By Srinivas K., Fletcher C.A.J.
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This booklet constitutes the refereed lawsuits of the 1st foreign Workshop on Numerical research and Its purposes, WNAA'96, held in Rousse, Bulgaria, in June 1996. The fifty seven revised complete papers provided have been conscientiously chosen and reviewed for inclusion within the quantity; additionally incorporated are 14 invited shows.
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PolyFormes is a dedicated declarative modeler as it is specialized in generation of polyhedrons. Fig. 4. Scene generated by PolyFormes 34 D. Plemenos MultiFormes [2, 3, 4, 13, 14, 34]. The study of MultiFormes started in 1987 in Nantes (France) and its first version was available in 1991. Several other versions of the modeler have been developed later in Limoges (France). The purpose of this modeler was to be a general purpose declarative modeler, able to be specialized in any particular area. MultiFormes is based on a new conception and modeling technique, declarative modeling by hierarchical decomposition (DMHD) [ 2, 3, 34].
The main advantage of general purpose declarative modelers is generality which allows to specialize a modeler in a specific modeling area without having to modify its solution generation engine. On the other hand, general purpose modelers suffer from their lack of efficiency, because of the generality of the solution generation mechanism. The declarative modeler MultiFormes [2 ,3, 4, 12, 13, 14, 34] is a general purpose declarative modeler. It is generally admitted that the declarative modeling process is made of three phases: the description phase, where the designer describes the scene; the scene generation phase, where the modeler generates one or more scenes verifying the description; and the scene understanding phase, where the designer, or the modeler, tries to understand a generated scene in order to decide whether the proposed solution is a satisfactory one, or not.
4 Software Architectures for Declarative Design Support In this section we will confront questions about the structure of software that supports declarative design. The goal is to make clear our point of view about the notions of software architecture and framework architecture. We also examine the passage from a framework architecture to the concrete MultiCAD software through an architecture based development. We will define, at this point, the MultiCAD architecture. The domain of application in our case is the declarative design system, its functional framework and its resources.
Computational techniques for fluid dynamics A solutions manual by Srinivas K., Fletcher C.A.J.