Patent application number | Description | Published |
20080307332 | Data Transfer Indicator Icon a Diagram - Configuring wires/icons in a diagram. The diagram may be an executable diagram such as a graphical program or a system diagram. The diagram may include a plurality of icons that are connected by wires, and the icons may visually represent functionality of the diagram. The diagram may be executable to perform the functionality. Displaying the diagram may include displaying a first wire in the diagram, where the first wire connects a first icon and a second icon. Data transfer functionality may be specified for the first wire and/or the first or second icon in the diagram. The data transfer functionality may be visually indicated in the diagram, e.g., by appearances of the first icon, the second icon, the first wire, and/or icons displayed proximate to these components of the diagram. | 12-11-2008 |
20100325571 | Graphically Specifying and Indicating Targeted Execution in a Graphical Program - System and method for distributed execution of a graphical program. A graphical program is displayed on a display of a computer system. Targeted execution of a first graphical program portion of the graphical program on an execution target is graphically specified. The graphical specification includes displaying a visual indication of the specified targeted execution on the display of the graphical program. During execution of the graphical program, the first graphical program portion executes on the specified execution target and a remainder of the graphical program executes on a default execution target. | 12-23-2010 |
20110252345 | Automatically Generating a Graphical Data Flow Program Based on a Circuit Diagram - A method and system configured to: (a) display a first diagram including a first icon in response to input selecting the first icon; (b) associate the first icon with a first hardware device in response to input selecting the first hardware device from a set of hardware devices; (c) associate the first icon with a set of physical channels of the first hardware device in response to user input selecting the physical channels; and (d) perform the following operations one or more times: receive user input selecting a resource from a set of available resources including resources on the first hardware device; update the first diagram to include a graphical representation of the selected resource; receive user input to the first diagram specifying configuration information for the selected resource; and store the configuration information; (e) display a dataflow node indicating a transfer operation to be performed. | 10-13-2011 |
20120026173 | Transitioning Between Different Views of a Diagram of a System - Presenting different views of a system based on input from a user. A first view of a first portion of the system may be displayed. For example, the first portion may be a device of the system. User input specifying a first gesture may be received. In response to the first gesture, a second view of the first portion of the system may be displayed. For example, the first view may represent a first level of abstraction of the portion of the system and the second view may represent a second level of abstraction of the portion of the system. A second gesture may be used to view a view of a different portion of the system. Additionally, when changing from a first view to a second view, the first view may “morph” into the second view. | 02-02-2012 |
20120030496 | Specification of Isochronous Data Transfer in a Graphical Programming Language - System and method for transferring data. A system diagram is displayed, where the system diagram includes multiple device icons corresponding to respective devices, each device icon having associated executable function nodes specified for deployment on the corresponding device. The function nodes are interconnected to form a distributed graphical program that is deployable and executable in a distributed manner on the devices. User input is received to the system diagram specifying isochronous data transfer among the function nodes. Invocation timing relationships among the function nodes are automatically determined based on the specified isochronous data transfer, including phase relationships between execution of the function nodes. The determined invocation timing relationships are displayed among the function nodes. The graphical program is deployable and executable in a distributed manner on the devices according to the determined invocation timing relationships, where during execution of the graphical program, data are transferred isochronously between the function nodes. | 02-02-2012 |
20120030600 | Isochronous Data Transfer in a Graphical Program - System and method for transferring data. A system diagram is displayed, where the system diagram includes multiple device icons corresponding to respective devices, each device icon having associated executable function nodes specified for deployment on the corresponding device. The function nodes are interconnected to form a distributed graphical program that is deployable and executable in a distributed manner on the devices. User input is received to the system diagram specifying isochronous data transfer among the function nodes. Invocation timing relationships among the function nodes are automatically determined based on the specified isochronous data transfer, including phase relationships between execution of the function nodes. The determined invocation timing relationships are displayed among the function nodes. The graphical program is deployable and executable in a distributed manner on the devices according to the determined invocation timing relationships, where during execution of the graphical program, data are transferred isochronously between the function nodes. | 02-02-2012 |
20130031501 | Weighted Zoom within a Diagram of a System - Providing zooming within a system diagram. Initially, a diagram of a system may be displayed. The diagram may include a plurality of icons representing physical components of the system. These plurality of icons may be initially displayed at a first level of magnification. User input to zoom on a first physical component in the diagram may be received. Accordingly, the first physical component may be displayed at a second level of magnification and other ones of the physical components may be displayed at a third level of magnification. The second level of magnification may be greater than the first level of magnification and the third level of magnification may be less than the first level of magnification. Alternatively, or additionally, different representations for various components of the system may be displayed in the diagram during or after the zoom. | 01-31-2013 |
20130031508 | Semantic Zoom within a Diagram of a System - Providing zooming within a system diagram. Initially, a diagram of a system may be displayed. The diagram may include a plurality of icons representing physical components of the system. These plurality of icons may be initially displayed at a first level of magnification. User input to zoom on a first physical component in the diagram may be received. Accordingly, the first physical component may be displayed at a second level of magnification and other ones of the physical components may be displayed at a third level of magnification. The second level of magnification may be greater than the first level of magnification and the third level of magnification may be less than the first level of magnification. Alternatively, or additionally, different representations for various components of the system may be displayed in the diagram during or after the zoom. | 01-31-2013 |
20130031509 | Displaying Physical Signal Routing in a Diagram of a System - Displaying physical signal routing of a system. A diagram of the system may be displayed. The system may include physical components connected via physical connections and logical components implemented on various ones of the physical components. The diagram may include a plurality of icons connected by wires. At least a first subset of the icons may represent logical elements of the system and wires between the first subset of icons may represent logical connections between corresponding logical elements. User input requesting signal routing information of the system may be received. In response, a signal route corresponding to a first logical connection between a first logical element and a second logical element may be visually indicated. | 01-31-2013 |
20130332864 | Automatically Determining Data Transfer Functionality For Wires in a Graphical Diagram - Configuring wires/icons in a diagram. The diagram may be an executable diagram such as a graphical program or a system diagram. The diagram may include a plurality of icons that are connected by wires, and the icons may visually represent functionality of the diagram. The diagram may be executable to perform the functionality. Displaying the diagram may include displaying a first wire in the diagram, where the first wire connects a first icon and a second icon. Data transfer functionality may be specified for the first wire and/or the first or second icon in the diagram. The data transfer functionality may be visually indicated in the diagram, e.g., by appearances of the first icon, the second icon, the first wire, and/or icons displayed proximate to these components of the diagram. | 12-12-2013 |