Abstract: A system for determining relevant information based on user interactions may include a processor configured to receive application data from one or more applications, the application data including features related to user activity from the one or more applications, the one or more application including applications local to the device that are stored in the memory and applications external to the device. The processor may be further configured to provide, using a machine learning (ML) model, a relevance score for each of one or more user interface (UI) elements based on each of the features. The processor may be further configured to sort one or more UI elements based on a ranking of the relevance scores. The processor may be further configured to provide, as output, the one or more UI elements based at least in part on the ranking.

Abstract: A system for determining relevant information based on user interactions may include a processor configured to receive application data from one or more applications, the application data including features related to user activity from the one or more applications, the one or more application including applications local to the device that are stored in the memory and applications external to the device. The processor may be further configured to provide, using a machine learning (ML) model, a relevance score for each of one or more user interface (UI) elements based on each of the features. The processor may be further configured to sort one or more UI elements based on a ranking of the relevance scores. The processor may be further configured to provide, as output, the one or more UI elements based at least in part on the ranking.

Abstract: Embodiments of the present disclosure present devices, methods, and computer readable medium for techniques to display rectangular content in non-rectangular display areas without clipping or cutting off the content. These bounding path techniques can be employed for electronic devices with rounded corners and for display of content within software windows for applications, in which the windows have non-rectangular corners. The techniques disclosed include content shifting, aspect fit, run length encoding and corner encoding. These techniques can be applied to both static content and for dynamic content. Memory optimization techniques are disclosed to reduce the memory requirements for encoding display bitmaps and for optimal performance. The run length encoding feature can reduce the time and decrease the memory requirements for determining a location where the content can fit within a viewable area of the display. The corner encoding technique provides for encoding areas with non-linear curves.

Abstract: Embodiments of the present disclosure present devices, methods, and computer readable medium for techniques to display rectangular content in non-rectangular display areas without clipping or cutting off the content. These bounding path techniques can be employed for electronic devices with rounded corners and for display of content within software windows for applications, in which the windows have non-rectangular corners. The techniques disclosed include content shifting, aspect fit, run length encoding and corner encoding. These techniques can be applied to both static content and for dynamic content. Memory optimization techniques are disclosed to reduce the memory requirements for encoding display bitmaps and for optimal performance. The run length encoding feature can reduce the time and decrease the memory requirements for determining a location where the content can fit within a viewable area of the display. The corner encoding technique provides for encoding areas with non-linear curves.

Abstract: Embodiments of the present disclosure present devices, methods, and computer readable medium for techniques to display rectangular content in non-rectangular display areas without clipping or cutting off the content. These bounding path techniques can be employed for electronic devices with rounded corners and for display of content within software windows for applications, in which the windows have non-rectangular corners. The techniques disclosed include content shifting, aspect fit, run length encoding and corner encoding. These techniques can be applied to both static content and for dynamic content. Memory optimization techniques are disclosed to reduce the memory requirements for encoding display bitmaps and for optimal performance. The run length encoding feature can reduce the time and decrease the memory requirements for determining a location where the content can fit within a viewable area of the display. The corner encoding technique provides for encoding areas with non-linear curves.

Abstract: Embodiments of the present disclosure present devices, methods, and computer readable medium for techniques to display rectangular content in non-rectangular display areas without clipping or cutting off the content. These bounding path techniques can be employed for electronic devices with rounded corners and for display of content within software windows for applications, in which the windows have non-rectangular corners. The techniques disclosed include content shifting, aspect fit, run length encoding and corner encoding. These techniques can be applied to both static content and for dynamic content. Memory optimization techniques are disclosed to reduce the memory requirements for encoding display bitmaps and for optimal performance. The run length encoding feature can reduce the time and decrease the memory requirements for determining a location where the content can fit within a viewable area of the display. The corner encoding technique provides for encoding areas with non-linear curves.

Abstract: Embodiments of the present disclosure present devices, methods, and computer readable medium for techniques to display rectangular content in non-rectangular display areas without clipping or cutting off the content. These bounding path techniques can be employed for electronic devices with rounded corners and for display of content within software windows for applications, in which the windows have non-rectangular corners. The techniques disclosed include content shifting, aspect fit, run length encoding and corner encoding. These techniques can be applied to both static content and for dynamic content. Memory optimization techniques are disclosed to reduce the memory requirements for encoding display bitmaps and for optimal performance. The run length encoding feature can reduce the time and decrease the memory requirements for determining a location where the content can fit within a viewable area of the display. The corner encoding technique provides for encoding areas with non-linear curves.

Abstract: A system for determining relevant information based on user interactions may include a processor configured to receive application data from one or more applications, the application data including features related to user activity from the one or more applications, the one or more application including applications local to the device that are stored in the memory and applications external to the device. The processor may be further configured to provide, using a machine learning (ML) model, a relevance score for each of one or more user interface (UI) elements based on each of the features. The processor may be further configured to sort one or more UI elements based on a ranking of the relevance scores. The processor may be further configured to provide, as output, the one or more UI elements based at least in part on the ranking.

Abstract: Embodiments of the present disclosure present devices, methods, and computer readable medium for techniques to display rectangular content in non-rectangular display areas without clipping or cutting off the content. These bounding path techniques can be employed for electronic devices with rounded corners and for display of content within software windows for applications, in which the windows have non-rectangular corners. The techniques disclosed include content shifting, aspect fit, run length encoding and corner encoding. These techniques can be applied to both static content and for dynamic content. Memory optimization techniques are disclosed to reduce the memory requirements for encoding display bitmaps and for optimal performance. The run length encoding feature can reduce the time and decrease the memory requirements for determining a location where the content can fit within a viewable area of the display. The corner encoding technique provides for encoding areas with non-linear curves.

Abstract: Processing an electronic publication containing content having two different scrolling directions so that the content can be presented to the user through an intelligent unidirectional scrolling function that prevents fragments of sentences from being displayed. Processing can include paginating or generating a scrollable table for portions of the electronic publication that do not match a first text direction.