摘要:
A computer-implemented system is provided that facilitates implementation of a voice-over-IP (VOIP) application. The system includes a host system and a user interface (UI) host process residing on the host system. The system also includes an agent host process residing on the host system which is being configured to process a VOIP call received by one or more VOIP applications executable on the host system. A moniker protocol is utilized for redirection of input and output between a media element which is utilized to render media on a display on the system. The redirection enables media processing to be allocated between the UI host process in the foreground and the agent host process in the background to thereby reduce latency perceived by a user during a VOIP experience.
摘要:
Embodiments are configured to provide information for display. Various embodiments include processing functionality that can be used to efficiently process pixel data associated with video, graphical, and other information. The functionality can be used in conjunction with different hardware and/or software architectures and configurations. In an embodiment, a computing device includes functionality to use a distinct window having alpha and occlusion features that can be used when processing pixel data associated with user interface (UI) elements and video, but is not so limited. The computing device can use the distinct window to display user interface elements having different levels or amounts of transparency as part of video capture and playback operations.
摘要:
In a low-power device a runtime hands video capture and other markup language video objects to a video service, which renders them onto a shared surface. An application-specific compositor manipulates the shared surface, e.g., by texture wrapping or animation. A system compositor composites the manipulated shared surface with other data, such as rendered frames from other application-specific compositors and/or computer generated text. The device then displays the attendant rendered, manipulated, and composited video frames. In some cases, only a single copy of the shared surface is utilized. When the video object's shape, alignment, and opacity satisfy predetermined criteria, the video service renders the video object onto the shared surface using a hardware scaler; otherwise, rendering is done without using the hardware scaler.
摘要:
A computer-implemented system is provided that facilitates implementation of a voice-over-IP (VOIP) application. The system includes a host system and a user interface (UI) host process residing on the host system. The system also includes an agent host process residing on the host system which is being configured to process a VOIP call received by one or more VOIP applications executable on the host system. A moniker protocol is utilized for redirection of input and output between a media element which is utilized to render media on a display on the system. The redirection enables media processing to be allocated between the UI host process in the foreground and the agent host process in the background to thereby reduce latency perceived by a user during a VOIP experience.
摘要:
Embodiments are configured to provide information for display. Various embodiments include processing functionality that can be used to efficiently process pixel data associated with video, graphical, and other information. The functionality can be used in conjunction with different hardware and/or software architectures and configurations. In an embodiment, a computing device includes functionality to use a distinct window having alpha and occlusion features that can be used when processing pixel data associated with user interface (UI) elements and video, but is not so limited. The computing device can use the distinct window to display user interface elements having different levels or amounts of transparency as part of video capture and playback operations.
摘要:
Embodiments are configured to provide information for display. Various embodiments include processing functionality that can be used to efficiently process pixel data associated with video, graphical, and other information. The functionality can be used in conjunction with different hardware and/or software architectures and configurations. In an embodiment, a computing device includes functionality to use a distinct window having alpha and occlusion features that can be used when processing pixel data associated with user interface (UI) elements and video, but is not so limited. The computing device can use the distinct window to display user interface elements having different levels or amounts of transparency as part of video capture and playback operations.
摘要:
A computer-implemented system is provided that facilitates implementation of a voice over IP (VOIP) application. The system includes a host system and a user interface (UI) host process residing on the host system. The system also includes an agent host process residing on the host system which is being configured to process a VOIP call received by one or more VOIP applications executable on the host system. The agent host process running as a foreground or background process for the duration of the VOIP call to (i) communicate with a VOIP server associated with the VOIP application, (ii) capture content from at least one input device associated with the host system and (iii) render content on an output device associated with the host system when an instance of the UI host process operates in the foreground.
摘要:
A computer-implemented system is provided that facilitates implementation of a voice over IP (VOIP) application. The system includes a host system and a user interface (UI) host process residing on the host system. The system also includes an agent host process residing on the host system which is being configured to process a VOIP call received by one or more VOIP applications executable on the host system. The agent host process running as a foreground or background process for the duration of the VOIP call to (i) communicate with a VOIP server associated with the VOIP application, (ii) capture content from at least one input device associated with the host system and (iii) render content on an output device associated with the host system when an instance of the UI host process operates in the foreground.
摘要:
In a low-power device a runtime hands video capture and other markup language video objects to a video service, which renders them onto a shared surface. An application-specific compositor manipulates the shared surface, e.g., by texture wrapping or animation. A system compositor composites the manipulated shared surface with other data, such as rendered frames from other application-specific compositors and/or computer generated text. The device then displays the attendant rendered, manipulated, and composited video frames. In some cases, only a single copy of the shared surface is utilized. When the video object's shape, alignment, and opacity satisfy predetermined criteria, the video service renders the video object onto the shared surface using a hardware scaler; otherwise, rendering is done without using the hardware scaler.
摘要:
Embodiments are configured to provide information for display. Various embodiments include processing functionality that can be used to efficiently process pixel data associated with video, graphical, and other information. The functionality can be used in conjunction with different hardware and/or software architectures and configurations. In an embodiment, a computing device includes functionality to use a distinct window having alpha and occlusion features that can be used when processing pixel data associated with user interface (UI) elements and video, but is not so limited. The computing device can use the distinct window to display user interface elements having different levels or amounts of transparency as part of video capture and playback operations.