LISIM - A simulator for time domain simulation of lossy transmission line systems in a nonlinear circuit environment

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

Autoren

  • K. P. Dyck
  • H. Grabinski

Organisationseinheiten

Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Titel des SammelwerksVLSI and Computer Peripherals
Herausgeber/-innenWalter E. Proebster, Hans Reiner, W. Schilz, C. Butterworth, E. Lueder, al et al
Seiten5/82-85
PublikationsstatusVeröffentlicht - 1989
VeranstaltungCOMPEURO '89 - 3rd Annual European Computer Conference - Hamburg, Deutschland
Dauer: 8 Mai 198912 Mai 1989

Publikationsreihe

NameVLSI and Computer Peripherals

Abstract

A program for the computation of signal propagation on coupled lossy transmission-line systems, called LISIM, is presented. Since most line systems are driven by nonlinear circutis (e.g., CMOS inverters), the program works in the time domain. The kernel of LISIM is a new algorithm for very fast and accurate simulations of large lossy line systems. In order to handle nonlinear circuit environments, a special partitioning technique called physical motivated partitioning by lines (PPL) was applied. The motivation for applying PPL is the fact that different types of descriptions are necessary for line systems (described by partial differential equations) and networks (described by ordinary differential equations). Compared to general-purpose network-analysis programs, LISIM requires significantly less simulation time and does not tend to instabilities. From a comparison with SPICE it was found that LISIM operates about 200 times faster on the average.

ASJC Scopus Sachgebiete

Zitieren

LISIM - A simulator for time domain simulation of lossy transmission line systems in a nonlinear circuit environment. / Dyck, K. P.; Grabinski, H.
VLSI and Computer Peripherals. Hrsg. / Walter E. Proebster; Hans Reiner; W. Schilz; C. Butterworth; E. Lueder; al et al. 1989. S. 5/82-85 (VLSI and Computer Peripherals).

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

Dyck, KP & Grabinski, H 1989, LISIM - A simulator for time domain simulation of lossy transmission line systems in a nonlinear circuit environment. in WE Proebster, H Reiner, W Schilz, C Butterworth, E Lueder & A et al (Hrsg.), VLSI and Computer Peripherals. VLSI and Computer Peripherals, S. 5/82-85, COMPEURO '89 - 3rd Annual European Computer Conference, Hamburg, Deutschland, 8 Mai 1989. https://doi.org/10.1109/CMPEUR.1989.93489
Dyck, K. P., & Grabinski, H. (1989). LISIM - A simulator for time domain simulation of lossy transmission line systems in a nonlinear circuit environment. In W. E. Proebster, H. Reiner, W. Schilz, C. Butterworth, E. Lueder, & A. et al (Hrsg.), VLSI and Computer Peripherals (S. 5/82-85). (VLSI and Computer Peripherals). https://doi.org/10.1109/CMPEUR.1989.93489
Dyck KP, Grabinski H. LISIM - A simulator for time domain simulation of lossy transmission line systems in a nonlinear circuit environment. in Proebster WE, Reiner H, Schilz W, Butterworth C, Lueder E, et al A, Hrsg., VLSI and Computer Peripherals. 1989. S. 5/82-85. (VLSI and Computer Peripherals). doi: 10.1109/CMPEUR.1989.93489
Dyck, K. P. ; Grabinski, H. / LISIM - A simulator for time domain simulation of lossy transmission line systems in a nonlinear circuit environment. VLSI and Computer Peripherals. Hrsg. / Walter E. Proebster ; Hans Reiner ; W. Schilz ; C. Butterworth ; E. Lueder ; al et al. 1989. S. 5/82-85 (VLSI and Computer Peripherals).
Download
@inproceedings{695c763dba0f498b9606a74baa3fc6bf,
title = "LISIM - A simulator for time domain simulation of lossy transmission line systems in a nonlinear circuit environment",
abstract = "A program for the computation of signal propagation on coupled lossy transmission-line systems, called LISIM, is presented. Since most line systems are driven by nonlinear circutis (e.g., CMOS inverters), the program works in the time domain. The kernel of LISIM is a new algorithm for very fast and accurate simulations of large lossy line systems. In order to handle nonlinear circuit environments, a special partitioning technique called physical motivated partitioning by lines (PPL) was applied. The motivation for applying PPL is the fact that different types of descriptions are necessary for line systems (described by partial differential equations) and networks (described by ordinary differential equations). Compared to general-purpose network-analysis programs, LISIM requires significantly less simulation time and does not tend to instabilities. From a comparison with SPICE it was found that LISIM operates about 200 times faster on the average.",
author = "Dyck, {K. P.} and H. Grabinski",
year = "1989",
doi = "10.1109/CMPEUR.1989.93489",
language = "English",
isbn = "0818619406",
series = "VLSI and Computer Peripherals",
pages = "5/82--85",
editor = "Proebster, {Walter E.} and Hans Reiner and W. Schilz and C. Butterworth and E. Lueder and {et al}, al",
booktitle = "VLSI and Computer Peripherals",
note = "COMPEURO '89 - 3rd Annual European Computer Conference ; Conference date: 08-05-1989 Through 12-05-1989",

}

Download

TY - GEN

T1 - LISIM - A simulator for time domain simulation of lossy transmission line systems in a nonlinear circuit environment

AU - Dyck, K. P.

AU - Grabinski, H.

PY - 1989

Y1 - 1989

N2 - A program for the computation of signal propagation on coupled lossy transmission-line systems, called LISIM, is presented. Since most line systems are driven by nonlinear circutis (e.g., CMOS inverters), the program works in the time domain. The kernel of LISIM is a new algorithm for very fast and accurate simulations of large lossy line systems. In order to handle nonlinear circuit environments, a special partitioning technique called physical motivated partitioning by lines (PPL) was applied. The motivation for applying PPL is the fact that different types of descriptions are necessary for line systems (described by partial differential equations) and networks (described by ordinary differential equations). Compared to general-purpose network-analysis programs, LISIM requires significantly less simulation time and does not tend to instabilities. From a comparison with SPICE it was found that LISIM operates about 200 times faster on the average.

AB - A program for the computation of signal propagation on coupled lossy transmission-line systems, called LISIM, is presented. Since most line systems are driven by nonlinear circutis (e.g., CMOS inverters), the program works in the time domain. The kernel of LISIM is a new algorithm for very fast and accurate simulations of large lossy line systems. In order to handle nonlinear circuit environments, a special partitioning technique called physical motivated partitioning by lines (PPL) was applied. The motivation for applying PPL is the fact that different types of descriptions are necessary for line systems (described by partial differential equations) and networks (described by ordinary differential equations). Compared to general-purpose network-analysis programs, LISIM requires significantly less simulation time and does not tend to instabilities. From a comparison with SPICE it was found that LISIM operates about 200 times faster on the average.

UR - http://www.scopus.com/inward/record.url?scp=0024915711&partnerID=8YFLogxK

U2 - 10.1109/CMPEUR.1989.93489

DO - 10.1109/CMPEUR.1989.93489

M3 - Conference contribution

AN - SCOPUS:0024915711

SN - 0818619406

T3 - VLSI and Computer Peripherals

SP - 5/82-85

BT - VLSI and Computer Peripherals

A2 - Proebster, Walter E.

A2 - Reiner, Hans

A2 - Schilz, W.

A2 - Butterworth, C.

A2 - Lueder, E.

A2 - et al, al

T2 - COMPEURO '89 - 3rd Annual European Computer Conference

Y2 - 8 May 1989 through 12 May 1989

ER -