Article

Article title A CIRCUIT DECOMPOSITION METHODS FOR SIMULATION IN VLSI CAD SYSTEMS
Authors V.V. Denisenko
Section SECTION II. AUTOMATION OF DESIGNING
Month, Year 09, 2008 @en
Index UDC 621.382
DOI
Abstract In this paper we proposed the method of coupling circuits synthesis that can be used for VLSI circuits decomposition for its simulation by parts using independent tools and algorithms. The method allow us to produce a lot of new coupling circuits and well-known circuits too. As an example we have synthesized five well-known and four new coupling circuits.

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Keywords relaxation methods, circuit decomposition, coupling circuits.
References 1. Денисенко В.В. Проблемы схемотехнического моделирования КМОП СБИС // Компоненты и технологии. – 2002, №3. − С. 74-78; продолжение: Компоненты и технологии.– 2002, №4. − С. 100-104.
2. Dmitriev-Zdorov V.B., Multicycle Generalization of Relaxation-Based Algorithms for Circuit and System Simulation. − GMD – Forschungzentrum Informationstechnik GmbH, Sankt Augustin, 1997. – 158 p.
3. Chen C.-J., Lee C.-J., Yu J.-L., Yang T.-N. A Backward-Traversing Method for Subcircuit Scheduling of Relaxation-Based Circuit Simulation // First International Conference on Innovative Computing, Information and Control, ICICIC '06, vol. 3, 30-01 Aug. 2006,
pp. 157-160.
4. Gander M.J., Ruehli A.E. Solution of large transmission line type circuits using a new optimized waveform relaxation partitioning // 2003 IEEE International Symposium on Electromagnetic Compatibility, vol. 2, 18-22 Aug. 2003, p. 636-641.
5. Канторович Л.В., Акилов Г.П. Функциональный анализ. – М.: Наука, 1977. – 742 с.
6. Circuit Analysis, Simulation and Design. VLSI Circuit Analysis and Simulation. Edited by A.E. Ruehli. − Elseviers Science Publishers B.V., New York, 1987. – 282 p.
7. Wang R., Wing O. Waveform relaxation on tightly coupled systems // IEEE Int. Symp. on Circuits and Systems, 1991, pp. 2280-2283.
8. Liu Y., Steurer M., Woodruff S., Ribeiro P.F. A novel power quality assessment using real time hardware-in-the-loop simulation // 11th International Conference on Harmonics and Quality of Power, 2004, pp. 690-695.
9. Denisenko V.V. Spice-like simulation using real devices instead of their mathematical models // Proc. 1998 Intern. Conf. on Modeling and Simulation of Microsystems, Semiconductors, Sensors and Actuators, Santa Clara, CA, USA, April 6-8, 1998, pp. 257-262.
10. Ren, W., Steurer M., Baldwin T.L. Improve the Stability and the Accuracy of Power Hardware-in-the-Loop Simulation by Selecting Appropriate Interface Algorithms // IEEE Transactions on Industry Applications, Vol. 44, No. 4, 2008, pp. 1286-1294.
11. Денисенко В.В. Топологическое преобразование источников тока в цепи с источниками напряжения (прямое и дуальное) // Методы и средств аналоговой и цифровой обработки информации. − Таллин: АН ЭССР, 1988. − С. 164-169.
12. Денисенко В.В. Частично-дуальное топологическое преобразование электрических цепей // Электронное моделирование. – 1987, №1. − С. 90-93.
13. Денисенко В.В. Топологический синтез обратимых электронных цепей // Электронное моделирование. – 1988, №3. − С. 22-27.

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