Taur, Y. & Ning, T. H.
Fundamentals of Modern VLSI Devices 2nd ed.
Cambridge University Press 2009.8
680 pp.(H)
ISBN 0-521-83294-2
11,000円
Contents
1. Introduction/ 2. Basic device physics/ 3. MOSFET devices/ 4. CMOS device design/ 5. CMOS performance factors/ 6. Bipolar devices/ 7. Bipolar device design/ 8. Bipolar performance factors/ 9. Memory devices/ 10. Silicon-on-insulator devices/ Appendices: 1. CMOS process flow/ 2. Outline of a process for fabricating modern n-p-n bipolar transistors/ 3. Einstein relations/ 4. Spatial variation of quasi-Fermi potentials/ 5. Generation and recombination processes and space-charge-region current/ 6. Diffusion capacitance of a p-n diode/ 7. Image-force-induced barrier lowering/ 8. Electron-initiated and hole-initiated avalanche breakdown/ 9. An analytical solution for the short-channel effect in subthreshold/ 10. Generalized MOSFET scale length model/ 11. Drain current model of a ballistic MOSFET/ 12. Quantum-mechanical solution in weak inversion/ 13. Power gain of a two-port network/ 14. Unity-gain frequencies of a MOSFET transistor/ 15. Determination of emitter and base series resistances/ 16. Intrinsic-base resistance/ 17. Energy-band diagram of a Si-SiGe n-p diode/ 18. fr and fmax of a bipolar transistor/ References/ Index/
* The first edition has been widely adopted as a standard textbook in microelectronics in many major US universities and worldwide. The internationally-renowned authors highlight the intricate interdependencies and subtle tradeoffs between various practically important device parameters, and also provide an in-depth discussion of device scaling and scaling limits of CMOS and bipolar devices. *
Lim, S. K.
Practical Problems in VLSI Physical Design Automation
Springer-Verlag 2008.10
364 pp.(H)
ISBN 1-4020-6626-0
15,800円
Contents
1.Clustering/ 2.Partitioning/ 3.Floorplanning/ 4.Placement/ 5.Steiner Routing/ 6.Multi-Net Routing/ References/ Index/
* Practical Problems in VLSI Physical Design Automationハcontains problems and solutions related to various well-known algorithms used in VLSI physical design automation. Dr. Lim believes that the best way to learn new algorithms is to walk through a small example by hand. This knowledge will greatly help understand, analyze, and improve some of the well-known algorithms. *
Xie, Y. et al. ed.
Three-Dimensional Integrated Circuit Design
EDA, Design and Microarchitectures
(3次元集積回路の設計)
Springer-New York 2009.10
300 pp.(H)
ISBN 1-4419-0783-1
16,200円
Contents
1. Introduction/ 2. 3D Process Technology Considerations/ 3. Thermal and Power Delivery Challenges in 3D Integrated Circuits/ 4. Thermal-Aware 3D Floorplan/ 5. Thermal-Aware 3D Placement/ 6. Thermal Via Insertion and Thermally-aware Routing in 3D ICs/ 7. 3D Microprocessor Design/ 8. 3D Network-on-chip Architecture/ 9. PicoServer: Using 3D Stacking Technology To Build Energy Efficient Servers/ 10. System Level 3D IC Cost Analysis and Design Exploration/ Index/ *
Lombardi, F. & Huang, J.
Design and Test of Digital Circuits by Quantum-Dot Cellular Automata
量子ドット・セル・オートマトンによるデジタル回路の設計
Artech House 2008.
382 pp.(H)
ISBN 1-59693-267-8
14,200円
Contents
1.Introduction − Challenges/ 2.Overview of Nanotechnology − Nanoelectronic Devices/ 3.QCA − QCA Implementation/ 4.QCA Combinational Logic Design − Conventional Gate-Based Combinational Logic Design/ 5.Logic-Level Testing − Stuck-at Test Properties of MV-Based Circuits/ 6.Defect Characterization of Devices − Simulation Engines/ 7.AND-OR-Inverter (AOI) Gate − AOI Gate Characterization/ 8.Two-Dimensional Schemes for Clocking/Timing of QCA Circuits − Clocking Analysis/ 9.Tile-Based QCA Design − QCA Design by Tiling/ 10.Sequential Circuit Design in QCA − RS Flip-Flop and D Flip-Flop in QCA/ 11.QCA Memory − Introduction/ 12.Implementing Universal Logic in QCA − Universal Gate/ Index/
* This detailed reference characterizes various defect and failure mechanisms in both combinational and sequential QCA devices. The book presents new design methodologies that have been proposed for QCA and describes clocking schemes that reduce kink errors in QCA. This comprehensive volume identifies and investigates unique QCA timing constraints and sequential designs.
* As a basis for CAD implementation, the book proposes algorithms that assign clocking zones and stretch paths for delay matching. Additionally, you find a comprehensive nanotechnology survey, detailing the advantages and disadvantages of various technologies. Other key topics include tile-based modular design, new memory architectures, and future QCA research directions. *
Harter, A. C.
Three-Dimensional Integrated Circuit Layout
3次元集積回路の配置
Cambridge University Press 2009.8
240 pp.(P) *Now in paper edition
ISBN 0-521-11816-6
6,800円
Contents
1. Two-dimensional chip design/ 2. Three-dimensional chip technology/ 3. Three-dimensional circuit topology/ 4. Three-dimensional cell tesselation/ 5. Three-dimensional abutment system/ 6. Abutment system configuration/ 7. Abutment system evaluation/ Conclusions/ Appendices/ Index/
* The theory and design of integrated circuits has moved forward in leaps and bounds in recent years. This book concentrates on the design of three-dimensional, rather than traditional two-dimensional, circuits. The theory behind such circuits, together with experimental results, are presented in detail. *
Wing, O.
Classical Circuit Theory
古典的回路理論
Springer-Verlag 2009.
296 pp.(H)
ISBN 0-387-09739-2
14,800円
Contents
1.Introduction/ 2.Fundamentals/ 3.Circuit Dynamics/ 4.Properties in the Frequency Domain/ 5.The Impedance Function/ 6.Synthesis of Two-Element-Kind Impedances/ 7.Synthesis of RLC Impedances/ 8.Scattering Matrix/ 9.Synthesis of Transfer Functions/ 10.Filter Design/ 11.Circuit Design by Optimization/ 12.All-Pass Circuits/ Index/
* Classical Circuit Theory provides readers with the fundamental, analytic properties of linear circuits that are important to the design of conventional and non-conventional circuits in modern communication systems. These properties include the relations between phase and gain, between the real and imaginary parts, and between phase and group delay. They also include the fundamental limitations on gain and bandwidth, which are important in broadband matching in amplifier design. The idea that an impedance function is a positive real function and that a transfer function is bounded-real, forms the basis for analytic design of all conventional filters. At the same time, mathematical programming tools are now widely available so that design of non-conventional circuits by optimization is but a few mouse clicks away. *
803-10 登録日 09.10.21
