Russian Federation
Russian Federation
Russian Federation
Russian Federation
Russian Federation
UDK 621.3 Электротехника
Modern mathematical models for automatic analysis of electrical characteristics of integrated circuits are considered. The requirements for the analysis programs are formulated. A comparative analysis of machine methods for calculating integrated circuits is carried out in terms of their accuracy, RAM volumes and calculation time. The features of the development of modern automation tools for designing integrated circuits are considered. One of the main tasks of designing an integrated circuit is a schematic analysis, which must be carried out both at the preliminary stage and after the development of the integrated circuit topology. However, it is possible to identify the main re-quirements that a modern analysis program must meet: reliability - stable calculation of a wide class of electronic circuits, obtaining solutions even for poorly conditioned tasks; high performance - this requirement is especially important when calculating BIS, in tasks of multivariate analysis, such as statistical analysis, and optimization; low costs of machine memory and expansion of the maximum permissible complexity of the analyzed circuits; flexibility, the possibility of making changes to the program, in particular, the replacement of mathematical models of circuit components, the introduction of new models, the improvement of the computational algorithm, the inclusion of the pro-gram in more complex programs, etc.; the availability of convenient input and output of initial information.
Integrated circuit, deterministic models, BIS, machine analysis method, diacoptics method, modeling and design processes, Gauss method
1. Kononov, V.S. Povyshenie stoykosti KMOP-KNI-ACP k vozdeystviyu tyazhelyh zaryazhennyh chastic kosmicheskogo proishozhdeniya / V.S. Kononov, A.V. Shunulin // Teoriya i tehnika radiosvyazi. - 2017. - № 2. - S. 48-58.
2. Sogoyan, A.V. Ocenka sootvetstviya integral'nyh shem trebovaniyam po stoykosti k vozdeystviyu tyazhelyh zaryazhennyh chastic / A.V. Sogoyan, A.A. Smolin, A.I. Chumakov // Bezopasnost' informacionnyh tehnologiy. - 2020. - T. 27, № 1. - S. 68-82. -. DOI:https://doi.org/10.26583/bit.2020.1.06.
3. Bogdanov, D.S. Radiacionnaya stoykost' radioelektronnogo ustroystva v usloviyah kosmicheskogo prostranstva / D.S. Bogdanov, I.A. Bogdanova, A.N. Volnykin // Vestnik Ryazanskogo gosudarstvennogo radiotehnicheskogo universiteta. - 2019. - № 70. - S. 107-117. -. DOI:https://doi.org/10.21667/1995-4565-2019-70-107-117.
4. Petrov, A.S. Issledovanie vliyaniya nizkointensivnogo oblucheniya pri povyshennoy temperature na degradaciyu BiKMOP operacionnyh usiliteley / A.S. Petrov, K.I. Tapero, V.N. Ulimov // Voprosy atomnoy nauki i tehniki. Ser.: Fizika radiacionnogo vozdeystviya na radioelektronnuyu apparaturu. - 2018. - № 1. - S. 31-34.
5. True dose rate physical mechanism of ELDRS effect in bipolar devices / V.S. Pershenkov, A.S. Bakerenkov, V.A. Felytsyn [et al.] // Microelectronics Reliability. - 2017. - T. 76-77. - S. 703-707. - DOI:https://doi.org/10.1016/j.microrel.2017.07.025.
6. Dement'ev, A.N. Razrabotka metodov pomehozaschischennosti radiotehnicheskih sistem putem realizacii tehnologii individual'nogo otbora i kvalifikacii radiacionno-stoykoy elektronnoy komponentnoy bazy na etape ee proizvodstva / A.N. Dement'ev // Fizika volnovyh processov i radiotehnicheskie sistemy. - 2018. - T. 21, № 3. - S. 129-137
7. Tinyaev, V.A. Analiz effektivnosti metodov snizheniya energopotrebleniya cifrovyh SBIS / V.A. Tinyaev, H.M. El'-Hazhzh // Nano- i mikrosistemnaya tehnika. - 2020. - T. 22, № 1. - S. 39-45. - DOI:https://doi.org/10.17587/nmst.22.39-45.
8. Romanenko, A.A. Vliyanie ioniziruyuschego izlucheniya nizkoy intensivnosti na bipolyarnye izdeliya elektronnoy tehniki / A.A. Romanenko // Voprosy atomnoy nauki i tehniki. Ser.: Fizika radiacionnogo vozdeystviya na radioelektronnuyu apparaturu. - 2002. - № 4. - S. 121-132.
9. Tapero, K.I. Radiacionnye effekty v kremnievyh integral'nyh shemah kosmicheskogo primeneniya: monografiya / K.I. Tapero, V.N. Ulimov, A.M. Chlenov. - M.: BINOM. Laboratoriya znaniy, 2012. - 304 s.
10. High-performance RF Power Amplifier Module using Optimum Chip-level Packaging Structure / H. Nam, J. Kim, J. Jeon [et al.] // IEEE Transactions on Industrial Electronics. - 2021. - Vol. 69, № 6. - Pp. 5660-5668. -. DOI:https://doi.org/10.1109/TIE.2021.3088328.
11. Bae, Y. A programmable impedance tuner with a high resolution using a 0.18-um CMOS SOI process for improved linearity / Y. Bae, H. Jhon, J. Kim // Electronics. - 2020. - Vol. 9(1). - C. 7. - DOI:https://doi.org/10.3390/electronics9010007.
