Sistema de control multipropósito programable por pulsación de teclas con álgebra RPN.

[ES]Para la elaboración del presente proyecto, primeramente se explicara los requerimientos técnicos y el origen del microprocesador a utilizar para poder situar y centrar el tema del trabajo. Una vez acotado y delimitado el tema objeto de estudio, se planteara una arquitectura de software sobre la posibilidad de generar unas “pseudolibrerias” de mayor nivel de programación que el ensamblador. Posteriormente, se verificara la posible viabilidad o no de tal planteamiento, exponiendo sus resultados y las consideraciones oportunas a las que nos ha llevado su estudio. Para ello se analizara en una primera instancia el microprocesador a utilizar, que será el PIC16F887, centrándonos en el debido al amplio manejo y conocimiento que poseemos sobre este microprocesador. El objeto de este escrito será presentar una oferta económica relativa al desarrollo e instalación de dichos microprocesadores para la mejora en el ámbito industrial. Finalmente, realizaremos un estudio sobre la implementación de este tipo de arquitectura software en diferentes microprocesadores de mayores prestaciones, estudiando si la infraestructura será eficiente, funcional y económica.

Model driven product line engineering : core asset and process implications

Reuse is at the heart of major improvements in productivity and quality in Software Engineering. Both Model Driven Engineering (MDE) and Software Product Line Engineering (SPLE) are software development paradigms that promote reuse. Specifically, they promote systematic reuse and a departure from craftsmanship towards an industrialization of the software development process. MDE and SPLE have established their benefits separately. Their combination, here called Model Driven Product Line Engineering (MDPLE), gathers together the advantages of both. Nevertheless, this blending requires MDE to be recasted in SPLE terms. This has implications on both the core assets and the software development process. The challenges are twofold: (i) models become central core assets from which products are obtained and (ii) the software development process needs to cater for the changes that SPLE and MDE introduce. This dissertation proposes a solution to the first challenge following a feature oriented approach, with an emphasis on reuse and early detection of inconsistencies. The second part is dedicated to assembly processes, a clear example of the complexity MDPLE introduces in software development processes. This work advocates for a new discipline inside the general software development process, i.e., the Assembly Plan Management, which raises the abstraction level and increases reuse in such processes. Different case studies illustrate the presented ideas.