The principles of computer hardware

Principles of Computer Hardware, now in its third edition, provides a first course in computer architecture or computer organization for undergraduates. The book covers the core topics of such a course, including Boolean algebra and logic design; number bases and binary arithmetic; the CPU; assembly language; memory systems; and input/output methods and devices. It then goes on to cover the related topics of computer peripherals such as printers; the hardware aspects of the operating system; and data communications, and hence provides a broader overview of the subject. Its readable, tutorial-based approach makes it an accessible introduction to the subject. The book has extensive in-depth coverage of two microprocessors, one of which (the 68000) is widely used in education. All chapters in the new edition have been updated. Major updates include: powerful software simulations of digital systems to accompany the chapters on digital design; a tutorial-based introduction to assembly language, including many examples; a completely rewritten chapter on RISC, which now covers the ARM computer.

• 1. INTRODUCTION TO COMPUTER HARDWARE
• 1.1 THE DIGITAL COMPUTER
• 1.2 MAINFRAME, MINI, AND MICRO
• 1.3 THE STORED PROGRAM COMPUTER-AN OVERVIEW
• SUMMARY
• PROBLEMS
• 2. GATES, CIRCUITS, AND COMBINATIONAL LOGIC
• 2.1 ANALOGUE AND DIGITAL SYSTEMS
• 2.2 FUNDAMENTAL GATES
• 2.3 APPLICATIONS OF GATES
• 2.4 INTRODUCTION TO DIGITAL WORKS
• 2.5 AN INTRODUCTION TO BOOLEAN ALGEBRA
• 2.6 SPECIAL-PURPOSE LOGIC ELEMENTS
• 2.7 TRI-STATE LOGIC
• 2.8 PROGRAMMABLE LOGIC
• SUMMARY
• EXAMPLES
• PROBLEMS
• 3. SEQUENTIAL LOGIC
• 3.1 THE RS FLIP-FLOP
• 3.2 THE D FLIP-FLOP
• 3.3 CLOCKED FLIP-FLOPS
• 3.4 THE JK FLIP-FLOP
• 3.5 SUMMARY OF FLIP-FLOP TYPES
• 3.6 APPLICATIONS OF SEQUENTIAL ELEMENTS
• 3.7 AN INTRODUCTION TO STATE MACHINES
• SUMMARY
• EXAMPLES
• PROBLEMS
• 4. COMPUTER ARITHMETIC
• 4.1 BITS, BYTES, WORDS, AND CHARACTERS
• 4.2 NUMBER BASES
• 4.3 NUMBER BASE CONVERSION
• 4.4 SPECIAL-PURPOSE CODES
• 4.5 BINARY ARITHMETIC
• 4.6 SIGNED NUMBERS
• 4.7 COMPUTER ARITHMETIC AND ASSEMBLY LANGUAGE PROGRAMMING
• 4.8 FLOATING POINT NUMBERS
• 4.9 MULTIPLICATION AND DIVISION
• SUMMARY
• PROBLEMS
• 5. THE CENTRAL PROCESSING UNIT
• 5.1 INTRODUCTION TO THE CPU
• 5.2 STRUCTURE OF THE CPU
• 5.3 THE CONTROL UNIT
• 5.4 SIMULATING A CPU
• 5.5 MULTIPROCESSOR SYSTEMS
• SUMMARY
• PROBLEMS
• 6. ASSEMBLY LANGUAGE PROGRAMMING AND THE 68K FAMILY
• 6.1 STRUCTURE OF AN ASSEMBLY LANGUAGE PROGRAM
• 6.2 THE 68K'S REGISTERS
• 6.3 AN INTRODUCTION TO THE 68K'S INSTRUCTION SET
• 6.4 ADDRESSING MODES
• 6.5 THE STACK
• 6.6 DESIGNING ASSEMBLY LANGUAGE PROGRAMS
• SUMMARY
• PROBLEMS
• 7. AN INTRODUCTION TO RISC PROCESSORS AND THE ARM
• 7.1 THE RISC REVOLUTION
• 7.2 RISC ARCHITECTURE AND PIPELINING
