Product Description

* Emphasis is on timing diagrams and analysis of microprocessor read/write cycles so students get a clear understanding of the timing requirements of a microprocessor..* In-depth presentation of both microprocessor architecture and microprocessor organization gives students the most complete of 68000 microprocessor hardware..* Thorough introduction to 68000 assembly language programming (four chapters on this topic)..

Product Details

• Amazon Sales Rank: #1438266 in Books
• Published on: 1992-05-07
• Original language: English
• Number of items: 1
• Binding: Hardcover
• 895 pages

Customer Reviews

Great microprocessor book
This book presents an excellent intro to the design of microprocessor systems using the very powerful and easy-to-learn Motorola 68000 family. It concentrates on hardware design/interfacing, programming,timing issues, memory mapping and address decoding, serial I/O and peripherals. Covers all the important issues. The information is of high quality and very well written. The reader should have a knowledge of binary/hex number systems and basic digital design as prerequisites. Comes with cd-rom containing software tools. I recommend this book highly.

Excellent clear book on microprocessor systems design
This book makes all things clear about designing systems controlled by microprocessors and uses the Motorola 68000 family of microprocessors as an example. It is full of clear examples and many exercises for the student, and shows details of both the hardware and programming aspects of microprocessor system design, making it ideal for engineers who are interested in the subject. The book starts with an overview of the microcomputer in general, and shows how the microprocessor and its accessories control the larger microcomputing device. Next, the author introduces the reader specifically to the Motorola 68000 family of microprocessors and their respective architectures and features.

Next the author tackles an art that is usually passed down by word of mouth from master to apprentice - how to program a microprocessor and its peripheral devices using the C programming language as well as assembly language. This is followed by chapters on memories, exception handling versus interrupts, and coprocessors and caches.

The next few chapters are on the external devices that are usually a necessity for a microprocessor controlled system - parallel and serial ports, external timer devices, special devices to control IEEE-488 buses, and special buses such as the VMEbus and Nubus. Actual existing peripheral devices are used in the examples. There are plenty of circuit diagrams and code snippets in both assembly language and C to show how the various pieces of a microcomputer are assembled to make a working system.

Although today RISC designs based on "microprocessor cores" power the vast majority of mass-produced computing devices, the approach to creating the components of these core-based microcomputers is basically the same as it was in the days when we used to wire-wrap a 10MHz 68000 system together. Thus, learning the art of microprocessor system design is something any engineer interested in digital design should know. This book is an excellent source for learning that art. The following is the table of contents:

1. THE MICROCOMPUTER
Microprocessor Systems
Examples of Microprocessor Systems

2. PROGRAMMING THE 68000 FAMILY
Assembly Language Programming and the 68000
Programmer''s Model of the 68000
Addressing Modes of the 68000
An Introduction to the 68000 Family Instruction Set
Program Control and the 68000
Miscellaneous Instructions
Subroutines and the 68000
Introduction to the 68020's Architecture
Speed and Performance of Microprocessors
Structured Programming and Pseudocode (PDL)

3. ASSEMBLY LANGUAGE AND C
Parameter Passing
The Stack and Local Variables
C and the 68000
Summary of C''s Syntax

4. THE 68000 CPU HARDWARE MODEL
68000 Interface
Timing Diagram
Dealing with Timing Problems
Minimal Configuration Using the 68000
The 68020 & 68030 Memory Interface
Worked Examples

5. MEMORIES IN MICROCOMPUTER SYSTEMS
Address Decoding Strategies
Designing Address Decoders
Designing Static Memory Systems
Designing Dynamic Memory Systems
Worked Examples

6. EXCEPTION HANDLING AND THE 68000
Interrupts
Privileged States and the 68000
Exception Processing
Exceptions Implemented by the 68000
Interrupts and Real-Time Processing
The Reset and the Bus Error
Exception Processing and the 68010 and 68020

7. THE 68000 FAMILY IN LARGER SYSTEMS
Error Detection and Correction in Memories
Memory Management and Microprocessors
Cache Memories
Coprocessor
Introduction to the 68040 Microprocessor
The 68060

8. THE MICROPROCESSOR INTERFACE
Introduction to Microprocessor Interfaces
Direct Memory Access
The 68230 Parallel Interface/Timer
The IEEE 488 Bus

9. THE SERIAL INPUT/OUTPUT INTERFACE
Asynchronous Serial Data Transmission
Asynchronous Communications Interface Adapter (ACIA)
The 68681 DUART
Synchronous Serial Data Transmission
Serial Interface Standards

10. MICROCOMPUTER BUSES
Mechanical Layer
Electrical Characteristics of Buses
VMEbus
NuBus

11. DESIGNING A MICROCOMPUTER SYSTEM
Designing for Reliability and Testability
Design Examples Using the 68000
Design Example Using the 68030 Monitors
APPENDIX
SUMMARY OF THE 68000 INSTRUCTOR SET
ABOUT THE CD-ROM

A very good 68000 book for EE, CS, computer engineering.
This book is suitable for a semester course in microprocessor systems. It has good coverage of hardware and software topics. I use it in a senior/master's course which studies the 68000 and SPARC as comparative CISC/RISC architectures. The book comes with a CDROM including a PC-based 68000 simulator for readers who do not have access to real 68000 hardware.