A video game system includes a video server system (VSS) having a first network address. The VSS pairs a game controller having a second network address with a display system having a third network address. The VSS receives controller data packets directed to the first network address from the game controller over a first communication channel. The controller data packets include the second network address and information for updating a game state of a video game. The VSS decodes the controller data packets and directs generation of an updated game state of the video game using information within the controller data packets. The VSS generates a video stream of the video game using the updated game state. The VSS transmits the video stream to the display system at the third network address over a second communication channel. The first and second communication channels differ by at least one network segment.

This application is directed to real-time game profiling and analysis. While a game server executes multiple game instances for a gaming title in parallel, a profiling server generates a game profiling instruction to collect data samples associated with a subset of the game instances and sends the game profiling instruction to the game server. In response to the game profiling instruction, the game server identifies the subset of the plurality of game instances, and collects data samples associated with each game instance in the identified subset. Each collected data sample includes at least game state data and system performance data associated with synchronous gaming sessions corresponding to the respective game instance. The game server sends the collected data samples associated with each game instance in the identified subset to the profiling server, which provides the plurality of data samples to an analytics server for further analysis.

A method and system tracks, analyzes or sorts behaviors of user or players across a network to draw correlations from, or characterizations of, those user or players and identifies similarly characterized or mutually complementary user or players. For example, the method automatically obtains player data regarding interactions by each of multiple players with a multiplayer electronic game via each player's corresponding data processing device connected via the network. The method can then sort, classify or suggest additional activities, games, groups, or other different activities or actions for the players.

Scene aware video content encoding techniques can determine if video content is a given content type and is one of one or more given titles that include one or more given scenes. The one or more given scenes of the video content of the given type and given one of the titles can be encoded using corresponding scenes specific encoding parameter values, and the non-given scenes can be encoded using one or more general encoding parameter values. The one or more given titles can be selected based on a rate of streaming of various video content titles of the given type.

A method for load balancing. The method including measuring load demands of a plurality of applications between a plurality of compute nodes and a plurality of network storage distributed across a plurality of rack assemblies of one or more data centers. The method including determining a functional load demand for each application in the plurality of applications based on load demands that are measured for the each application between the plurality of compute nodes and the plurality of network storage. The method including assigning a load score to each of the plurality of applications based on a plurality of functional load demands determined for the plurality of applications. The method including load balancing a plurality of gaming sessions of one or more applications executing across the plurality of rack assemblies based on a plurality of load scores associated with the one or more applications facilitating the plurality of gaming sessions.

Techniques for coordination of content presentation operations are described herein. In some cases, a client may generate client metadata associated with client event data. The client metadata may include, for example, an indication of any one or more of a time, a frame, a location, an angle, a direction, a speed, a force, or other information associated with the client event data. Also, in some cases, the content provider may generate content provider metadata associated with image data. For example, the content provider metadata may indicate a location of a virtual camera associated with the respective image data and/or a location of one or more objects represented within the respective image data.

A method of and system for handling latency issues encountered in producing real-time entertainment such as games of skill synchronized with live or taped televised events is described herein. There are multiple situations that are dealt with regarding latencies in receiving a television signal with respect to real-time entertainment based on the unfolding games played along with the telecasts. Systemic delays, arbitrarily imposed delays of a broadcast signal and variances in the precise broadcast times of taped television programs have to be equalized so as to provide fair entertainment.

Systems and methods for reducing latency through motion estimation and compensation techniques are disclosed. The systems and methods include a client device that uses transmitted lookup tables from a remote server to match user input to motion vectors, and tag and sum those motion vectors. When a remote server transmits encoded video frames to the client, the client decodes those video frames and applies the summed motion vectors to the decoded frames to estimate motion in those frames. In certain embodiments, the systems and methods generate motion vectors at a server based on predetermined criteria and transmit the generated motion vectors and one or more invalidators to a client, which caches those motion vectors and invalidators. The server instructs the client to receive input from a user, and use that input to match to cached motion vectors or invalidators. Based on that comparison, the client then applies the matched motion vectors or invalidators to effect motion compensation in a graphic interface. In other embodiments, the systems and methods cache repetitive motion vectors at a server, which transmits a previously generated motion vector library to a client. The client stores the motion vector library, and monitors for user input data. The server instructs the client to calculate a motion estimate from the input data and instructs the client to update the stored motion vector library based on the input data, so that the client applies the stored motion vector library to initiate motion in a graphic interface prior to receiving actual motion vector data from the server. In this manner, latency in video data streams is reduced.

Techniques for coordination of content presentation operations are described herein. In some cases, a client may generate client metadata associated with client event data. The client metadata may include, for example, an indication of any one or more of a time, a frame, a location, an angle, a direction, a speed, a force, or other information associated with the client event data. Also, in some cases, the content provider may generate content provider metadata associated with image data. For example, the content provider metadata may indicate a location of a virtual camera associated with the respective image data and/or a location of one or more objects represented within the respective image data.

A method for cloud gaming. The method including generating a video frame when executing a video game at a server, wherein the video frame is stored in a frame buffer. The method including determining a maximum pixel clock for a chip-set including a scan-out block. The method including determining a frame rate setting based on the maximum pixel clock and an image size of a target display of a client. The method including determining a speed setting value for the chip-set. The method including scanning the video frame into the scan-out block from the frame buffer. The method including scanning-out the video frame from the scan-out block to the encoder at the speed setting value.