• 7.3 REDUCING THE BRANCH PENALTY
• 7.4 THE ARM PROCESSOR
• 7.5 USING THE ARM
• SUMMARY
• PROBLEMS
• 8. INPUT/OUTPUT
• 8.1 HANDSHAKING AND BUFFERING
• 8.2 PROGRAMMED I/O
• 8.3 INTERRUPT-DRIVEN I/O
• 8.4 DIRECT MEMORY ACCESS
• 8.5 PARALLEL AND SERIAL INTERFACES
• 8.6 INPUT DEVICES FOR PERSONAL COMPUTERS
• 8.7 THE CRT AND LED DISPLAYS
• 8.8 THE PRINTER
• 8.9 COLOUR DISPLAYS AND PRINTERS
• 8.10 OTHER PERIPHERALS
• SUMMARY
• PROBLEMS
• 9. COMPUTER MEMORY
• 9.1 SEMICONDUCTOR MEMORY
• 9.2 INTERFACING MEMORY TO A CPU
• 9.3 SECONDARY STORAGE
• 9.4 DISK DRIVE PRINCIPLES
• 9.5 THE TAPE TRANSPORT
• 9.6 OPTICAL MEMORY TECHNOLOGY
• SUMMARY
• TUTORIAL PROBLEMS
• PROBLEMS
• 10. THE CPU, MEMORY, AND THE OPERATING SYSTEM
• 10.1 THE OPERATING SYSTEM
• 10.2 MULTITASKING
• 10.3 OPERATING SYSTEM SUPPORT FROM THE CPU
• 10.4 MEMORY MANAGEMENT
• 10.5 CACHE MEMORY
• 10.5.1 CACHE ORGANIZATION
• SUMMARY
• PROBLEMS
• 11. COMPUTER COMMUNICATIONS
• 11.1 INTRODUCTION
• 11.2 PROTOCOLS AND COMPUTER COMMUNICATIONS
• 11.3 THE PHYSICAL LAYER
• 11.4 DATA TRANSMISSION ACROSS THE PSTN
• 11.5 THE DATA LINK LAYER
• 11.6 LOCAL AREA NETWORKS
• 11.7 ROUTING TECHNIQUES
• SUMMARY
• PROBLEMS
• 12. ADVANCED TOPICS
• 12.1 PRACTICAL CONSIDERATIONS IN LOGIC DESIGN
• 12.2 COMPUTERS AND RELIABILITY
• 12.3 THE ANALOGUE INTERFACE
• 12.4 INTRODUCTION TO DIGITAL SIGNAL PROCESSING
• TUTORIAL EXAMPLE
• PROBLEMS
• APPENDICES
• BIBLIOGRAPHY
• INDEX

Principles of Computer Hardware, now in its third edition, provides a first course in computer architecture or computer organization for undergraduates. The book covers the core topics of such a course, including Boolean algebra and logic design; number bases and binary arithmetic; the CPU; assembly language; memory systems; and input/output methods and devices. It then goes on to cover the related topics of computer peripherals such as printers; the hardware aspects of the operating system; and data communications, and hence provides a broader overview of the subject. Its readable, tutorial-based approach makes it an accessible introduction to the subject. The book has extensive in-depth coverage of two microprocessors, one of which (the 68000) is widely used in education. All chapters in the new edition have been updated. Major updates include: * powerful software simulations of digital systems to accompany the chapters on digital design; * a tutorial-based introduction to assembly language, including many examples; * a completely rewritten chapter on RISC, which now covers the ARM computer.

• 1. INTRODUCTION TO COMPUTER HARDWARE
• 1.1 THE DIGITAL COMPUTER
• 1.2 MAINFRAME, MINI, AND MICRO
• 1.3 THE STORED PROGRAM COMPUTER-AN OVERVIEW
• SUMMARY
• PROBLEMS
• 2. GATES, CIRCUITS, AND COMBINATIONAL LOGIC
• 2.1 ANALOGUE AND DIGITAL SYSTEMS
• 2.2 FUNDAMENTAL GATES
