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Karavai, Mikhail Fedorovich

Statistics Math-Net.Ru
Total publications: 24
Scientific articles: 23

Number of views:
This page:2217
Abstract pages:6236
Full texts:2062
References:722
Senior Researcher
Doctor of technical sciences
E-mail: ,

https://www.mathnet.ru/eng/person58282
List of publications on Google Scholar
https://zbmath.org/authors/ai:karavai.m-f
https://mathscinet.ams.org/mathscinet/MRAuthorID/269981

Publications in Math-Net.Ru Citations
2023
1. A. M. Mikhailov, M. F. Karavai, V. A. Sivtsov, M. A. Kurnikova, “Machine learning for diagnosis of diseases with complete gene expression profile”, Avtomat. i Telemekh., 2023, no. 7,  83–92  mathnet; Autom. Remote Control, 84:7 (2023), 823–830
2022
2. A. M. Mikhailov, M. F. Karavay, V. A. Sivtsov, “Instantaneous learning in pattern recognition”, Avtomat. i Telemekh., 2022, no. 3,  144–155  mathnet; Autom. Remote Control, 83:3 (2022), 417–425
2020
3. M. F. Karavay, V. S. Podlazov, “Optimum multidimensional tori based on low-port routers and hubs”, Probl. Upr., 2020, no. 5,  56–64  mathnet
4. V. S. Podlazov, M. F. Karavay, “Expanding the capabilities of the Angara system area network”, Probl. Upr., 2020, no. 2,  47–56  mathnet 1
2016
5. M. F. Karavay, V. S. Podlazov, “Topological reserves of flattened networks”, Vestn. YuUrGU. Ser. Vych. Matem. Inform., 5:2 (2016),  84–94  mathnet  elib 1
2015
6. M. F. Karavai, V. S. Podlazov, “Small-diametr system area network composed from small-port routers”, UBS, 56 (2015),  201–210  mathnet  elib; Autom. Remote Control, 78:9 (2017), 1674–1679 2
2013
7. P. P. Parkhomenko, M. F. Karavai, “Multiple combinatorial block diagrams”, Avtomat. i Telemekh., 2013, no. 6,  121–132  mathnet  mathscinet; Autom. Remote Control, 74:6 (2013), 995–1003  isi  scopus 5
8. Mikhail Karavay, Viktor Podlazov, “System area networks latent reserves of supercomputers Blue Waters (IBM) and Gemini (CRAY)”, Program Systems: Theory and Applications, 4:3 (2013),  53–70  mathnet
9. M. F. Karavai, V. S. Podlazov, “Extended generaized hypercube as fail-safe system network for multiprocessor systems”, UBS, 45 (2013),  344–371  mathnet; Autom. Remote Control, 76:2 (2015), 336–352  isi 11
10. M. F. Karavai, V. S. Podlazov, “Topological reserve of supercomputer interconnect”, UBS, 41 (2013),  395–423  mathnet 4
2012
11. M. F. Karavay, V. S. Podlazov, “Expanded block-diagrams for “ideal” system area networks”, Probl. Upr., 2012, no. 4,  45–51  mathnet; Automation and Remote Control, 74:12 (2013), 2180–2188  isi 10
2011
12. M. F. Karavai, V. S. Podlazov, “Distributed full switch as ideal system area network for multiprocessor computers”, UBS, 34 (2011),  92–116  mathnet 20
2010
13. M. F. Karavai, V. S. Podlazov, “An invariant extension method for system area networks of multicore computational systems. An ideal system network”, Avtomat. i Telemekh., 2010, no. 12,  166–177  mathnet  mathscinet  zmath; Autom. Remote Control, 71:12 (2010), 2644–2654  isi 18
2009
14. M. F. Karavai, P. P. Parkhomenko, V. S. Podlazov, “Combinatorial methods for constructing bipartite uniform minimal quasicomplete graphs (symmetrical block designs)”, Avtomat. i Telemekh., 2009, no. 2,  153–170  mathnet  mathscinet  zmath; Autom. Remote Control, 70:2 (2009), 312–327  isi  scopus 39
2005
15. M. F. Karavai, “Minimized embedding of arbitrary hamiltonian graphs in fault-tolerant graph and reconfiguration at faults. II. Grids and $k$-fault-tolerance”, Avtomat. i Telemekh., 2005, no. 2,  175–189  mathnet  mathscinet  zmath; Autom. Remote Control, 66:2 (2005), 328–340  scopus 7
2004
16. M. F. Karavai, “Minimized embedding of arbitrary hamiltonian graphs in fault-tolerant graph and reconfiguration at faults. I. One-fault-tolerant structures”, Avtomat. i Telemekh., 2004, no. 12,  159–177  mathnet  mathscinet  zmath; Autom. Remote Control, 65:12 (2004), 2003–2019  isi  scopus 8
2000
17. M. F. Karavai, “An invariant-group approach to investigation of $k$-fault-tolerant structures”, Avtomat. i Telemekh., 2000, no. 1,  144–156  mathnet  zmath; Autom. Remote Control, 2000, no. 1, 136–148 11
1996
18. M. F. Karavai, “Application of the Symmetry Theory in the Analysis and Synthesis of Fault Tolerant Systems”, Avtomat. i Telemekh., 1996, no. 6,  159–173  mathnet  mathscinet  zmath; Autom. Remote Control, 57:6 (1996), 899–910 8
19. M. F. Karavai, “A group-invariant approach to the design of fault-tolerant systems”, Dokl. Akad. Nauk, 347:2 (1996),  175–179  mathnet  mathscinet  zmath
1989
20. G. G. Veselovskii, M. F. Karavai, S. M. Kuznechik, “Switching networks in multiprocessor systems with common control: the state-of-art”, Avtomat. i Telemekh., 1989, no. 2,  3–29  mathnet  mathscinet  zmath; Autom. Remote Control, 50:2 (1989), 133–151
1988
21. M. F. Karavai, S. I. Uvarov, “On minimal redundancy on reconfigurable uniform multiprocessor systems”, Avtomat. i Telemekh., 1988, no. 2,  149–159  mathnet  zmath; Autom. Remote Control, 49:2 (1988), 242–250
1979
22. M. F. Karavai, E. S. Sogomonyan, “Analysis of reliability characteristics of self-checkable redundant structures”, Avtomat. i Telemekh., 1979, no. 8,  105–119  mathnet  zmath; Autom. Remote Control, 40:8 (1980), 1186–1197 2
1975
23. M. F. Karavai, “An algorithm of construction of a multiple-fault detection test for combinational circuits”, Avtomat. i Telemekh., 1975, no. 1,  162–170  mathnet  zmath; Autom. Remote Control, 36:1 (1975), 146–153

2003
24. M. F. Karavai, “East – West Design & Test Conference”, Probl. Upr., 2003, no. 3,  76  mathnet

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