The 80X86 IBM PC and Compatible Computers Volumes I and II: Assembly Language, Design, and Interfacing 4/e (絕)
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- 一般書籍
- ISBN:9780131219755
- 作者:Muhammad Ali Mazidi
- 版次:4
- 年份:2003
- 出版商:Pearson Education
- 頁數/規格:984頁
書籍介紹
本書特色
目錄
作者介紹
Description
Praised by experts for its clarity and topical breadth, this visually appealing, one-stop source on PCs uses an easy-to-understand, step-by-step approach to teaching the fundamentals of 80x86 assembly language programming and PC architecture. Offering students a fun, hands-on learning experience, it uses the Debug utility to show what action the instruction performs, then provides a sample program to show its application. Reinforcing concepts with numerous examples and review questions, its oversized pages delve into dozens of related subjects, including DOS memory map, BIOS, microprocessor architecture, supporting chips, buses, interfacing techniques, system programming, memory hierarchy, DOS memory management, tables of instruction timings, hard disk characteristics, and more.
Praised by experts for its clarity and topical breadth, this visually appealing, one-stop source on PCs uses an easy-to-understand, step-by-step approach to teaching the fundamentals of 80x86 assembly language programming and PC architecture. Offering students a fun, hands-on learning experience, it uses the Debug utility to show what action the instruction performs, then provides a sample program to show its application. Reinforcing concepts with numerous examples and review questions, its oversized pages delve into dozens of related subjects, including DOS memory map, BIOS, microprocessor architecture, supporting chips, buses, interfacing techniques, system programming, memory hierarchy, DOS memory management, tables of instruction timings, hard disk characteristics, and more.
Features
- Covers all the x86 microprocessors, from the 8088 to the Pentium Pro.
- Combines assembly and C programming early on.
- Introduces the x86 instructions with examples of how they are used, and covers 8-bit, 16-bit and 32-bit programming of x86 microprocessors.
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Uses fragments of programs from IBM PC technical reference.
* Shows students a real-world approach to programming in assembly. - Ensures a basic understanding of binary and hex numbering systems-Before delving into PC assembly language and system programming.
- Discusses hardware differences among 8086, 286, 386, 486, Pentium and Pentium Pro chips.
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Places all C programming in the last section of each chapter.
* Maintains continuity for those with no C programming experience. - Discusses 8-bit, 16-bit and 32-bit interfacing of x86 microprocessors.
- Shows a real-world approach to PC system programming-By using fragments of programs from IBM PC technical reference.
- Makes sure students grasp binary and hex numbering systems-Before they delve into PC system programming.
- Analyzes hardware differences among 8086, 286, 386, 486, Pentium and Pentium Pro chips-Looks at the internal architecture on programming such chips.
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Places all C programming in the last section of each chapter.
* Accommodates students with no background in the subject.
Table of Contents
1. The 80x86 Microprocessor.
2. Assembly Language Programming.
3. Arithmetic and Logic Instructions and Programs.
4. BIOS and DOS Programming in Assembly and C.
5. Macros and the Mouse.
6. Signed Numbers, Strings, and Tables.
7. Modules; Modular and C Programming.
8. 32-Bit Programming for 386 and 486 Machines.
9. 8088/86 Microprocessors and Supporting Chips.
10. 80286 Microprocessor and Supporting Chips.
11. Memory and Memory Interfacing.
12. I/0, 8255 and Device Interfacing.
13. 8253/54 Timer and Music.
14. Interrupts and the 8259 Chip.
15. Direct Memory Accessing; the 8237 DMA Chip.
16. Video and Video Adapters.
17. Serial Data Communication and the 16550/8250/51 Chips.
18. Keyboard and Printer Interfacing.
19. Floppy Disks, Hard Disks, and Files.
20. The 80x87 Math Coprocessor.
21. 386 Microprocessor: Real vs. Protected Mode.
22. High-Speed Memory Interfacing and Cache.
23. 486, Pentium, Pentium Pro and MMX.
24. MS DOS Structure, TSR, and Device Drivers.
25. MS DOS Memory Management.
26. IC Technology and System Design.
27. ISA, EISA, MCA, Local, and PCI BUS.
28. Programming DOS, BIOS, Hardware with C/C++
1. The 80x86 Microprocessor.
2. Assembly Language Programming.
3. Arithmetic and Logic Instructions and Programs.
4. BIOS and DOS Programming in Assembly and C.
5. Macros and the Mouse.
6. Signed Numbers, Strings, and Tables.
7. Modules; Modular and C Programming.
8. 32-Bit Programming for 386 and 486 Machines.
9. 8088/86 Microprocessors and Supporting Chips.
10. 80286 Microprocessor and Supporting Chips.
11. Memory and Memory Interfacing.
12. I/0, 8255 and Device Interfacing.
13. 8253/54 Timer and Music.
14. Interrupts and the 8259 Chip.
15. Direct Memory Accessing; the 8237 DMA Chip.
16. Video and Video Adapters.
17. Serial Data Communication and the 16550/8250/51 Chips.
18. Keyboard and Printer Interfacing.
19. Floppy Disks, Hard Disks, and Files.
20. The 80x87 Math Coprocessor.
21. 386 Microprocessor: Real vs. Protected Mode.
22. High-Speed Memory Interfacing and Cache.
23. 486, Pentium, Pentium Pro and MMX.
24. MS DOS Structure, TSR, and Device Drivers.
25. MS DOS Memory Management.
26. IC Technology and System Design.
27. ISA, EISA, MCA, Local, and PCI BUS.
28. Programming DOS, BIOS, Hardware with C/C++
Muhammad Ali Mazidi holds Master's degrees from both Southern Methodist University and the University of Texas at Dallas, and currently is a.b.d. on his Ph.D. in the Electrical Engineering Department of Southern Methodist University. He is a co-founder and chief researcher of Microprocessor Education Group, a company dedicated to bringing knowledge of microprocessors to the widest possible audience. He also teaches microprocessor-based system design at DeVry Institute of Technology in Dallas, Texas.
