Patent application number | Description | Published |
20090278847 | SIMPLIFYING THE PRESENTATION OF A VISUALLY COMPLEX SEMANTIC MODEL WITHIN A GRAPHICAL MODELING APPLICATION - A model simplification tool can receive a command to simplify the presentation of a visually complex semantic model from a graphical modeling application. The visually complex semantic model can be comprised of a multitude of object representations and their associations, such that the usability of the model is impaired. An association status can be determined for each object representation, which can designate the object representation as autonomous, containment, or subordinate. The presentation of the visually complex semantic model can be consolidated based on the association status of object representations. Subordinate objects can be nested within containment objects to produce a simplified semantic model. The simplified semantic model can be rendered within the graphical modeling application. | 11-12-2009 |
20090319239 | TOPOLOGY MODELING APPLICATION THAT HANDLES ABSTRACT ENTITIES THROUGH THE REALIZATION OF CONCEPTUAL OBJECTS - The present invention can include a solution for handling abstract entities through the realization of conceptual objects within a modeling application. Such a system can include a semantic model and a modeling application. The semantic model can be configured to present relationships between entities. The entities can include both conceptual objects and concrete objects. A conceptual object can represent an abstract definition that can contain unfulfilled functional parameters. The conceptual object can be associated with another conceptual object or concrete object using a realization relationship. The modeling application can be configured to handle conceptual objects and realization relationships, while preserving the relational integrity of the semantic model. | 12-24-2009 |
20090319467 | SIMPLIFYING THE CREATION OF USER-DEFINED CUSTOM ELEMENTS FOR USE IN A GRAPHICAL MODELING APPLICATION - 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. | 12-24-2009 |
20100031247 | SIMPLIFIED DEPLOYMENT MODELING - 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. | 02-04-2010 |
20100058331 | AUTOMATED DEPLOYMENT OF DEFINED TOPOLOGY IN DISTRIBUTED COMPUTING ENVIRONMENT - 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. | 03-04-2010 |
20100077328 | AUTOMATICALLY ARRANGING WIDGETS OF A MODEL WITHIN A CANVAS USING ITERATIVE REGION BASED WIDGET RELATIVE ADJUSTMENTS - 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. | 03-25-2010 |
20100138795 | MANAGING ADVISORIES FOR COMPLEX MODEL NODES IN A GRAPHICAL MODELING APPLICATION - A system for managing advisories for complex model nodes that can include a complex model, a graphical modeling application, and an advisory manager. The complex model can be configured to graphically represent a user-defined system as multiple nodes and relationships. The graphical modeling application can be configured to execute operations upon the complex model. The graphical modeling application can store data defining the graphical characteristics of the complex model as a notation model and data defining the semantic characteristics of the complex model as a semantic model. The notation model and the semantic model can be stored as separate data entities. The advisory manager can be configured to aggregate notifications and potential resolutions for the nodes of the complex model. The notifications and potential resolutions can be visually presented within the graphical modeling application. | 06-03-2010 |
20110314466 | CREATING INSTANCES OF CLOUD COMPUTING ENVIRONMENTS - Embodiments of the present invention provide a flexible approach to construct/create instances of cloud computing environments. Specifically, under embodiments of the present invention, an image of a virtual machine instance is created from the following components: image bits; content such as the liner notes, manual, metadata, etc.; end user information (so that the image can be customized for one or more specific end users); values provided to an installer; and cloud based values (e.g., IP address, hostname, etc.). By constructing the virtual machine using this approach, dynamic aspects of the image are managed external to the static binary representation of the image. This would include artifacts such as documentation, install scripts, binary files, etc. Additionally, user supplied data can be captured dynamically and copied to customize the image at the time of instance creation. Still yet, embodiments of the present invention provides system level configuration to construct the virtual machine. | 12-22-2011 |
20120005648 | Scoped Code Fly-Out Editor for Domain Languages - A method for generating a model diagram includes registering a scoped domain editor extender with a domain model element, retrieving a domain model and sending the domain model to the registered scoped domain editor extender, generating a modeling language model and mapping the modeling language model to the domain model, retrieving a domain model element from the domain model, generating a modeling language model element and associating the modeling language model element with the domain model, generating a graphical diagram including a shape corresponding to the modeling language model element, generating a user input item and associate the user input item with the modeling language model element, and displaying the shape and the user input item to a user. | 01-05-2012 |
