D.A. Shatalov - student, Kaluga branch, Bauman MSTU E-mail: shtlvdns@rambler.ru V.E. Drach - Ph. D. (Eng.), Associate Professor, Kaluga branch, Bauman MSTU E-mail: drach@bmstu-kaluga.ru

Systems based on FPGAs (Field Programmable Gate Arrays) provide many advantages over conventional implementations: 1) Long time availability. FPGAs (Field Programmable Gate Arrays) enable you to make yourself independent from component manu-facturers and distributors since the functionality is not given by the device itself but in its configuration. The configuration can be programmed to be portable between miscellaneous FPGAs without any adaptations. 2) Flexibility. FPGAs in contrast to traditional computer chips are completely configurable. Updates and feature enhancement can be carried out even after delivery at your customer\'s site. 3) Fast and efficient systems. Available standard components address a broad user group and consequently often constitute a com-promise between performance and compatibility. With FPGAs, systems can be developed that are exactly customized for the designated task and for this reason works are highly efficient. 4) Real time applications. FPGAs are perfectly suitable for applications in time-critical systems. In contrast to software based solutions with real time operating systems, FPGAs provide real deterministic behavior. By means of the featured flexibility even complex com-putations can be executed in extremely short periods. 5) Massively parallel data processing. The amount of data in contemporary systems is ever increasing which leads to the problem that systems working sequential are no longer able to process the data on time. Especially by means of parallelization, FPGAs provide a solution to this problem which in addition scales excellently. In this article, the FPGA-based modernization of schematics of output information signal unit is discussed. Xilinx ISE Design Suite software was used as a simulation and design tool. Standard library elements were widely used.

 

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