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## Re: ocs 0.1.3 released

**From**: |
c. |

**Subject**: |
Re: ocs 0.1.3 released |

**Date**: |
Wed, 26 Dec 2012 18:47:00 +0100 |

On 26 Dec 2012, at 00:16, rpicault wrote:
>* what are the details of mathematical background under ocs*
Basically OCS uses a variant of charge/flux based Modified Nodal Analysis (MNA)
that allows the element evaluators to be implemented independently of the time
stepping method used to solve the DAE system.
The general form of the mathematical problem statement is briefly described in
the document inside the doc directory of the OCS package.
More details can be found in these papers:
[1] M. Culpo and C. de Falco, “Dynamical iteration schemes for coupled
simulation in nanoelectronics,” in Proceedings of the 79th GAMM meeting, vol. 8
of Proc. Appl. Math. Mech. (PAMM), pp. 10065–10068, WILEY-VCH Verlag GmbH & Co.
KGaA, Weinheim, 2008.
[2] C. de Falco and M. Culpo, “Dynamical iteration schemes for multiscale
simulation in nanoelectronics,” in Proceedings of the 79th GAMM meeting, vol. 8
of Proc. Appl. Math. Mech. PAMM, pp. 10061 – 10064, WILEY-VCH Verlag GmbH & Co.
KGaA, Weinheim, 2008.
[3] M. Culpo, C. de Falco, G. Denk, and S. Voigtmann, “Automatic thermal
network extraction and multiscale electro-thermal simulation,” in Scientific
Computing in Electrical Engineering SCEE 2008 (J. Roos and L. R. Costa, eds.),
vol. 14 of Mathematics in Industry, pp. 281–288, Springer-Verlag, 2009.
[4] G. Alí, A. Bartel, M. Culpo, and C. de Falco, “Analysis of a pde
thermal element model for electrothermal circuit simulation,” in Proceedings of
Scientific Computing in Electrical Engineering (SCEE) 2008 (J. Roos and L. R.
Costa, eds.), vol. 14 of Mathematics in Industry, pp. 273–280, Springer-Verlag,
2010.
And in the PhD thesis of M. Culpo at University of Wuppertal.
HTH,
c.