• 2.3 APPLICATIONS OF GATES
• 2.4 INTRODUCTION TO DIGITAL WORKS
• 2.5 AN INTRODUCTION TO BOOLEAN ALGEBRA
• 2.6 SPECIAL-PURPOSE LOGIC ELEMENTS
• 2.7 TRI-STATE LOGIC
• 2.8 PROGRAMMABLE LOGIC
• SUMMARY
• EXAMPLES
• PROBLEMS
• 3. SEQUENTIAL LOGIC
• 3.1 THE RS FLIP-FLOP
• 3.2 THE D FLIP-FLOP
• 3.3 CLOCKED FLIP-FLOPS
• 3.4 THE JK FLIP-FLOP
• 3.5 SUMMARY OF FLIP-FLOP TYPES
• 3.6 APPLICATIONS OF SEQUENTIAL ELEMENTS
• 3.7 AN INTRODUCTION TO STATE MACHINES
• SUMMARY
• EXAMPLES
• PROBLEMS
• 4. COMPUTER ARITHMETIC
• 4.1 BITS, BYTES, WORDS, AND CHARACTERS
• 4.2 NUMBER BASES
• 4.3 NUMBER BASE CONVERSION
• 4.4 SPECIAL-PURPOSE CODES
• 4.5 BINARY ARITHMETIC
• 4.6 SIGNED NUMBERS
• 4.7 COMPUTER ARITHMETIC AND ASSEMBLY LANGUAGE PROGRAMMING
• 4.8 FLOATING POINT NUMBERS
• 4.9 MULTIPLICATION AND DIVISION
• SUMMARY
• PROBLEMS
• 5. THE CENTRAL PROCESSING UNIT
• 5.1 INTRODUCTION TO THE CPU
• 5.2 STRUCTURE OF THE CPU
• 5.3 THE CONTROL UNIT
• 5.4 SIMULATING A CPU
• 5.5 MULTIPROCESSOR SYSTEMS
• SUMMARY
• PROBLEMS
• 6. ASSEMBLY LANGUAGE PROGRAMMING AND THE 68K FAMILY
• 6.1 STRUCTURE OF AN ASSEMBLY LANGUAGE PROGRAM
• 6.2 THE 68K'S REGISTERS
• 6.3 AN INTRODUCTION TO THE 68K'S INSTRUCTION SET
• 6.4 ADDRESSING MODES
• 6.5 THE STACK
• 6.6 DESIGNING ASSEMBLY LANGUAGE PROGRAMS
• SUMMARY
• PROBLEMS
• 7. AN INTRODUCTION TO RISC PROCESSORS AND THE ARM
• 7.1 THE RISC REVOLUTION
• 7.2 RISC ARCHITECTURE AND PIPELINING
• 7.3 REDUCING THE BRANCH PENALTY
• 7.4 THE ARM PROCESSOR
• 7.5 USING THE ARM
• SUMMARY
• PROBLEMS
• 8. INPUT/OUTPUT
• 8.1 HANDSHAKING AND BUFFERING
• 8.2 PROGRAMMED I/O
• 8.3 INTERRUPT-DRIVEN I/O
• 8.4 DIRECT MEMORY ACCESS
• 8.5 PARALLEL AND SERIAL INTERFACES
• 8.6 INPUT DEVICES FOR PERSONAL COMPUTERS
• 8.7 THE CRT AND LED DISPLAYS
• 8.8 THE PRINTER
• 8.9 COLOUR DISPLAYS AND PRINTERS
• 8.10 OTHER PERIPHERALS
• SUMMARY
• PROBLEMS
• 9. COMPUTER MEMORY
• 9.1 SEMICONDUCTOR MEMORY
• 9.2 INTERFACING MEMORY TO A CPU
• 9.3 SECONDARY STORAGE
• 9.4 DISK DRIVE PRINCIPLES
• 9.5 THE TAPE TRANSPORT
• 9.6 OPTICAL MEMORY TECHNOLOGY
• SUMMARY
• TUTORIAL PROBLEMS
• PROBLEMS
• 10. THE CPU, MEMORY, AND THE OPERATING SYSTEM
• 10.1 THE OPERATING SYSTEM
• 10.2 MULTITASKING
• 10.3 OPERATING SYSTEM SUPPORT FROM THE CPU
• 10.4 MEMORY MANAGEMENT
• 10.5 CACHE MEMORY
• 10.5.1 CACHE ORGANIZATION
• SUMMARY
• PROBLEMS
• 11. COMPUTER COMMUNICATIONS
• 11.1 INTRODUCTION
• 11.2 PROTOCOLS AND COMPUTER COMMUNICATIONS
• 11.3 THE PHYSICAL LAYER
• 11.4 DATA TRANSMISSION ACROSS THE PSTN
• 11.5 THE DATA LINK LAYER
• 11.6 LOCAL AREA NETWORKS
• 11.7 ROUTING TECHNIQUES
• SUMMARY
• PROBLEMS
• 12. ADVANCED TOPICS
• 12.1 PRACTICAL CONSIDERATIONS IN LOGIC DESIGN
• 12.2 COMPUTERS AND RELIABILITY
• 12.3 THE ANALOGUE INTERFACE
• 12.4 INTRODUCTION TO DIGITAL SIGNAL PROCESSING
• TUTORIAL EXAMPLE
• PROBLEMS
• APPENDICES
• BIBLIOGRAPHY
• INDEX