Abstract
The article is devoted to the consideration of a number of possible structural and parametric compositions that together can form an automated geometric design tool designed to solve geometric, engineering and pedagogical problems. The conceptual apparatus of the work is based on the works of the St. Petersburg geometric school. Modeling the operation process of a geometric machine in the form of a constructive diagram allows you to visualize the stages of its work, starting with obtaining information from the object and ending with the construction of its model. An analysis of existing work has revealed three main areas in the field of processing geometric data: using FPGA, GPU or microcontrollers. The implementation of the shown structures in the form of an analytical model in the high-level programming language python made it possible to choose the most suitable of them for the first iteration of the implementation of a geometric computer and plan further steps for its modernization.
Publisher
Keldysh Institute of Applied Mathematics
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