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Statements

Subject Item: dbr:Frame_technology_(software_engineering)
rdfs:label: Tecnología de frame Frame technology (software engineering)
rdfs:comment: Frame technology (FT) is a language-neutral (i.e., processes various languages) system that manufactures custom software from reusable, machine-adaptable building blocks, called . FT is used to reduce the time, effort, and errors involved in the design, construction, and evolution of large, complex software systems. Fundamental to FT is its ability to of similar but subtly different components, an issue plaguing software engineering, for which programming language constructs (subroutines, classes, or templates/generics) or add-in techniques such as macros and generators failed to provide a practical, scalable solution. Tecnología de frame (FT) es una lengua-neutro (es decir, procesa varios idiomas) que fabrica software personalizado a partir de bloques reutilizables y adaptables a la máquina, llamados frames. FT se utiliza para reducir el tiempo, el esfuerzo y los errores involucrados en el diseño, construcción y evolución de sistemas de software grandes y complejos. Fundamental para FT es su capacidad para detener la proliferación de componentes similares, pero sutilmente diferentes, un problema que afecta a la ingeniería de software, para el cual se construyen lenguajes de programación (subrutinas, clases o plantillas/genéricos) o técnicas complementarias como Frame y los generadores no pudieron proporcionar una solución práctica y escalable.
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dct:subject: dbc:Source_code_generation
dbo:wikiPageID: 19675942
dbo:wikiPageRevisionID: 931569427
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dbo:abstract: Tecnología de frame (FT) es una lengua-neutro (es decir, procesa varios idiomas) que fabrica software personalizado a partir de bloques reutilizables y adaptables a la máquina, llamados frames. FT se utiliza para reducir el tiempo, el esfuerzo y los errores involucrados en el diseño, construcción y evolución de sistemas de software grandes y complejos. Fundamental para FT es su capacidad para detener la proliferación de componentes similares, pero sutilmente diferentes, un problema que afecta a la ingeniería de software, para el cual se construyen lenguajes de programación (subrutinas, clases o plantillas/genéricos) o técnicas complementarias como Frame y los generadores no pudieron proporcionar una solución práctica y escalable. Existen varias implementaciones de FT. Netron Fusion se especializa en la construcción de software empresarial y es privado. ART (Adaptive Reuse Technology) es una implementación de código abierto de uso general de FT. Paul G. Basset invento el primer FT para automatizar la edición repetitiva y propensa a errores involucrada en la adaptación de programas (generados y escritos a mano) a requisitos y contextos cambiantes. Ahora existe una literatura sustancial que explica cómo FT puede facilitar la mayoría de los aspectos del ciclo de vida del software, incluido el modelado de dominios, la recopilación de requisitos, arquitectura y diseño, construcción, pruebas, documentación, puesta a punto y evolución. Las comparaciones independientes de FT con enfoques alternativos confirman que el tiempo y los recursos necesarios para construir y mantener sistemas complejos pueden reducirse sustancialmente. Una razón: FT protege a los programadores de las redundancias inherentes al software: FT ha producido bibliotecas de objetos COTS de bibliotecas de frame XVCL equivalentes que son dos tercios más pequeñas y más simples; las aplicaciones empresariales personalizadas se especifican y mantienen de forma rutinaria mediante Netron FusionSPC frames que son del 5% al 15% del tamaño de sus archivos fuente ensamblados. Frame technology (FT) is a language-neutral (i.e., processes various languages) system that manufactures custom software from reusable, machine-adaptable building blocks, called . FT is used to reduce the time, effort, and errors involved in the design, construction, and evolution of large, complex software systems. Fundamental to FT is its ability to of similar but subtly different components, an issue plaguing software engineering, for which programming language constructs (subroutines, classes, or templates/generics) or add-in techniques such as macros and generators failed to provide a practical, scalable solution. A number of implementations of FT exist. Netron Fusion specializes in constructing business software and is proprietary. ART (Adaptive Reuse Technology) [2] is a general-purpose, open-source implementation of FT. Paul G. Bassett invented the first FT in order to automate the repetitive, error-prone editing involved in adapting (generated and hand-written) programs to changing requirements and contexts. A substantial literature now exists that explains how FT can facilitate most aspects of software's life-cycle, including domain modeling, requirements gathering, architecture and design, construction, testing, documentation, fine tuning and evolution. Independent comparisons of FT to alternative approaches confirm that the time and resources needed to build and maintain complex systems can be substantially reduced. One reason: FT shields programmers from software's inherent redundancies: FT has reproduced COTS object-libraries from equivalent XVCL libraries that are two-thirds smaller and simpler; custom business applications are routinely specified and maintained by Netron Fusion that are 5% – 15% of the size of their assembled source files.
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Subject Item: dbr:Frame
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Subject Item: dbr:Frame_Technology
dbo:wikiPageWikiLink: dbr:Frame_technology_(software_engineering)
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Subject Item: dbr:Frame_Technology_(software_engineering)
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Subject Item: wikipedia-en:Frame_technology_(software_engineering)
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