20120081395 | DESIGNING AND BUILDING VIRTUAL IMAGES USING SEMANTICALLY RICH COMPOSABLE SOFTWARE IMAGE BUNDLES - A virtual image is created by receiving a selection of at least one composable software bundle. The at least one composable software bundle includes a first set of metadata and a first set of artifacts comprising a first set of executable instructions associated with a first set of operations. A virtual image asset is selected and received. The virtual image asset includes one or more virtual image disks, a second set of metadata, and a second set of artifacts including a second set of executable instructions associated with a second set of operations. A new virtual image asset is created based on the at least one composable software bundle and the virtual image asset. The new virtual image asset includes a third set of metadata that is based on the first set of metadata and the second set of metadata. | 04-05-2012 |
20120084752 | IMAGE ASSET LIFECYCLE MANAGEMENT IN A COMPUTING ENVIRONMENT - Lifecycles of virtual image assets are managed as follows. A set of assets including a set virtual image assets and a set of software bundle assets are analyzed. At least a portion of relationship data between one or more of the virtual image assets and one or more of the software bundle assets is determined. The at least a portion of relationship data is stored in a memory. At least one of one or more virtual image assets and one or more software bundle assets are determined to be associated with a set of changes. At least one virtual image asset that is related to the one or more virtual image assets and/or one or more software bundle assets associated with the set of changes is identified. The at least one virtual image asset that has been identified is updated based on the set of changes. | 04-05-2012 |
20120084769 | SEMANTICALLY RICH COMPOSABLE SOFTWARE IMAGE BUNDLES - A composable software bundle is created by retrieving a semantic representation of a set of software modules. A functional representation of a set of operations is retrieved. Each operation in the set of operations is to be performed on the set of software modules during at least one virtual image life-cycle phase in a set of virtual image life-cycle phases. A set of artifacts including a set of executable instructions associated with the set of operations is identified. The semantic representation, the functional representation, and the set of artifacts, are stored in a composable software bundle. | 04-05-2012 |
20120192146 | SIMPLIFIED DEPLOYMENT MODELING - 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. | 07-26-2012 |
20130007745 | IMAGE ASSET LIFECYCLE MANAGEMENT IN A COMPUTING ENVIRONMENT - Lifecycles of virtual image assets are managed as follows. A set of assets including a set virtual image assets and a set of software bundle assets are analyzed. At least a portion of relationship data between one or more of the virtual image assets and one or more of the software bundle assets is determined. The at least a portion of relationship data is stored in a memory. At least one of one or more virtual image assets and one or more software bundle assets are determined to be associated with a set of changes. At least one virtual image asset that is related to the one or more virtual image assets and/or one or more software bundle assets associated with the set of changes is identified. The at least one virtual image asset that has been identified is updated based on the set of changes. | 01-03-2013 |
20130332900 | DESIGNING AND CROSS-CONFIGURING SOFTWARE - Various embodiments create a cross-configuration software module for cross-configuring software entities. In one embodiment, a first set of requirements and at least a second set of requirements are obtained. Each of the first and second set of requirements identify at least one of a set of software entities and a set of hardware components required to be present on at least one system including software entities to be cross-configured. At least one set of operations is obtained. The set of operations includes at least one executable instruction that configures a first software entity with a second software entity. A first configuration definition is generated including at least the first set of requirements and the at least one set of operations. A second configuration definition is generated including at least the second set of requirements. The first and second configuration definitions are stored within a cross-configuration software module. | 12-12-2013 |
20130332901 | DESIGNING AND CROSS-CONFIGURING SOFTWARE - Various embodiments create a cross-configuration software module for cross-configuring software entities. In one embodiment, a first set of requirements and at least a second set of requirements are obtained. Each of the first and second set of requirements identify at least one of a set of software entities and a set of hardware components required to be present on at least one system including software entities to be cross-configured. At least one set of operations is obtained. The set of operations includes at least one executable instruction that configures a first software entity with a second software entity. A first configuration definition is generated including at least the first set of requirements and the at least one set of operations. A second configuration definition is generated including at least the second set of requirements. The first and second configuration definitions are stored within a cross-configuration software module. | 12-12-2013 |
20140007039 | DISCOVERY AND MODELING OF DEPLOYMENT ACTIONS FOR MULTIPLE DEPLOYMENT ENGINE PROVIDERS | 01-02-2014 |
20140022257 | METHOD FOR MODELING USING SKETCHES - 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. | 01-23-2014 |