each one of the plurality of video frames to a client. Each of the video frames that is sent is compressed. The method includes stopping the compression and sending of video frames when one of the plurality of video frames is taking longer than a frame time to compress and send. A frame time is defined as one over a frame rate, and wherein stopping the compression of video frames includes ignoring said video frames by an encoder. The method includes continuing to compress and send audio data to the client when one or more of said plurality of video frames are not sent to the client.

The various implementations described herein include methods, devices, and systems for interactive cloud gaming. In one aspect, an interface device with processors and memory storing an application program is used for cloud gaming. The interface device includes a communication module for receiving and/or transmitting messages and media streams between the interface device, a game controller, and a remote gaming server. The interface device further includes an output module configured to provide output of the application to an input of a display device coupled to or integrated with the interface device. The application is configured to implement a first mode in which the interface device processes and displays outputs associated with substantially all messages transmitted by the game controller, and a second mode in which the interface device processes and displays a predefined subset of messages from the game controller and displays gaming media streams from the gaming server.