Preface.Introduction: Wladek Grabinski, GMC Suisse, Daniel Tomaszewski, ITE WarsawChapter 1: Numerical Cogenda TCAD MOSFET Device Simulations.Tutorial to Genius Device Simulator. Physics of Device Simulation. Numerical Method in Device Simulation. Device simulation: A MOS example.Chapter 2: Semiconductor Device Simulation Using DEVSIM; Juan E. Sanchez. Introduction. BJT Physics. BJT Simulation. Conclusion and Future Work.Chapter 3: Device Level Parameter Extraction; Daniel Tomaszewski, Wladek Grabinski.Introduction. Parameter extractors overview. General optimization algorithms. Profile1d: open source extractor. Examples: Diode, MOSCAP, BJT, MOSFET, IC Subcircuit. Summary. Appendix: List Profile1d  commands.Chapter 4: Schematic entry and circuit simulation with Qucs; Mike Brinson. Introduction. The Qucs graphical user interface. Basic principles of circuit schematic capture. Qucs parameter sweep techniques. Qucs small signal AC circuit and noise simulation. Qucs transient simulation. Qucs subcircuits. Including SPICE netlists in Qucs schematic diagrams. Qucs post-simulation data processing. Summary. Chapter 5: Qucs modeling and simulation of analog/RF devices and circuits; Mike Brinson. Introduction. Circuit and system modeling using macromodels. Qucs equation-defined device models. Qucs and QucsStudio compact model development with the ADMS Verilog-A model synthesizer/compiler. QucsStudio implementation. More RF examples. From Qucs to QucsStudio: future directions in analog simulation and device modeling. SummaryChapter 6: Simulations of Digital IC Blocks; Zia Abbas, Antonio Mastrandrea, Francesco Menichelli and Mauro Olivieri. Basics on Nano-scale Digital CMOS Analysis: Propagation Delay and Static Power. Basic Ngspice Delay and Leakage Current Analysis. Automated Delay Characterization of CMOS Standard Cells. Automated Leakage Current Characterization In CMOS Standard Cells. Additional Material.Chapter 7: Hybrid TCAD Circuit Simulations. Chapter 8: Standardized Data Exchange For Device Modeling Tools; Franz Sischka.General Requirements For A Data Format Standard. Most Common Measurement Data Formats For Device Modeling. MDM (Measured Data Management) Format. Summary. Index.

The aim of this book is to highlight the benefits of a higher interoperability between Technology Computer-Aided Design and Electronic Design Automation, focusing on specifically selected open source tools for compact modeling.   Due to the tremendous developments in semiconductor technology in recent years, device level modelling and integrated circuit design have become intimately related. However, they have been traditionally disconnected up to the circuit level. This book consists of a set of extended user manuals guiding the reader from the usual software, from multidimensional numerical process and device simulations, through compact model development and its Verilog-A standardization to carefully selected IC designs for analog, radio frequency and digital applications.   Bringing together contributions from academic and industrial researchers and engineers, the book forms a valuable reference for students and those working in the field.

The first book to explore Open Source TCAD/EDA tools for compact modelingFeatures contributions from leading international researchers and professionals in the fieldOffers a multi-disciplinary approach which will appeal to physicists, engineers and computer scientists