ISSN 0021-3454 (print version)
ISSN 2500-0381 (online version)

vol 64 / September, 2021

DOI 10.17586/0021-3454- 2017-60-10-993-998

UDC 004.2


A. E. Platunov
ITMO University, Saint Petersburg, 197101, Russian Federation; Professor

R. I. Yanalov
Luxoft Professional LLC, Saint Petersburg, 195027, Russian Federation; Senior programmer

Read the full article 

Abstract. The problems of computational platforms design for cyber-physical systems are analyzed. The main progressive methods of system / architectural design of specialized computer facilities and automation are presented, which can form the basis of a complex methodology for designing new generation of cyberphysical systems. The definitions of the concepts "computing platform", "high-level design" of embedded systems and systems on a chip are given. The methodology and technology "Platform-oriented design", "Actor design", ESL-design, high-level synthesis of systems on a chip, "Contract-oriented design" in the context of creating embedded and cyber-physical systems are considered. The principles of the HLD methodology created and developed at the Department of Computation Technologies of ITMO University are presented.
Keywords: cyber-physical systems, embedded systems, system on chip, industrial automation, computing platforms, design methods

  1. Cyber-Physical Systems,
  2. Platunov A.E. Control Engineering Russia, 2013, no. 1(43), рр. 16–24. (in Russ.)
  3. Platunov A., Kustarev P. Proceedings of the International Workshop on Networked embedded and control system technologies: European and Russian R&D cooperation, 2009, рp. 100–107.
  4. Platunov A., Nickolaenkov A., Penskoy A. Mediterranean Conference on Embedded Computing (MECO), 2012, рp. 80–83.
  5. Lee E.A., Neuendorffer S., Wirthlin M.J. Journal of Circuits, Systems and Computers, 2003, no. 12, рр. 231–260. DOI: 10.1142/S0218126603000751.
  6. Lee E.A. 11th IEEE Int. Symp. Object Component-Oriented Real-Time Distrib. Comput.,2008,рp. 363–369.
  7. Sangiovanni-Vincentelli A. Proc. IEEE, 2007, no. 3(95), рр. 467–506.
  8. Teich J. Proc. IEEE, 2012, no. 100, рр. 1411–1430. DOI: 10.1109/JPROC.2011.2182009
  9. Sangiovanni-Vincentelli A., Damm W., Passerone R. Eur. J. Control, 2012, no. 18, рр. 217–238.
  10. ISO/IEC/IEEE 42010 Systems and software engineering – Architecture description, 2011.DOI: 10.1109/IEEESTD.2011.6129467
  11. Platunov A., Kluchev A., and Penskoi A. 14th GeoConference on Informatics, Geoinformatics and Remote Sensing, 2014, рp. 209–218.
  12. Penskoy A.V. Journal of Instrument Engineering, 2015, no. 7, рр. 527–532.
  13. Platunov A., Nickolaenkov A.Mediterranean Conference on Embedded Computing (MECO), June 2012, рp. 84–87.
  14. A 21st Century Cyber-Physical Systems Education, National Academies Press, Washington, D.C., 2016.
  15. Platunov A.E. Journal of Instrument Engineering, 2014, no. 4(57), рр. 49–52. (in Russ.)