8088 and 8086 Microprocessors: Pearson New International Edition, The: Programming, Interfacing, Software, Hardware, and Applications (4e) : 9781292040608

8088 and 8086 Microprocessors: Pearson New International Edition, The: Programming, Interfacing, Software, Hardware, and Applications (4e)

Triebel, Walter & Singh, Avtar
Published by
Pearson Higher Ed USA
Out of stock
Title type
Title type

For one or two-semester courses in Microprocessors or Intel 16-32 Bit Chips.

Future designers of microprocessor-based electronic equipment need a systems-level understanding of the 80x86 microcomputer. This text offers thorough, balanced, and practical coverage of both software and hardware topics. Basic concepts are developed using the 8088 and 8086 microprocessors, but the 32-bit versions of the 80x86 family are also discussed. The authors examine how to assemble, run, and debug programs, and how to build, test, and troubleshoot interface circuits

Table of contents
1. Introduction to Microprocessors and Microcomputers.

2. Software Architecture of the 8088 and 8086 Microprocessors.

3. Assembly Language Programming.

4. Machine Language Coding and the Debug Software Development Program of the IBM PC.

5. 8088/8086 Programming—Integer Instructions and Computations.

6. 8088/8086 Programming—Control Flow Instructions and Program Structures.

7. Assembly Language Program Developments with MASM.

8. The 8088 and 8086 Microprocessors and Their Memory and Input/Output Interfaces.

9. Memory Devices, Circuits, and Subsystem Design.

10. Input/Output Interface Circuits and LSI Peripheral Devices.

11. Interrupt Interface of the 8088 and 8086 Microprocessors.

12. Hardware of the Original IBM PC Microcomputer.

13. PC Bus Interfacing, Circuit Construction, Testing, and Troubleshooting.

14. The 80386, 80486, and Pentium™ Processor Families: Software Architecture.

15. The 80386, 80486, and Pentium™ Processor Families: Hardware Architecture.

Answers to Selected Assignments.


Features & benefits
NEW - Detailed coverage of floating-point processing and the single instruction multiple data (SIMD) processing capability of the advanced Pentium processor.
Keeps students up to date on the latest developments in the field.

NEW - Basic topics—Includes added material on number systems, logic functions and operations, conversion between number systems, and addition/subtraction of binary numbers.
Helps students succeed in the course by addressing areas that may require additional review.

NEW - Advanced material—Includes floating Point Architecture and Instructions, Multimedia (MMX) Architecture and Instructions, and the hardware and software architecture of the Pentium 3 and Pentium 4 processors.
Helps keep students challenged and interested in the material.

NEW - Systems approach—Provides extensive coverage of the microprocessor, microcomputer architecture, assembly language programming, and hardware interfacing techniques.
Helps students learn the basics in a balanced fashion.

Intel and Pentium®—Covers the Intel architecture microprocessor families: 8088, 8086, 80286, 80386, 80486, and the latest Pentium® processors.
Provides detailed coverage up to the latest family members, and shows students how the later processors' software and hardware architecture differ from that of earlier family members.

Debugging—Illustrates commands of the DEBUG program and how to assemble, disassemble, load, save, execute, and debug programs on the IBM compatible PC.
Provides students with critical job skills.

Inside the instruction set—Introduces the contents of the 8088's instruction set.
Demonstrates to students their use in writing practical programs.

Practical implementation techniques—Covers the use of latches, transceivers, buffers, and programmable logic devices in the memory and I/O interfaces of the microcomputer system.
Shows students how to design the interface circuits that connect memory/input/output and interrupts to the MPU bus.

Practical applications—Demonstrates applications such as moving and searching a block of data, initializing a block of memory, generating a time delay, producing an output pulse, polling a switch, sending characters to a parallel printer, sending characters through a serial communication interface, and servicing an interrupt.
Students learn to plan, write, and test software solutions for real applications.

Practical circuits—Includes circuits for implementing memory, I/O, and interrupt interfaces.
Shows actual circuits used in the design of microcomputer systems, including those of the original IBM PC.

Software development tools— Illustrates the use of Microsoft's 80X86 macroassembler and other PC-based software tools to create a source program, assemble a program, and link assembly language modules into a program.
Gives students experience using software development tools that are widely used in industry.

Memory coverage—Offers extensive coverage of EPROM, RAM, and FLASH memory ICs and their use in the design of program storage, data storage, and cache memory subsystems.
Builds a solid understanding of the role of the various types of memory in the modern microcomputer system.

Control circuits—Includes material on LSI peripheral ICs, such as the 82C55A input/output interface, 82C54 interval timer, 82C37A DMA controller, 8250/16450 serial communication controller, and 8279 keyboard/display controller.
Provides a thorough understanding of the kinds of interfaces needed in the microcomputer system and thetypes of solutions that are available.

Numerous examples—Includes more than 100 examples.
Helps to illustrate program concepts, operation of instructions, and writing of programs.