Résumé
- The state of the art in VLSI design: layouts, circuits, logic, floorplanning, and architectures
- New techniques for maximizing performance and minimizing power usage
- Extensive new coverage of advanced interconnect models, including copper
- Up-to-the-minute coverage of IP-based design
- Detailed HDL introductions: Verilog and VHDL
The #1 VLSI design guide-now fully updated to reflect the latest advances in SoC design
Modern VLSI Design, System-on-Chip Design, Third Edition is a comprehensive, "bottom-up" guide to the entire VLSI design process, focusing on the latest solutions for System-on-Chip (SoC) design. Wayne Wolf reviews every aspect of digital design, from planning and layout to fabrication and packaging, introducing today's most advanced techniques for maximizing performance, minimizing power utilization, and achieving rapid design turnarounds. Coverage includes:
- Advanced interconnect models: new techniques for overcoming delay bottlenecks, reducing crosstalk, and modeling copper interconnect
- Advanced low-power design techniques for enhancing reliability and extending battery life in portable consumer electronics
- Testing solutions for every level of abstraction, from circuits to architecture
- Practical IP-based design solutions
- A thorough overview of HDLs, including new introductions to Verilog and VHDL
- Techniques for improving testability, embedded processors, and more
VLSI design for today's high-performance, low-power devices requires broader, deeper skills than ever before. Modern VLSI Design, System-on-Chip, Third Edition brings together those skills in a single, comprehensive resource that will be invaluable to every VLSI design engineer and manager.
Contents
- 1: Digital Systems and VLSI.
- Why Design Integrated Circuits?
- Integrated Circuit Manufacturing.
- CMOS Technology.
- Integrated Circuit Design Techniques.
- A Look into the Future. Summary.
- 2: Transistors and Layout.
- Fabrication Processes.
- Transistors.
- Wires and Vias.
- Design Rules.
- Layout Design and Tools.
- 3: Logic Gates.
- Combinational Logic Functions.
- Static Complementary Gates.
- Switch Logic.
- Alternative Gate Circuits.
- Wires and Delay.
- 4: Combinational Logic Networks.
- Layout Design Methods.
- Simulation.
- Combinational Network Delay.
- Crosstalk.
- Power Optimization.
- Switch Logic Networks.
- Combinational Logic Testing.
- 5: Sequential Machines.
- Latches and Flip-Flops.
- Sequential Systems and Clocking Disciplines.
- Sequential System Design.
- Power Optimization.
- Design Validation.
- Sequential Testing.
- 6: Subsystem Design.
- Subsystem Design Principles.
- Combinational Shifters.
- Adders.
- ALUs.
- Multipliers.
- High-Density Memory.
- Field-Programmable Gate Arrays.
- Programmable Logic Arrays.
- 7: Floorplanning.
- Floorplanning Methods.
- Floorplanning Large Chips.
- Off-Chip Connections.
- 8: Architecture Design.
- Hardware Description Languages.
- Register-Transfer Design.
- High-Level Synthesis.
- Architecture for Low Power.
- Architecture Testing.
- 9: Chip Design.
- Design Methodologies.
- Kitchen Timer Chip.
- PDP-8 Data Path.
- 10: CAD Systems and Algorithms.
- CAD Systems.
- Simulation.
- Layout Synthesis.
- Layout Analysis.
- Timing Analysis and Optimization.
- Logic Synthesis.
- Test Generation.
- Sequential Machine Optimizations.
- Scheduling and Binding.
- Hardware/Software Co-Design.
- Appendix A: A Chip Designer's Lexicon.
- Appendix B: Chip Design Projects.
- Class Project Ideas. Project Proposal and Specification. Design Plan. Design Checkpoints and Documentation.
- Appendix C: Design Modeling.
- Hardware Modeling in VHDL.
- Hardware Modeling in C.
L'auteur - Wayne Wolf
Wayne Wolf is professor of electrical engineering at Princeton University. Before joining Princeton, he was with AT&T Bell Laboratories in Murray Hill, New Jersey. He received his B.S., M.S., and Ph.D. degrees in electrical engineering from Stanford University. He is well known for his research in the areas of hardware/software co-design, embedded computing, VLSI CAD, and multimedia computing systems. He is a fellow of the IEEE, and a member of the ACM and SPIE. He was Program Chair of the First International Workshop on Hardware/Software Co-Design. Wayne was also Program Chair of 1996 IEEE International Conference on Computer Design. He is editor-in-chief of IEEE Transactions on VLSI Systems (1999-2000) and co-editor of the Kluwer journal, Design Automation for Embedded Systems. He is also co-series editor of the new Morgan Kaufmann Series on Systems on Silicon.
Caractéristiques techniques
PAPIER | |
Éditeur(s) | Prentice Hall |
Auteur(s) | Wayne Wolf |
Parution | 05/02/2002 |
Édition | 3eme édition |
Nb. de pages | 618 |
Format | 18 x 24 |
Couverture | Relié |
Poids | 1131g |
Intérieur | Noir et Blanc |
EAN13 | 9780130619709 |
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