Accelerating transient analysis using runtime-generated abstract circuit models

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Autoren

  • D. Zaum
  • S. Hoelldampf
  • I. Neumann
  • S. Schmidt
  • M. Olbrich
  • E. Barke

Organisationseinheiten

Externe Organisationen

  • Continental Automotive GmbH
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Titel des SammelwerksSM2ACD 2008 - 10th International Workshop on Symbolic and Numerical Methods, Modeling and Applications to Circuit Design, Proceedings
Seiten210-215
Seitenumfang6
PublikationsstatusVeröffentlicht - 2008
Veranstaltung10th International Workshop on Symbolic and Numerical Methods, Modeling and Applications to Circuit Design, SM2ACD 2008 - Erfurt, Deutschland
Dauer: 7 Okt. 20088 Okt. 2008

Publikationsreihe

NameSM2ACD 2008 - 10th International Workshop on Symbolic and Numerical Methods, Modeling and Applications to Circuit Design, Proceedings

Abstract

Steadily growing design complexity makes traditional analog simulators become decreasingly feasible for mixed-signal verification. Rising the abstraction level is among the most promising approaches to overcome these limitations. However, detailed descriptions of analog components are always capable of slowing down system simulation dramatically. This paper presents a novel approach to accelerate the transient simulation of analog mixed-signal systems by generating and employing abstract circuit models during runtime. Nonlinear elements can be handled by piecewise linear descriptions. A SystemC interface will allow integration within various simulation environments.

ASJC Scopus Sachgebiete

Zitieren

Accelerating transient analysis using runtime-generated abstract circuit models. / Zaum, D.; Hoelldampf, S.; Neumann, I. et al.
SM2ACD 2008 - 10th International Workshop on Symbolic and Numerical Methods, Modeling and Applications to Circuit Design, Proceedings. 2008. S. 210-215 (SM2ACD 2008 - 10th International Workshop on Symbolic and Numerical Methods, Modeling and Applications to Circuit Design, Proceedings).

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Zaum, D, Hoelldampf, S, Neumann, I, Schmidt, S, Olbrich, M & Barke, E 2008, Accelerating transient analysis using runtime-generated abstract circuit models. in SM2ACD 2008 - 10th International Workshop on Symbolic and Numerical Methods, Modeling and Applications to Circuit Design, Proceedings. SM2ACD 2008 - 10th International Workshop on Symbolic and Numerical Methods, Modeling and Applications to Circuit Design, Proceedings, S. 210-215, 10th International Workshop on Symbolic and Numerical Methods, Modeling and Applications to Circuit Design, SM2ACD 2008, Erfurt, Deutschland, 7 Okt. 2008.
Zaum, D., Hoelldampf, S., Neumann, I., Schmidt, S., Olbrich, M., & Barke, E. (2008). Accelerating transient analysis using runtime-generated abstract circuit models. In SM2ACD 2008 - 10th International Workshop on Symbolic and Numerical Methods, Modeling and Applications to Circuit Design, Proceedings (S. 210-215). (SM2ACD 2008 - 10th International Workshop on Symbolic and Numerical Methods, Modeling and Applications to Circuit Design, Proceedings).
Zaum D, Hoelldampf S, Neumann I, Schmidt S, Olbrich M, Barke E. Accelerating transient analysis using runtime-generated abstract circuit models. in SM2ACD 2008 - 10th International Workshop on Symbolic and Numerical Methods, Modeling and Applications to Circuit Design, Proceedings. 2008. S. 210-215. (SM2ACD 2008 - 10th International Workshop on Symbolic and Numerical Methods, Modeling and Applications to Circuit Design, Proceedings).
Zaum, D. ; Hoelldampf, S. ; Neumann, I. et al. / Accelerating transient analysis using runtime-generated abstract circuit models. SM2ACD 2008 - 10th International Workshop on Symbolic and Numerical Methods, Modeling and Applications to Circuit Design, Proceedings. 2008. S. 210-215 (SM2ACD 2008 - 10th International Workshop on Symbolic and Numerical Methods, Modeling and Applications to Circuit Design, Proceedings).
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AU - Neumann, I.

AU - Schmidt, S.

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