A method for providing a user interface in a low-code or no-code development platform includes generating, by a computing system, a graphic user interface of an application development program. The graphic user interface includes: a first area including a list of blocks; a second area including a structured data object comprising nodes corresponding to one or more of the blocks; and a third area including a parameter field of a selected one of the nodes, wherein the parameter field is configured to receive user input defining both a static string and a dynamic variable.

A method for providing a user interface in a low-code or no-code development platform includes generating, by a computing system, a graphic user interface of an application development program. The graphic user interface includes: a first area including a list of blocks; a second area including a structured data object comprising nodes corresponding to one or more of the blocks; and a third area including a parameter field of a selected one of the nodes, wherein the parameter field is configured to receive user input defining both a static string and a dynamic variable.

The present invention provides a novel approach for consumer-driven interaction with sequencing data or genomic information. Sequencing data access, for users with a variety of access and permissions, may be mediated by a central hub. The hub may also facilitate access to the sequencing data for third party software applications. The hub may also provide data analysis or may have access to analyzed data to use such data in providing a user interface for a genome owner or for non-owner secondary users of the system.

The present invention provides a novel approach for consumer-driven interaction with sequencing data or genomic information. Sequencing data access, for users with a variety of access and permissions, may be mediated by a central hub. The hub may also facilitate access to the sequencing data for third party software applications. The hub may also provide data analysis or may have access to analyzed data to use such data in providing a user interface for a genome owner or for non-owner secondary users of the system.

The present disclosure includes generally relates to scrolling and selecting items. An electronic device having a display and a touch-sensitive surface displays a user interface with a list of items. The items can be scrolled and selected using different techniques. Some embodiments include a technique for entering an edit mode to select and scroll items on the user interface. Some embodiments include a technique for scrolling to select items on the user interface. Some embodiments include a technique for displaying a scroll progress indicator for scrolling items on the user interface.

A patient monitor includes an acquiring section that acquires physiological information of a plurality of patients, a displaying section, a screen controller and an inputting section. The inputting section through which instructions for moving a display area for a patient are input. In accordance with instructions input through the inputting section, the screen controller executes one of processes of: interchanging a display area for a specific patient with a display area for another patient, and displaying a resulting image on the screen; deleting a display area for a specific patient from the screen; a process of moving a display area for a specific patient, and displaying a resulting image on the screen; and inserting a display area for a specific patient, and displaying a resulting image on the screen.

A patient monitor includes an acquiring section that acquires physiological information of a plurality of patients, a displaying section, a screen controller and an inputting section. The inputting section through which instructions for moving a display area for a patient are input. In accordance with instructions input through the inputting section, the screen controller executes one of processes of: interchanging a display area for a specific patient with a display area for another patient, and displaying a resulting image on the screen; deleting a display area for a specific patient from the screen; a process of moving a display area for a specific patient, and displaying a resulting image on the screen; and inserting a display area for a specific patient, and displaying a resulting image on the screen.

An example operation may include one or more of storing, in memory, a cloud architecture document of a cloud computing environment, transforming the cloud architecture document into infrastructure as code (IaC) based on predefined code and storing the IaC in a machine-readable file, deploying the cloud computing environment via a host platform, and executing the machine-readable file and automatically configuring cloud resources of the cloud computing environment based on the IaC included in the machine-readable file.

An example operation may include one or more of storing, in memory, a cloud architecture document of a cloud computing environment, transforming the cloud architecture document into infrastructure as code (IaC) based on predefined code and storing the IaC in a machine-readable file, deploying the cloud computing environment via a host platform, and executing the machine-readable file and automatically configuring cloud resources of the cloud computing environment based on the IaC included in the machine-readable file.

A system includes a memory storing computer-readable instructions and at least one processor to execute the instructions to receive a shot sheet comprising data and metadata associated with an animation project, parse the shot sheet to generate instructions associated with at least one shot in the animation project, send the instructions to an animation program using an application programming interface (API), generate the animation project based on the instructions using the animation program, render the animation project into a video, and store the video in a database and generate a uniform resource locator (URL) for the video.