| Patent application number | Description | Published |
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| 20110099256 | Method and system for deploying an asset over a multi-tiered network - A method for distributing changes to digital assets across a network includes determining an asset type of a first digital asset and comparing the first digital asset to a prior digital asset to determine one or more deltas, the prior digital asset being a prior version of the first digital asset and the delta being a difference between the first digital asset and the prior digital asset. The method further includes evaluating the one or more of the deltas with one or more criteria to determine if the one or more delta assets should be created, the delta asset being a second digital asset containing the respective delta, the criteria determined by the asset type. The method further includes that if the delta meets the criteria, creating the delta asset, and marking the delta asset as a first delta asset of the first digital asset. | 04-28-2011 |
| 20110137934 | System and method for distributing assets to multi-tiered network nodes - Provided are methods and systems for distributing an asset to a multi-tiered network node. A pending notice is received from a distribution server. If the notice indicates that at least one asset is pending, i.e., awaiting deployment, an asset descriptor manifest is received from the distribution server. The asset descriptor manifest, which is stored in a memory on a node, identifies at least one asset to be deployed to the node and includes an offset associated with the asset identifier. A fragment, associated with the asset, is received and stored in the memory. The offset associated with the asset is marked with the end of the fragment and a second fragment, beginning at the offset, is received. Additional fragments are received, and the offset updated, until the entire asset is deployed to the node. Alternately, the entire asset or multiple assets are received in the first fragment. | 06-09-2011 |
| 20110137949 | System, method, and data structure for packaging assets for processing and distribution on multi-tiered networks - The present invention provides a system, method, and data structure for packaging assets for processing and distribution over a multi-tiered network. An asset may represent network and/or application components (e.g., data, objects, applications, program modules, etc.) that may be distributed among the various resources of the network. In an embodiment, the package structure includes at least one representation of an asset having a logic/data portion and an asset extended environment portion, and a package extended environment that includes package information associated with at least one asset. | 06-09-2011 |
| 20120005166 | System and method for transactional deployment of J2EE web components, enterprise java bean components, and application data over multi-tiered computer networks - Provided is a computer system and method for transactional deployment of component(s) over a multi-tier network with J2EE application server program(s) stored on a memory(ies) of the system and which are executed by a central processing unit(s) (CPUs). A J2EE application(s) can be executed by the J2EE application servers, and a J2EE application container(s) are contained within each J2EE application server. Each J2EE application container contains a J2EE application container component(s) and a Java EJB container(s) or Java web containers are contained within each J2EE application container. A J2EE component(s) are delivered to the J2EE application server over one or more tiers of the network. There are one or more logical connections to one or more databases located on the network. This defines a sphere of control managing transactional deployment of the delivered J2EE component(s) and an update of the database to keep the data consistent with the J2EE application. | 01-05-2012 |
| 20120005205 | Server system and method for discovering digital assets in enterprise information systems - Member object(s) of a computer system part(s) in an Enterprise Information System (EIS) are identified (discovered) and topographical relationship(s) are established among them to create digital assets by traversing computer file system(s) to find member object(s). For each member object found, a digital asset identifier thereof is placed in an intermediate representation, such as a graph with nodes and edges. Each digital asset identifier corresponds to a node. The edges represent the topographical relationship. A digital asset is created by placing the member object in a logic/data section of the digital asset, attaching an extended environment data structure to the logic/data section and storing the digital asset in an asset inventory container object. This is repeated for each found member object until the intermediate representation fully describes the computer system part and the asset inventory container object is a complete inventory of the digital assets in the computer system part. | 01-05-2012 |
| Patent application number | Description | Published |
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| 20110090627 | COMPUTER HOUSING - A multipart computer housing is described. The multipart computer housing includes at least a clutch barrel. The clutch barrel encloses a connector assembly, the connector assembly providing support for a lid. The clutch barrel is configured such that a junction formed by the clutch barrel and a top layer of the lid is not visible to a user when the computer housing is on a horizontal surface. | 04-21-2011 |
| 20110090630 | PORTABLE COMPUTER DISPLAY HOUSING - A display housing for a portable computing device that utilizes a plastic cover bonded to an internal metal frame is described. To account for thermal cycling issues and in particular to prevent bond slippage, multiple types of adhesives are employed to join the metal frame and the plastic cover. In particular, a very high bond (VHB) adhesive material is used in certain areas to bond the metal inner frame to the plastic cover and a liquid adhesive is used in other areas. The plastic cover can be translucent to light. A method of coating the plastic cover to block light, such as from a backlight used for the display, is described. | 04-21-2011 |
| 20110090632 | COMPUTER HOUSING - A multipart computer housing is described. The multipart computer housing includes at least a structural support layer and a body. The body includes at least an outer layer formed of lightweight flexible material and an inner layer attached to the outer layer. The inner layer is connected to the support layer forming a load path between the inner layer and the structural support layer. A load applied to the multipart computer housing is transferred by way of the load path to the support layer without substantially affecting the outer layer. | 04-21-2011 |
| 20110090712 | PORTABLE COMPUTER DISPLAY HOUSING - A display housing for a portable computing device that utilizes a plastic cover bonded to an internal metal frame is described. To account for thermal cycling issues and in particular to prevent bond slippage, multiple types of adhesives are employed to join the metal frame and the plastic cover. In particular, a very high bond (VHB) adhesive material is used in certain areas to bond the metal inner frame to the plastic cover and a liquid adhesive is used in other areas. The plastic cover can be translucent to light. A method of coating the plastic cover to block light, such as from a backlight used for the display, is described. | 04-21-2011 |
| 20120092821 | COMPUTER HOUSING - A multipart computer housing is described. The multipart computer housing includes at least a structural support layer and a body. The body includes at least an outer layer formed of lightweight flexible material and an inner layer attached to the outer layer. The inner layer is connected to the support layer forming a load path between the inner layer and the structural support layer. A load applied to the multipart computer housing is transferred by way of the load path to the support layer without substantially affecting the outer layer. | 04-19-2012 |
| 20120094517 | CONNECTOR HAVING SELF-WIPING CONTACTS - Connectors that may be incorporated and used in electronic devices in a reliable manner. One example may provide a connector that may receive a memory card, such as a Secure Digital, SmartMedia, Compact Flash, or other type of memory card. One example may provide a connector that may connect to other electronic circuits and components in an electronic device in a reliable manner. Another may provide a connector that may reliably form a connection for electromagnetic interference protection during device assembly. Another may provide a connector that may be resistant to damage from debris or other particulate matter that may enter the connector. Another example may provide a connector that has a back that is reinforced to prevent damage caused by the insertion of a card with excessive force. Another may provide a connector having a raised portion arranged to fit in an opening in a printed circuit board. | 04-19-2012 |
