Singapore : , : Wiley : , : Tsinghua University Press, , 2015

©2015

1-118-84112-3

1-118-84110-7

1-118-84111-5

1 online resource (1376 p.)

621.390285/5133

Verilog (Computer hardware description language)

Computer engineering - Data processing

Inglese

Description based upon print version of record.

Includes bibliographical references and index.

Cover; Table of Contents; Title Page; Copyright; List of Figures; List of Tables; Preface; Chapter 1: Computer Fundamentals and Performance Evaluation; 1.1 Overview of Computer Systems; 1.2 Basic Structure of Computers; 1.3 Improving Computer Performance; 1.4 Hardware Description Languages; Exercises; Chapter 2: A Brief Introduction to Logic Circuits and Verilog HDL; 2.1 Logic Gates; 2.2 Logic Circuit Design in Verilog HDL; 2.3 CMOS Logic Gates; 2.4 Four Levels/Styles of Verilog HDL; 2.5 Combinational Circuit Design; 2.6 Sequential Circuit Design; Exercises

Chapter 3: Computer Arithmetic Algorithms and Implementations3.1 Binary Integers; 3.2 Binary Addition and Subtraction; 3.3 Binary Multiplication Algorithms; 3.4 Binary Division Algorithms; 3.5 Binary Square Root Algorithms; Exercises; Chapter 4: Instruction Set Architecture and ALU Design; 4.1 Instruction Set Architecture; 4.2 MIPS Instruction Format and Registers; 4.3 MIPS Instructions and AsmSim Tool; 4.4 ALU Design; Exercises; Chapter 5: Single-Cycle CPU Design in Verilog HDL; 5.1 The Circuits Required for Executing an Instruction; 5.2 Register File Design

5.3 Single-Cycle CPU Datapath Design5.4 Single-Cycle CPU Control

Unit Design; 5.5 Test Program and Simulation Waveform; Exercises; Chapter 6: Exceptions and Interrupts Handling and Design in Verilog HDL; 6.1 Exceptions and Interrupts; 6.2 Design of CPU with Exception and Interrupt Mechanism; 6.3 The CPU Exception and Interrupt Tests; Exercises; Chapter 7: Multiple-Cycle CPU Design in Verilog HDL; 7.1 Dividing Instruction Execution into Several Clock Cycles; 7.2 Multiple-Cycle CPU Schematic and Verilog HDL Codes; 7.3 Multiple-Cycle CPU Control Unit Design; 7.4 Memory and Test Program

ExercisesChapter 8: Design of Pipelined CPU with Precise Interrupt in Verilog HDL; 8.1 Pipelining; 8.2 Pipeline Hazards and Solutions; 8.3 The Circuit of the Pipelined CPU and Verilog HDL Codes; 8.4 Precise Interrupts/Exceptions in Pipelined CPU; 8.5 Design of Pipelined CPU with Precise Interrupt/Exception; Exercises; Chapter 9: Floating-Point Algorithms and FPU Design in Verilog HDL; 9.1 IEEE 754 Floating-Point Data Formats; 9.2 Converting between Floating-Point Number and Integer; 9.3 Floating-Point Adder (FADD) Design; 9.4 Floating-Point Multiplier (FMUL) Design

9.5 Floating-Point Divider (FDIV) Design9.6 Floating-Point Square Root (FSQRT) Design; Exercises; Chapter 10: Design of Pipelined CPU with FPU in Verilog HDL; 10.1 CPU/FPU Pipeline Model; 10.2 Design of Register File with Two Write Ports; 10.3 Data Dependency and Pipeline Stalls; 10.4 Pipelined CPU/FPU Design in Verilog HDL; 10.5 Memory Modules and Pipelined CPU/FPU Test; Exercises; Chapter 11: Memory Hierarchy and Virtual Memory Management; 11.1 Memory; 11.2 Cache Memory; 11.3 Virtual Memory Management and TLB Design; 11.4 Mechanism of TLB-Based MIPS Memory Management; Exercises

Chapter 12: Design of Pipelined CPU with Caches and TLBs in Verilog HDL

Uses Verilog HDL to illustrate computer architecture and microprocessor design, allowing readers to readily simulate and adjust the operation of each design, and thus build industrially relevant skills Introduces the computer principles, computer design, and how to use Verilog HDL (Hardware Description Language) to implement the design Provides the skills for designing processor/arithmetic/cpu chips, including the unique application of Verilog HDL material for CPU (central processing unit) implementation Despite the many books on Verilog and computer architecture and microprocessor design, few