Applied and Computational Mathematics (ACM)


S. Lampe, H. G. Brachtendorf, E. J. W. Maten, S. P. Onneweer and R. Laur, "Robust Limit Cycle Calculations of Oscillators" in Lecture Notes in Computational Science and Engineering, Springer Berlin Heidelberg, 2001, pp. 233--240.
M. Günther and P. Rentrop, "PDAE-Netzwerkmodelle in der elektrischen Schaltungssimulation", pp. 31-38, 2001. Frankfurt.
M. Günther and M. Hoschek, "Partitionierung Strategies in Circuit Simulation", 2001.
M. Günther, "Partielle differential-algebraische Systeme in der numerischen Zeitbereichsanalyse elektrischer Schaltungen", VDI-Verlag, 2001.
G. Denk, M. Günther and B. Simeon, "Numerische Simulation in Chip-Design und Fahrzeugtechnik", 2001.
S. H. M. J. Houben, E. J. W. Maten, J. M. Maubach and J. M. F. Peters, "Novel time-domain methods for free-running oscillators" in ECCTD'01 - Proceedings of the 15TH European Conference on Circuit Theory and Design, 2001, pp. III-393 - III-396.
M. Günther, A. Kvaern{\o} and P. Rentrop, "Multirate partitioned runge-kutta methods", BIT Numerical Mathematics, vol. 41, pp. 504--514, 2001. Kluwer Academic Publishers.
M. G\"unther, A. Kv{\ae}rno and P. Rentrop, "Multirate Partitioned {Runge-Kutta} Methods", BIT, vol. 41, no. 3, pp. 504--515, 2001.
A. Bartel, "Multirate {ROW}-Methods of Mixed Type for Circuit Simulation" in Scientic Computing in Electrical Engineering, Lecture Notes in Computational Science and Engineering, U. {van Rienen} and M. Günther and D. Hecht, Eds. Springer, 2001, pp. 241--249.
A. Bartel, "Multirate {ROW} methods of mixed type for circuit simulation" in Scientific Computing in Electrical Engineering: Proceedings of the 3rd International Workshop, August 20--23, 2000, Warnemünde, Germany, 2001, pp. 241--249.
M. Günther, "Modelling transmission lines effects in integrated circuits by a mixed system of DAEs and PDEs", 2001.
M. Günther, "A joint DAE/PDE model for interconnected electrical networks", Mathematical and Computer Modelling of Dynamical Systems, vol. 6, no. 2, pp. 114--128, 2000. Taylor \& Francis.
M. Günther, "Semidiscretization may act like a deregularization", Mathematics and computers in simulation, vol. 53, no. 4-6, pp. 293--301, 2000. North-Holland.
M. Günther and U. Feldmann, "CAD based electric circuit modeling in industry. part I: Mathematical structure and index of network equations", 2000.
G. Denk and M. Günther, "The influence of MOSFET model and network equations on circuit simulation", 2000.
A. Bartel, "Generalised multirate: Two {ROW}-type versions for circuit simulation", Unclassified NatLab Report, Eindhoven, vol. 804, pp. 2000, 2000.
M. Günther and M. Hoschek, "Modified ROW methods for electric circuit simulation packages", 2000.
M. Günther and P. Rentrop, "Numerical simulation of electrical circuits", GAMM Mitteilungen, vol. 23, no. 1-2, pp. 51--77, 2000.
M. Günther and A. Ostermann, "Numerical treatment of ordinary and algebra-differential equations", 2000.
R. Winkler, "On logarithmic norms for differential algebraic equations" in Preprint 00-17, 2000.
M. Günther and B. Simeon, "Praktikum Wissenschaftliches Rechnen auf dem HRZ-Vektorparallelrechner VPP", 2000.
G. Denk, U. Feldmann, M. Günther and P. Rentrop, "Topics in Electric Circuit Simulation", 2000.
A. Bartel, "Generalised Multirate — Two {ROW}-type Versions for Circuit simulation" in Unclas- sified NatLab Report No. 2000/804, Philips Electronics, 2000.
C. Denk, M. Günther, M. Kahlert, M. Paffrath, P. Rentrop, U. Wever and Q. Zheng, "Recent advances in electronic industry by numerical simulation", 2000.
A. Gilg and M. Günther, "Numerical circuit simulation", SURVEYS ON MATHEMATICS FOR INDUSTRY, vol. 8, pp. 165--169, 1999. SPRINGER-VERLAG.

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