EFFECTIVE MODELS AND SCHEMES OF CYCLIC ACTION DIGITAL DEVICES

The work considersmodels and schemes of widespread digital devices of cyclic action. They includecoders and decoders of information transfer system, control units of processors, generators of codes, counters, distributors of impulses etc. Three models of devices for consecutive, parallel and ripple through information transfer are suggested and proved. The structure of the models is presented by a set of blocks with original operation algorithms and connections between their blocks. The blocks are implemented in the form of Moore machines (in case of consecutive transfer) and Mealy machines (in case of parallel and ripple through transfer). A technique for synthesizing devices based on these models with the use of canonic synthesis methods and ofHuffman transition tablesmodified by the authoris suggested. This allows implementing compactly devices of practically any complexity. Algorithms for transition from models with ripple through transfer to models with parallel and consecutive transfer are described. Examples of implementing models in the form of concrete schemes confirming their efficiency are considered.

digital device of cyclic action, model, blocks, transitionstables, informationtransfer, counters, processing speed, economy of the number of gates

1. Glushkov V.M. Synthesis of digital automata. Moscow: Fismatgis Publ., 1962. 476 p. (in Russ.).

2. Lazarev V.G., Piyl' E.I. Synthesis of control automata. Moscow: Energoatomizdat Publ., 1989. 328 p. (in Russ.).

3. Aleksenko A.G. Fundamentals of microcircuitry. The third edition. Moscow: Binom. Laboratory of Knowledge Publ., 2010. 448 p. (in Russ.).

4. Popov L.N. Circuitry of digital computing devices. Moscow: Vuzovskaya kniga Publ., 2015. 116 p. (in Russ.).

5. Kistrin A.V., Kostrov B.V., Nikiforov M.B., Ustyukov D.I. Designing of digital devices. Moscow: KURS INFRA-M Publ., 2017. 352 p. (in Russ.).

6. Opadchin Yu.F., Gludkin O.P., Gurov A.I. Analog and digital electronics (Full course). Moscow: "Goryachaya liniya-Telekom" Publ., 2007. 768 p. (in Russ.).

7. Nawabi Z. Designing Embedded Systems on FPGA: Transl. from Engl. Solovyev V.V. Moscow: DMK Press Publ., 2016. 464 p. (in Russ.).

8. Kinosita K., Asada K., Karatsu O. Logical design of VLSI: Transl. from Jap. Moscow: Mir Publ., 1988. 309 p. (in Russ.).

9. Friedman A., Menon P. Theory and design of switching circuits: Transl. from Engl. Moscow: Mir Publ., 1978. 581 p. (in Russ.).

10. Hope G. Designing digital computing devices on integrated circuits: Transl. from Engl. Moscow: Mir Publ., 1984, 400 p. (in Russ.).

11. Waykery D.F. Design of digital devices: in 2 vol.: Transl. from Engl. Moscow: Postmarket Publ., 2002. 1087 p. (in Russ.).

12. Baranov S.N. Synthesis of microprogram automata. Leningrad: Energiya Publ.,1974. 216 p. (in Russ.).

13. Babich N.P., Zhukov I.A. Fundamentals of digital circuitry. Moscow: Dodeka – XXI Publ., Kiev: MK-Press Publ., 2007. 480 p. (in Russ.).

14. Gudko N.I., Golovitsyna M.V. Digital device for the generation of sequences of control signals with sequential information transfer: pat. 2642395 Russian Federation. № 2016123588; filled 15.06.2016; publ. 20.12.2017. (in Russ.).

15. Gudko N.I., Smyshlyaev E.I. Digital device for generating sequences of control signals with parallel transfer: pat. 2475954 Russian Federation. № 2011110562/08; filled 23.03.2011; publ. 27.09.2012. (in Russ.).

16. Gudko N.I., Litvinov V.P. A digital device for generating sequences of control signals: pat. 2397610 Russian Federation. № 2008124113/09; filled 19.06.2008; publ. 20.08.2010. (in Russ.).

17. Gumenyuk A.D., Zhuravlev V.I., Martyushev Yu.Yu., Strukov A.Z., Tsvetkov S.I. Fundamentals of electronics, radio engineering and communications / Ed. G.D. Petrukhin. Moscow: "Goryachaya liniya-Telekom" Publ., 2015. 480 p. (in Russ.).

18. Shesterkin A.N. Introduction to electro-technology. Elements and devices of computer technology. Moscow: "Goryachaya liniya-Telekom" Publ., 2015. 252 p. (in Russ.).

19. Potemkin I.S. Functional nodes of digital automation. Moscow: Energoatomizdat Publ., 1988. 320 p. (in Russ.).

20. Bukreev I.N., Goryachev V.I., Mansurov B.M. Microelectronic circuits of digital devices. Moscow: Tekhnosfera Publ., 2009. 712 p. (in Russ.).

21. Gudko N. Effective models of digital devices of cyclic action. LAP LAMBERT Academic Publishing, 2016. 136 p. (in Russ.).

22. Gudko N.I. Synthesis of digital devices of cyclic action. Moscow: "Goryachaya liniyaTelekom" Publ., 2014. 96 p. (in Russ.).

23. Ivanov V.N. Application of computer technology in the design of electrical circuits. Moscow: Solon-Press, 2017. 226 p. (in Russ.).