Gridin, V. N.; Anisimov, V. I. Increase of efficiency of systems of modeling electronic circuits in the frequency domain. (Russian. English summary) Zbl 1452.78021 Mat. Model. 31, No. 3, 69-82 (2019). The authors analyze the optimization of electric circuit design in frequency domain. They show that the matrix of the system taken in bilinear form Encyclopedia of Mathematics nLab Wikipedia Wolfram MathWorld increases the efficiency of the optimization method by using a modified basis of nodal potential. Reviewer: Vladimir Čadež (Beograd) MSC: 78A55 Technical applications of optics and electromagnetic theory 78-10 Mathematical modeling or simulation for problems pertaining to optics and electromagnetic theory 94C30 Applications of design theory to circuits and networks Keywords:systems for automation of circuit design; system modeling; bilinear form; frequency domain; modified basis of nodal potentials × Cite Format Result Cite Review PDF Full Text: DOI MNR References: [1] V.P. Sigorskij, A.I. Petrenko, Algoritmy analiza elektronnykh skhem, Sov. radio, M., 1976, 608 pp. [2] I.P. Norenkov, Vvedenie v avtomatizirovannoe proektirovanie tekhnicheskikh ustroistv i sistem, Vysshaia shkola, M., 1986, 304 pp. [3] B.A. Kalabekov, I. Yu. Lapidus, V.M. Malafeev, Metody avtomatizirovannogo rascheta elektronnyh skhem v tekhnike sviazi, Radio i sviaz, M., 1990, 272 pp. [4] B.V. Batalov, Yu.B. Egorov, S.G. Rusakov, Osnovy matematicheskogo modelirovaniia bolshikh integralnykh skhem na EVM, Radio i sviaz, M., 1982, 168 pp. · Zbl 0511.94028 [5] E.L. Gloriozov, V.K. Ssorin, P.P. Sypchuk, Vvedenie v avtomatizaciiu skhemotekhnicheskogo proektirovaniia, Sovetskoe radio, M., 1976, 224 pp. [6] A.I. Petrenko, O.I. Semenkov, Osnovy postroeniia sistem avtomatizirovannogo proektirovaniia, Vysshaia shkola, Kiev, 1984, 293 pp. [7] G. Forsyte, M. Malkolm, C. Moler, Computer methods for mathematical computation, Prentige Hall, N.J., 1977 · Zbl 0361.65002 [8] O. Osterby, Z. Zlatev, Direct methods for sparse matrices, Springer Verlag, New York, 1983 · Zbl 0516.65011 [9] N.F. Il’inskij, V.K. Cacenkin, Prilozhenie teorii grafov k zadacham elektromekhaniki, Energiia, M., 1968, 200 pp. [10] L. Robichaud, M. Boisvert, J. Roert, Graphes de fluense. Applications a l’electrotechnique et a l’electronique, Canade, 1961 [11] G. Kron, Diacoptics, Macdonald, London, 1970 [12] Yu.V. Timkin, Analiz elektronnykh skhem metodom dvunapravlennykh grafov, Energoatomizdat, M., 1985, 255 pp. [13] V.N. Il’in, Osnovy avtomatizatsii skhemotekhnicheskogo proektirovaniia, Energiia, M., 1979, 391 pp. [14] I.P. Norenkov, V.B. Manichev, Sistemy avtomatizirovannogo proektirovaniia elektronnoi i vychislitelnoi apparatury, Vysshaia shkola, M., 1983, 273 pp. [15] Y. Vlach, K. Singhal, Computer methods for circuit analysis and design, VNR Company, New York, 1983 [16] L. Chua, Pen-Min Lin, Computer-aided analysis of electronic circuits, Prentice Hall, New York, 1980 · Zbl 0358.94002 [17] J. Fidler, C. Nightingale, Computer Aided Circuit Design, John Wiley & Sons, New York, 1980 [18] G.V. Obrezkov i dr., Prikladnye matematicheskie metody analiza v radiotekhnike, Vysshaia shkola, M., 1985, 343 pp. · Zbl 0613.00006 [19] A. Troelsen, PRO C#2005 and the.NET 2.0 Platform, Apress@, 2005 [20] V.N. Gridin, N.G. Ryzhov, V.I. Anisimov, M.M. Abuhazim, “Metody povysheniia effektivnosti processov modelirovaniia dinamicheskikh rezhimov nelineinykh sistem”, Informatsionnye tekhnologii, 2017, no. 11, 796-802 This reference list is based on information provided by the publisher or from digital mathematics libraries. Its items are heuristically matched to zbMATH identifiers and may contain data conversion errors. In some cases that data have been complemented/enhanced by data from zbMATH Open. This attempts to reflect the references listed in the original paper as accurately as possible without claiming completeness or a perfect matching.