- ホーム
- > 洋書
- > 英文書
- > Science / Mathematics
Full Description
Appropriate for all courses in digital IC or system design using the Verilog Hardware Description Language (HDL).Fully updated for the latest versions of Verilog HDL, this complete reference progresses logically from the most fundamental Verilog concepts to today's most advanced digital design techniques. Written for both experienced students and newcomers, it offers broad coverage of Verilog HDL from a practical design perspective. One step at a time, Samir Palnitkar introduces students to gate, dataflow (RTL), behavioral, and switch level modeling; presents the Programming Language Interface (PLI); describes leading logic synthesis methodologies; explains timing and delay simulation; and introduces many other essential techniques for creating tomorrows complex digital designs. Palnitkar offers a wealth of proven Verilog HDL modeling tips, and more than 300 fully-updated illustrations, examples, and exercises. Each chapter contains detailed learning objectives and convenient summaries.
Contents
(NOTEAbout the Author. Foreword. Preface. Acknowledgments. I. BASIC VERILOG TOPICS. 1. Overview of Digital Design with Verilog HDL. Evolution of Computer-Aided Digital Design. Emergence of HDLs. Typical Design Flow. Importance of HDLs. Popularity of Verilog HDL. Trends in HDLs.2. Hierarchical Modeling Concepts. Design Methodologies. 4-bit Ripple Carry Counter. Modules. Instances. Components of a Simulation. Example.3. Basic Concepts. Lexical Conventions. Data Types. System Tasks and Compiler Directives.4. Modules and Ports. Modules. Ports. Hierarchical Names.5. Gate-Level Modeling. Gate Types. Gate Delays.6. Dataflow Modeling. Continuous Assignments. Delays. Expressions, Operators, and Operands. Operator Types. Examples.7. Behavioral Modeling. Structured Procedures. Procedural Assignments. Timing Controls. Conditional Statements. Multiway Branching. Loops. Sequential and Parallel Blocks. Generate Blocks. Examples.8. Tasks and Functions. Difference between Tasks and Functions. Tasks. Functions.9. Useful Modeling Techniques. Procedural Continuous Assignments. Overriding Parameters. Conditional Compilation and Execution. Time Scales. Useful System Tasks.II. ADVANCED VERILOG TOPICS. 10. Timing and Delays. Types of Delay Models. Path Delay Modeling. Timing Checks. Delay Back-Annotation.11. Switch Level Modeling. Switching-Modeling Elements. Examples.12. User-Defined Primitives. UDP basics. Combinational UDPs. Sequential UDPs. UDP Table Shorthand Symbols. Guidelines for UDP Design.13. Programming Language Interface. Uses of PLI. Linking and Invocation of PLI Tasks. Internal Data Representation. PLI Library Routines.14. Logic Synthesis with Verilog HDL. What Is Logic Synthesis? Impact of Logic Synthesis. Verilog HDL Synthesis. Synthesis Design Flow. Verification of the Gate-Level Netlist. Modeling Tips for Logic Synthesis. Example of Sequential Circuit Synthesis.15. Advanced Verification Techniques. Traditional Verification Flow. Assertion Checking. Formal Verification.III. APPENDICES. Appendix A. Strength Modeling and Advanced Net Definitions. Strength Levels. Signal Contention. Advanced Net Types.Appendix B. List of PLI Routines. Conventions. Access Routines. Utility (tf_) Routines.Appendix C. List of Keywords, System Tasks and Compiler Directives. Keywords. System Tasks and Functions. Compiler Directives.Appendix D. Formal Syntax Definition. Source Text. Declarations. Primitive Instances. Module and Generated Instantiation. UDP Declaration and Instantiation. Behavioral Statements. Specify Section. Expressions. General.Appendix E. Verilog Tidbits. Appendix F. Verilog Examples. Synthesizable FIFO Model. Behavioral DRAW Model.Bibliography. Index.
