COMPACT MODELS FOR INTERGRATED CIRCUIT DESIGN

eebao

下面是简介啦，可以看一下是否需要


Chapter  1 provides an overview of compact transistor and interconnec-tion models, a brief history of compact MOSFET models, and the motiva-tion for compact models for very-large-scale-integrated (VLSI) circuit CAD. Chapter 2 reviews of basic semiconductor physics and pn-junction operations.
Chapter  3 presents MOS capacitor systems and the basic theory of two terminal devices. This chapter provides the background for developing four terminal MOSFET compact models for VLSI circuit CAD.
Chapter 4 describes the basic theory of long channel MOSFETs, including the Pao-Sah model, the charge-sheet model, and earlier generations of com-pact models. Chapter  5 provides detailed mathematical steps to derive the industry standard Berkeley Short Channel Insulated-Gate MOSFET version 4 (BSIM4) compact model. Chapter 5 also presents the parasitic models associ-ated with MOSFET devices, including source/drain diode compact models. Chapter  6 presents the dynamic behavior and compact MOSFET intrinsic capacitance model. Chapter 7 describes the compact MOSFET modeling tech-niques for noise and radio-frequency circuit CAD.
Chapter  8 is dedicated to compact models for process variability analy-sis. This chapter describes the sources of variability, circuit model for pro-cess variability, and formulation of statistical models for variability-aware VLSI circuit design. This chapter also presents the techniques for mitigating the risk of process variability in advanced nanoscale VLSI circuits by novel device and process architectures.
Chapter  9 describes the basic theory and compact model for multi-gate transistors FinFETs and UTB-SOI MOSFETs, along with model parameter extraction procedures. Chapter 10 introduces compact models beyond CMOS devices including TFET.
Chapter 11 presents BJT compact models. Similar to Chapters 4 and 5, in Chapter 11, the industry standard BJT models have been derived from basic semiconductor theory and first generation models for easy understanding by beginners while retaining the rigor for the experts in the field.
Chapter  12 includes examples of compact model libraries for industry standard circuit simulation tools, calling the model in the circuit simulation netlist (input file), and circuit simulation techniques to use the generated models.
An extensive set of references is provided at the end of this book to help the readers identify the evolution and development of compact models for VLSI circuit design and analysis.

lhyi

谢谢分享!

lans0625

thanks

xuleiwx

好书，感谢分享

kuan

nice book, thanks

denap0214

Thanks for sharing!