12. Quinacridone-quinoxaline-based copolymer for organic field-effect transistors and its high-voltage logic circuit operations / J. Jeon, H. Jhon, M. Kang [et al.] // Organic Electronics. - 2018. - Vol. 56, № 2. - Pp. 1-4. -DOI:https://doi.org/10.1016/j.orgel.2018.01.019.
13. Vahidian, S. Personalized federated learning by structured and unstructured pruning under data heterogeneity / S. Vahidian, M. Morafah, B. Lin // Proceedings - 2021 IEEE 41st International Conference on Distributed Computing Systems Workshops, ICDCSW 2021. - 2021. - Pp. 27-34. -DOI:https://doi.org/10.1109/ICDCSW53096.2021.00012.
14. MEMTONIC: A Neuromorphic Accelerator for Energy Efficient Deep Learning / D. Dang, S. Taheri, B. Lin, D. Sahoo // 2020 57th ACM/IEEE Design Automation Conference (DAC). - 2020. - Pp. 1-2. -DOI:https://doi.org/10.1109/DAC18072.2020.9218560.
15. Baraniuk, R. Simplification of the model of piezoelectric actuator control based on preliminary measurements / R. Baraniuk, W.-G. Drossel // Actuators. - 2020. - Vol. 9(3). - C. 90. - DOI:https://doi.org/10.3390/act9030090.
16. Impact of elevated temperature applied during low dose rate irradiation on the degradation of BICMOS operational amplifiers / A.S. Petrov, K.I. Tapero, V.N. Ulimov, A.M. Chlenov // Microelectronics Reliability. - 2018. - T. 88-90. - S. 961-964. - DOI:https://doi.org/10.1016/j.microrel.2018.07.081.
17. Kurapov, S.V. Generating a topological drawing of the flat part of a nonplanar graph / S.V. Kurapov, M.V. Davidovsky, A.V. Tolok // Scientific Visualization. - 2020. - T. 12, № 1. - S. 90-102. - DOI:https://doi.org/10.26583/sv.12.1.08.
18. Carlet, C. A larger class of cryptographic Boolean functions via a study of the Maiorana-McFarland construction / C. Carlet // Annual International Cryptology Conference. - 2002. - 549 p.
19. Sinicyn, V.A. Unifikaciya programmnogo obespecheniya apparatno-programmnyh ustroystv sovremennyh radioelektronnyh sistem / V.A. Sinicyn, E.A. Sinicyn // Innovacionnye tehnologii i tehnicheskie sredstva special'nogo naznacheniya : sbornik trudov chetyrnadcatoy obscherossiyskoy nauchno-prakticheskoy konferencii. V 2-h tomah. Ser. «Biblioteka zhurnala "Voenmeh. Vestnik BGTU»». - Sankt-Peterburg, 2022. - T. 1. - S. 194-198.
20. Zhang, W.G. Improving the lower bound on the maximum nonlinearity of 1-resilient Boolean functions and designing functions satisfying all cryptographic criteria / W.G. Zhang, P. Enes // Information Sciences. - 2017. - Vol. 376. - C. 21. - DOI:https://doi.org/10.1016/j.ins.2016.10.001.
21. Issledovanie nadezhnosti rezistorov v usloviyah vozdeystviya ioniziruyuschego izlucheniya / A.S. Ishkov, A.S. Petrov, G.A. Solodimova, D.V. Egorov // Izmerenie. Monitoring. Upravlenie. Kontrol'. - 2020. - № 1 (31). - S. 35-42. - DOI:https://doi.org/10.21685/2307-5538-2020-1-5.
22. Petrov, A.S. Radiacionno-inducirovannaya degradaciya bipolyarnyh tranzistorov pri vysokotemperaturnom gamma-obluchenii / A.S. Petrov, K.I. Tapero, S.K. Trufanov // Voprosy atomnoy nauki i tehniki. Seriya: Fizika radiacionnogo vozdeystviya na radioelektronnuyu apparaturu. - 2020. - № 1. - S. 5-8.
23. Chernikov, B.V. Kriterii i metody razmescheniya elementov dlya proektirovaniya BIS / B.V. Chernikov, A.V. Mozhzhuhina, E.A. Chernikova // Tehnologii razrabotki informacionnyh sistem TRIS-2020 : sbornik Materialy X Mezhdunarodnoy nauchno-tehnicheskoy konferencii. - Rostov-na-Donu, 2020. - S. 12-17.
24. Issledovanie metodov formalizovannogo predstavleniya topologii i mikroarhitektury integral'nyh mikroshem / K.V. Sazonov, D.A. Tavalinskiy, I.V. Abasheva, D.A. Hapilina // Informacionno-izmeritel'nye i upravlyayuschie sistemy. - 2020. - T. 18, № 3. - S. 69-76. - DOI:https://doi.org/10.18127/j20700814-202003-08.
25. Radiation effect on the polymer-based capacitive relative humidity sensors / I.V. Shchemerov, S.A. Legotin, P.B. Lagov [et al.] // Nuclear Engineering and Technology. -2022. - DOI:https://doi.org/10.1016/j.net.2022.02.027.
26. Radiacionno-orientirovannoe proektirovanie SVCh funkcional'nyh blokov priemoperedayuschih BIS na osnove geterostrukturnyh bipolyarnyh tranzistorov / N.A. Usachev, D.I.Sotskov , V.V.Elesin [i dr.] // Nanoindustriya. - 2019. - № S (89). - S. 427-429. - DOI:https://doi.org/10.22184/NanoRus.2019.12.89.427.429.
