Abstract: Embodiments of the present invention provide a method, system and computer program product for model driven deployment of component based applications. In an embodiment of the invention, a method for model driven deployment of component based applications can include selecting units representative of corresponding programmatic objects to be deployed into a target environment and specifying a deployment topology for the target environment. The method also can include matching portions of the units to different automation signatures and filtering the different automation signatures to a set of automation signatures based upon the deployment topology. The set of automation signatures can be ordered according to known dependencies of a corresponding deployment model and the ordered set of automation signatures can be bundled into an automation workflow and published to an automation engine for execution to deploy the programmatic objects into the target environment.

Abstract: A deployment modeling platform enables a user to model application characteristics of target software and to associate application modeling parameters to the modeled application characteristics. A user may also model environment characteristics of a target deployment environment and to associate environment modeling parameters to the modeled deployment environment characteristics. Still further, a user may create a deployment model that associates and maps selected parameters of the modeled application characteristics of the target software to associated parameters of the modeled environment characteristics of the deployment environment, and to verify that each parameter that relates to a requirement is mapped to and is fulfilled by an associated parameter that relates to a corresponding capability to determine whether validation problems exist in order to deploy the target software in the associated deployment environment.

Abstract: Three methods for converting sketch shapes into semantic elements by way of a semantic editor are disclosed. First, a method for conversion of a sketch shape that is part of a nested shape combination, which includes a sketch shape either hosting or nested within a semantic element. Second, a method for conversion of sketch shapes to semantic elements by storing sketch shape names and sketch shape descriptions in correlation with specific semantic elements and properties. The stored correlation is referenced for subsequent sketch shapes names or descriptions that are the same or a subset of the stored sketch shape name or description. Third, a method of conversion of one or more sketch shapes into a semantic template containing a plurality of semantic elements. Each of the one or more sketch shapes is mapped to a specific semantic element within the semantic template.

Abstract: Embodiments of the present invention provide a method, system and computer program product for model driven deployment of component based applications. In an embodiment of the invention, a method for model driven deployment of component based applications can include selecting units representative of corresponding programmatic objects to be deployed into a target environment and specifying a deployment topology for the target environment. The method also can include matching portions of the units to different automation signatures and filtering the different automation signatures to a set of automation signatures based upon the deployment topology. The set of automation signatures can be ordered according to known dependencies of a corresponding deployment model and the ordered set of automation signatures can be bundled into an automation workflow and published to an automation engine for execution to deploy the programmatic objects into the target environment.

Abstract: A widget adjustment event can be detected for a widget that is part of a model that is presented on a canvas of a user interface. On-canvas objects proximate to the widget can be adjusted. The on-canvas objects can include other widgets. The adjustments can be performed relative to a layout position of the widget after the widget adjustment event has occurred. Additional on-canvas objects further from the widget can the adjusted on-canvas objects can then be adjusted as necessary due to new positions of the adjusted on-canvas objects.

Abstract: A deployment modeling platform enables a user to model application characteristics of target software and to associate application modeling parameters to the modeled application characteristics. A user may also model environment characteristics of a target deployment environment and to associate environment modeling parameters to the modeled deployment environment characteristics. Still further, a user may create a deployment model that associates and maps selected parameters of the modeled application characteristics of the target software to associated parameters of the modeled environment characteristics of the deployment environment, and to verify that each parameter that relates to a requirement is mapped to and is fulfilled by an associated parameter that relates to a corresponding capability to determine whether validation problems exist in order to deploy the target software in the associated deployment environment.

Abstract: Embodiments of the present invention provide a method, system and computer program product for model driven deployment of component based applications. In an embodiment of the invention, a method for model driven deployment of component based applications can include selecting units representative of corresponding programmatic objects to be deployed into a target environment and specifying a deployment topology for the target environment. The method also can include matching portions of the units to different automation signatures and filtering the different automation signatures to a set of automation signatures based upon the deployment topology. The set of automation signatures can be ordered according to known dependencies of a corresponding deployment model and the ordered set of automation signatures can be bundled into an automation workflow and published to an automation engine for execution to deploy the programmatic objects into the target environment.

Abstract: A deployment modeling platform enables a user to model application characteristics of target software and to associate application modeling parameters to the modeled application characteristics. A user may also model environment characteristics of a target deployment environment and to associate environment modeling parameters to the modeled deployment environment characteristics. Still further, a user may create a deployment model that associates and maps selected parameters of the modeled application characteristics of the target software to associated parameters of the modeled environment characteristics of the deployment environment, and to verify that each parameter that relates to a requirement is mapped to and is fulfilled by an associated parameter that relates to a corresponding capability to determine whether validation problems exist in order to deploy the target software in the associated deployment environment.

Abstract: The present invention can include a solution for capturing user-defined custom elements for use in a graphical modeling application. Such a system can include a graphical modeling application and a custom element definition tool. The graphical modeling application can be configured to create semantic models that contain a static graphical elements and semantic data elements. The custom element definition tool can be configured to create a user-defined custom element for the graphical modeling application. The user-defined custom element can consist of one or more static graphical element and/or one or more semantic data element.

Abstract: Embodiments of the present invention provide a method, system and computer program product for model driven deployment of component based applications. In an embodiment of the invention, a method for model driven deployment of component based applications can include selecting units representative of corresponding programmatic objects to be deployed into a target environment and specifying a deployment topology for the target environment. The method also can include matching portions of the units to different automation signatures and filtering the different automation signatures to a set of automation signatures based upon the deployment topology. The set of automation signatures can be ordered according to known dependencies of a corresponding deployment model and the ordered set of automation signatures can be bundled into an automation workflow and published to an automation engine for execution to deploy the programmatic objects into the target environment.

Abstract: A method and system are provided for encapsulation and re-use of a model. A modeling platform creates a governance contract governing the exportation and modification of elements of the model by other models. In response to a request to import at least one element of the model into a second model, the modeling platform exports the requested at least one element by reference only if the element has a governance setting that allows for exportation. In response to a request to modify at least one imported element of the model in the second model, the modeling platform determines the governance setting for the element. Then, the modeling platform modifies the element by composing the modification in the second model only if the element has a governance setting that allows modification.

Abstract: A method for deploying a software product comprising a plurality of components is provided. The method can include reading a topological description of the software product and its components, wherein the topological description defines characteristics and dependencies of the components. The method can further include reading characteristics of a plurality of publishers and matching each of the plurality of components to one of the plurality of publishers according to the characteristics and dependencies of the components and the characteristics of the plurality of publishers. A publisher may be a computer connected to a network. The method can further include distributing the plurality of components among the plurality of publishers responsive to the step of matching and validating each set of components distributed to each publisher.

Abstract: A deployment modeling platform enables a user to model application characteristics of target software and to associate application modeling parameters to the modeled application characteristics. A user may also model environment characteristics of a target deployment environment and to associate environment modeling parameters to the modeled deployment environment characteristics. Still further, a user may create a deployment model that associates and maps selected parameters of the modeled application characteristics of the target software to associated parameters of the modeled environment characteristics of the deployment environment, and to verify that each parameter that relates to a requirement is mapped to and is fulfilled by an associated parameter that relates to a corresponding capability to determine whether validation problems exist in order to deploy the target software in the associated deployment environment.

Abstract: This invention provides an extensible means of defining the mechanism to find one or more type(s) or instance(s) of existing resources (files, databases, repositories, etc.) and automating their linkages to the artifacts to be created, based on the customizable matching rules.