Patent application number | Description | Published |
20080256512 | OUT OF BAND DATA AUGMENTATION - Systems and methods facilitate data augmentation in a computer environment. Data collections of various forms are altered out of band with at least one augmentor specifying alterations thereto. The alterations are applied to an associated collection of data such as programmatic code. In this manner, data can be modified, extended and/or removed from the collection to enable specialization and/or personalization, among other things. | 10-16-2008 |
20080282260 | DYNAMIC DISPATCH FOR CLASSES AND INTERFACES - Dynamic dispatch for classes and interfaces is encapsulated in a class-less scripting language. A plurality of mechanisms are employed to facilitate dynamic polymorphism. One or more target language constructs such as dictionary objects, prototype objects and/or derived types are utilized to capture class and interface method implementations. These constructs are subsequently referenced at runtime to invoke appropriate code. | 11-13-2008 |
20080295070 | NATIVE ACCESS TO FOREIGN CODE ENVIRONMENT - Mechanisms afford access to a foreign code environment from a native computer programming language. A program includes an attribute or declarative tag identifying foreign code associated with a native program construct. The attribute is subsequently morphed into script code that matches the calling convention and/or semantics of a related native construct. | 11-27-2008 |
20090024986 | RUNTIME CODE MODIFICATION - Source languages are translated to target dynamic programming languages. Runtime functionality including reflection and/or dynamic code modification exposed by a source language is mapped to a dynamic language implementation such as that of a script language. Target language dynamism is leveraged to efficiently support runtime functionality in a source language that is more static, for example. | 01-22-2009 |
20090132998 | DEBUGGING MULTI-EXECUTION ENVIRONMENT APPLICATIONS - A framework is provided that allows for debugging of applications/systems that execute in multiple execution environments. Instead of using the native application programming interface to interact with an execution environment, an alternative implementation of at least some of the application programming interface of the native execution environment is employed to facilitate debugging in a disparate execution environment. | 05-21-2009 |
Patent application number | Description | Published |
20100066631 | Panel Array - A mixed-signal, multilayer printed wiring board fabricated in a single lamination step is described. The PWB includes one or more radio frequency (RF) interconnects between different circuit layers on different circuit boards which make up the PWB. The PWB includes a number of unit cells with radiating elements and an RF cage disposed around each unit cell to isolate the unit cell. A plurality of flip-chip circuits are disposed on an external surface of the PWB and a heat sink can be disposed over the flip chip components. | 03-18-2010 |
20120313818 | ACTIVE ELECTRONICALLY SCANNED ARRAY (AESA) CARD - In one aspect, an active electronically scanned array (AESA) card includes a printed wiring board (PWB) that includes a first set of metal layers used to provide RF signal distribution, a second set of metal layers used to provide digital logical distribution, a third set of metal layers used to provide power distribution and a fourth set of metal layers used to provide RF signal distribution. The PWB comprises at least one transmit/receive (T/R) channel used in an AESA. | 12-13-2012 |
20130088381 | SCALABLE, ANALOG MONOPULSE NETWORK - Embodiments of the concepts described herein are directed toward a common RF building block in the form of a monolithic assembly for an AESA array featuring a scalable RF design based on 2 | 04-11-2013 |
20150015453 | Transmit/Receive Daughter Card With Integral Circulator - A mixed-signal, multilayer printed wiring board fabricated in a single lamination step is described. The PWB includes one or more radio frequency (RF) interconnects between different circuit layers on different circuit boards which make up the PWB. The PWB includes a number of unit cells with radiating elements and an RF cage disposed around each unit cell to isolate the unit cell. A plurality of flip-chip circuits are disposed on an external surface of the PWB and a heat sink can be disposed over the flip chip components. | 01-15-2015 |