Titre :	Circuit Simulation
Type de document :	texte imprimé
Auteurs :	Farid N. Najm, Auteur
Editeur :	Hoboken,New jersey : John Wiley & Sons, Inc
Année de publication :	2010
Importance :	318 p.
Présentation :	couv. ill. en coul., ill.
Format :	23,5 cm.
ISBN/ISSN/EAN :	978-0-470-53871-5
Langues :	Anglais (eng)
Catégories :	AUTOMATISME
Index. décimale :	25-04 Théorie des systèmes:systèmes asservis
Résumé :	Circuit Simulation gives a clear description of the numerical techniques and algorithms that are part of modern circuit simulators, with a focus on the most commonly used simulation modes: DC analysis and transient analysis. Tested in a graduate course on circuit simulation at the University of Toronto, this unique text provides the reader with sufficient detail and mathematical rigor to write his/her own basic circuit simulator. There is detailed coverage throughout of the mathematical and numerical techniques that are the basis for the various simulation topics, which facilitates a complete understanding of practical simulation techniques. In addition, Circuit Simulation: -Explores a number of modern techniques from numerical analysis that are not synthesized anywhere else -Covers network equation formulation in detail, with an emphasis on modified nodal analysis -Gives a comprehensive treatment of the most relevant aspects of linear and nonlinear system solution techniques -States all theorems without proof in order to maintain the focus on the end-goal of providing coverage of practical simulation methods -Provides ample references for further study -Enables newcomers to circuit simulation to understand the material in a concrete and holistic manner With problem sets and computer projects at the end of every chapter, Circuit Simulation is ideally suited for a graduate course on this topic. It is also a practical reference for design engineers and computer-aided design practitioners, as well as researchers and developers in both industry and academia.
Note de contenu :	Table of contents 1 Introduction 1.1 Device Equations 1.2 Equation Formulation 1.3 Solution Techniques 1.4 Circuit Simulation Flow 2 Network Equations 2.1 Elements and Networks 2.2 Topological Constraints 2.3 Cycle Space and Bond Space 2.4 Formulation of Linear Algebraic Equations 2.5 Formulation of Linear Dynamic Equations 3 Solution of Linear Algebraic Circuit Equations 3.1 Direct Methods 3.2 Accuracy and Stability of GE 3.3 Indirect/Iterative Methods 3.4 Partitioning Techniques 3.5 Sparse Matrix Techniques 4 Solution of Nonlinear Algebraic Circuit Equations 4.1 Nonlinear Network Equations 4.2 Solution Techniques 4.3 Application to Circuit Simulation 4.4 Quasi-Newton Methods in Simulation 5 Solution of Differential Circuit Equations 5.1 Differential Network Equations 5.2 ODE Solution Techniques 5.3 Accuracy of LMS Methods 5.4 Stability of LMS Methods 5.5 Trapezoidal Ringing 5.6 Variable Time-Step Methods 5.7 Application to Circuit Simulation Index

Circuit Simulation [texte imprimé] / Farid N. Najm, Auteur . - Hoboken,New jersey : John Wiley & Sons, Inc, 2010 . - 318 p. : couv. ill. en coul., ill. ; 23,5 cm.
ISBN : 978-0-470-53871-5
Langues : Anglais (eng)

Catégories :	AUTOMATISME
Index. décimale :	25-04 Théorie des systèmes:systèmes asservis
Résumé :	Circuit Simulation gives a clear description of the numerical techniques and algorithms that are part of modern circuit simulators, with a focus on the most commonly used simulation modes: DC analysis and transient analysis. Tested in a graduate course on circuit simulation at the University of Toronto, this unique text provides the reader with sufficient detail and mathematical rigor to write his/her own basic circuit simulator. There is detailed coverage throughout of the mathematical and numerical techniques that are the basis for the various simulation topics, which facilitates a complete understanding of practical simulation techniques. In addition, Circuit Simulation: -Explores a number of modern techniques from numerical analysis that are not synthesized anywhere else -Covers network equation formulation in detail, with an emphasis on modified nodal analysis -Gives a comprehensive treatment of the most relevant aspects of linear and nonlinear system solution techniques -States all theorems without proof in order to maintain the focus on the end-goal of providing coverage of practical simulation methods -Provides ample references for further study -Enables newcomers to circuit simulation to understand the material in a concrete and holistic manner With problem sets and computer projects at the end of every chapter, Circuit Simulation is ideally suited for a graduate course on this topic. It is also a practical reference for design engineers and computer-aided design practitioners, as well as researchers and developers in both industry and academia.
Note de contenu :	Table of contents 1 Introduction 1.1 Device Equations 1.2 Equation Formulation 1.3 Solution Techniques 1.4 Circuit Simulation Flow 2 Network Equations 2.1 Elements and Networks 2.2 Topological Constraints 2.3 Cycle Space and Bond Space 2.4 Formulation of Linear Algebraic Equations 2.5 Formulation of Linear Dynamic Equations 3 Solution of Linear Algebraic Circuit Equations 3.1 Direct Methods 3.2 Accuracy and Stability of GE 3.3 Indirect/Iterative Methods 3.4 Partitioning Techniques 3.5 Sparse Matrix Techniques 4 Solution of Nonlinear Algebraic Circuit Equations 4.1 Nonlinear Network Equations 4.2 Solution Techniques 4.3 Application to Circuit Simulation 4.4 Quasi-Newton Methods in Simulation 5 Solution of Differential Circuit Equations 5.1 Differential Network Equations 5.2 ODE Solution Techniques 5.3 Accuracy of LMS Methods 5.4 Stability of LMS Methods 5.5 Trapezoidal Ringing 5.6 Variable Time-Step Methods 5.7 Application to Circuit Simulation Index