SPICE is a general-purpose circuit simulation program for nonlinear dc, nonlinear transient, and linear ac analyses. Circuits may contain resistors, capacitors, inductors, mutual inductors, independent voltage and current sources, four types of dependent sources, lossless and lossy transmission lines (two separate implementations), switches, uniform distributed RC lines, and the five most common semiconductor devices: diodes, BJTs, JFETs, MESFETs, and MOSFETs. SPICE originates from the EECS Department of the University of California at Berkeley.

References in zbMATH (referenced in 22 articles )

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  1. Mobayen, Saleh; Kingni, Sifeu Takougang; Pham, Viet-Thanh; Nazarimehr, Fahimeh; Jafari, Sajad: Analysis, synchronisation and circuit design of a new highly nonlinear chaotic system (2018)
  2. Kuznetsov, Nikolay V.; Leonov, G. A.; Yuldashev, M. V.; Yuldashev, R. V.: Hidden attractors in dynamical models of phase-locked loop circuits: limitations of simulation in MATLAB and SPICE (2017)
  3. Pham, Viet-Thanh; Vaidyanathan, Sundarapandian; Volos, Christos K.; Jafari, Sajad; Wang, Xiong: A chaotic hyperjerk system based on memristive device (2016)
  4. Siderskiy, Valentin; Kapila, Vikram: Parameter matching using adaptive synchronization of two Chua’s oscillators (2014)
  5. Górecki, Krzysztof; Stepowicz, Witold J.: Electrothermal model of optocoupler for SPICE (2009)
  6. Tuma, Tadej; Bürmen, Árpád: Circuit simulation with SPICE OPUS. Theory and practice (2009)
  7. Gruosso, Giambattista; Brambilla, Angelo: Magnetic core model for circuit simulations including losses and hysteresis (2008)
  8. Zitzmann, Martin L.; Weigel, Robert: Fast and efficient methods for circuit-based automotive EMC simulation (2008)
  9. Chen, Yeongchin; Wu, Menqjiun; Liu, Weikuo: PSPICE controlled-source models of analogous circuit for Langevin type piezoelectric transducer (2007)
  10. Zarȩbski, Janusz; Górecki, Krzysztof: The electrothermal macromodel of the MA7800 monolithic positive-voltage regulators family (2006)
  11. Günter, Michael; Feldmann, Uwe; ter Maten, Jan: Modelling and discretization of circuit problems (2005)
  12. Heroux, Michael A.; Bartlett, Roscoe A.; Howle, Vicki E.; Hoekstra, Robert J.; Hu, Jonathan J.; Kolda, Tamara G.; Lehoucq, Richard B.; Long, Kevin R.; Pawlowski, Roger P.; Phipps, Eric T.; Salinger, Andrew G.; Thornquist, Heidi; Tuminaro, Ray S.; Willenbring, James M.; Williams, Alan; Stanley, Kendall S.: An overview of the Trilinos project. (2005)
  13. Houben, S. H. M. J.; Maubach, J. M. L.; Mattheij, R. M. M.: An accelerated Poincaré-map method for autonomous oscillators (2003)
  14. Martin, Dale E.; Radhakrishnan, Radharamanan; Rao, Dhananjai M.; Chetlur, Malolan; Subramani, Krishnan: Analysis and simulation of mixed-technology VLSI systems (2002)
  15. Demir, Alper; Sangiovanni-Vicentelli, Alberto: Analysis and simulation of noise in nonlinear electronic circuits and systems (1997)
  16. Horno, J.; González-Fernández, C. F.; Hayas, A.: The network method for solutions of oscillating reaction-diffusion systems (1995)
  17. Kundert, Kenneth S.: The designer’s guide to SPICE and SPECTRE (1995)
  18. Marszalek, Wieslaw; Trzaska, Zdzislaw W.: Analysis of implicit hyperbolic multivariable systems (1995)
  19. Rashid, Muhammad H.: SPICE for circuits and electronics using PSpice. (1995)
  20. Tuinenga, Paul W.: SPICE - A guide to circuit simulation and analysis using PSpice (1994)

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