Abstract
Methods of synchronizing interaction of the digital devices of distributed systems with the use of a common center relaying the signals from the devices were proposed. They are mostly intended to perform operations like “all-to-all,” “all-to-one,” and “one-to-all.” The center substantially accelerates synchronization and improves efficiency of the communication facilities interconnecting the devices.
Similar content being viewed by others
References
IEEE Std 1588™-2008 (Revision of IEEE Std 1588-2002), IEEE Instrum. Meas. Soc., 2008.
Eidson, J.C., Measurement, Control and Communication Using IEEE 1588, London: Springer, 2006.
Prangishvili, I.V. and Stetsyura, G.G., Mikroprotsessornye sistemy (Microprocessor Systems), Moscow: Nauka, 1980.
Prangishvili, I.V., Podlasov, V.S., and Stetsyura, G.G., Lokal’nye mikroprotsessornye vychislitel’nye seti (Local-area Microprocessor Computing Networks), Moscow: Nauka, 1984.
Stetsyura, G.G., Methods of Combining Calculations and Data Transmission in the Multiprocessor Systems and Local-area Networks, Moscow: Inst. Probl. Upravlen., 2005 (http://www.ipu.ru/labs/lab31kom/ggs.zip).
Rabinovich, W.S., Goetz, P.G., Mahon, R., et al., 45-Mbit/s Cat’s-Eye Modulating Retroreflectors, Optic. Eng., 2007, vol. 46, no. 10, pp. 1–8.
Rabinovich, W.S., Goetz, P.G., Meehan, T.J., et al., Free Space Optical Data Links Using Cat’s Eye Modulating Retroreflectors (http://esto.nasa.gov/conferences/estc2003/papers/A6P3(Rabinovich).pdf).
Rabinovich, W.S., Meehan, T.J., Katzer, D.S., et al., Modulating Retroreflector Implementation of MILSTD-1553 Protocol with Free-Space Optics P.G.G, Proc. 2003 IEEE Aerospace Conf. Paper no. 1559 (http://www.nrl.navy.mil/fpco/pubs/03-1226-0334.pdf).
Podlasov, V.S. and Stetsyura, G.G., On the Need for New Logic Elements, Zh. Radioel., 2009, no. 6 (http://jre.cplire.ru/).
Van Campenhout, J., Green, W.M.J., and Vlasov, Y.A., Design of a Digital, Ultra-broadband Electrooptic Switch for Reconfigurable Optical Networks-on-Chip, Optics Express, 2009, vol. 17, no. 26, pp. 23 793–23 808.
Green, W.M.J., Xia, F., Assefa, S., Rooks, M.J., et al., Silicon Photonic Wire Circuits for On-Chip Optical Interconnects, Proc. SPIE, 2008, vol. 6883, 688306, pp. 1–10.
Ritter, M.B., Vlasov, Y., Kash, J.A., and Benner, A., Optical Technologies for Data Communication in Large Parallel System, Topical Workshop Electron. Particle Phys., 2010, Germany (http://www.iopscience.iop.org/1748-0221/6/01/C01012/pdf/jinst11 01 c01012.pdf).
Ponmalar, S. and Sundaravadivelu, S., Design of Ultra Fast 2x2 Electro-optic Polymer Waveguide Switch for Protection in Intelligent Optical Networks, J. Sci. Indust. Res., 2011, vol. 70, pp. 36–40.
Stetsyura, G.G., Reducing Complexity of the Distributed Switch for Parallel Data Processing Systems, Autom. Remote Control, 2010, vol. 71, no. 5, pp. 859–865.
Stetsyura, G.G., Combining Computation and Data Transmission in the Systems with Switches, Autom. Remote Control, 2008, vol. 69, no. 5, pp. 891–899.
Stetsyura, G.G., Fast Distributed Algorithms to Make Mutually Coordinated Decisions in Stringent Real Time, Autom. Remote Control, 2008, vol. 69, no. 10, pp. 1796–1800.
Noharet, B., Wang, Q., Junique, S., et al., Multiple Quantum well Spatial Light Modulators for Optical Signal Processing, Proc. SPIE, 2004, vol. 5618, pp. 146–155.
Author information
Authors and Affiliations
Additional information
Original Russian Text © G.G. Stetsyura, 2012, published in Avtomatika i Telemekhanika, 2012, No. 5, pp. 111–124.
Rights and permissions
About this article
Cite this article
Stetsyura, G.G. Synchronization of interacting digital devices with the use of a signal relay center. Autom Remote Control 73, 852–861 (2012). https://doi.org/10.1134/S0005117912050098
Received:
Published:
Issue Date:
DOI: https://doi.org/10.1134/S0005117912050098