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This book is an introduction to computer architecture hardware and software, presented in the context of the Intel x86 family. The x86 describes not only a line of microprocessor chips dating back to 1978, but also an instruction set architecture (ISA) that the chips implement. The chip families were built by Intel and other manufacturers, and execute the same instructions, but in different manners. The results are the same, arithmetically and logically, but may differ in their timing. This book covers the Intel ISA-16 and ISA-32 architectures from the 8086/8088 to the Pentium, including the math coprocessors. A chart of ISA processors is included.
This book is an introduction to computer architecture, hardware and software, presented in the context of the Intel x86 family. The x86 describes not only a line of microprocessor chips dating back to 1978, but also an instruction set architecture (ISA) that the chips implement. The chip families were built by Intel and other manufacturers, and execute the same instructions, but in different manners. The results are the same, arithmetically and logically, but may differ in their timing. Why the focus on the Intel x86? It was the basis of the IBM personal computer (PC) family and its spin-offs. It has transitioned from a 16 to a 32 to a 64-bit architecture, keeping compatibility for more than 30 years. It's an de-facto industry standard that has withstood the test of time. This book covers the Intel ISA-16 and ISA-32 architectures from the 8086/8088 to the Pentium, including the math coprocessors. A chart of ISA processors is included. The purpose of this book is to provide the basic background information for an understanding of the 80x86 family, the IBM Personal Computer (pc), and programming in assembly language as an introduction to the broader field of Computer Architecture. It will stress the pervasiveness of this pc-based technology in everyday things and events. It will provide an introduction to Software System Engineering and the Design for Debugging methodology. This book is a spin-off of a course in Computer Architecture/System Integration, taught in the graduate Engineering Science Program at Loyola College (now, Loyola University in Maryland). If we learn to program in the language c, for example, we can take our skills to any computer with a set of c-based tools. If we learn IA-32 assembly language, we have to relearn a language if we switch to a different architecture. So, why do we learn assembly language? Because it gives us insight into the underlying hardware, how it is organized, and how it operates. This book is dedicated to the graduate students in Engineering Science at Loyola College, Columbia Campus, who took the course EG-611, "System Integration I, the x86 Architecture and Assembly Language." The course was given to hundreds of students over a span of 15 years by myself and others. An Extensive bibliography is provided. Table of Contents Introduction Definitions Technological & Economic Impact Limitations of the technology Number Systems Computer Instruction Set Architecture Prefixes Position notation Infinities, overflows, and underflows Hexadecimal numbers Elementary Math operations Base conversion Logical operations on data Math in terms of logic functions Negative numbers Data structures Integers BCD Format ASCII Format Parity Lists Hardware Elements of a Computer The Central Processing Unit The fetch/execute cycle X86 Processor family Input/Output I/O Methods Polled I/O Interrupt DMA Serial versus parallel Memory Memory organization and addressing Caches Memory Management Software Elements of a Computer Instruction Set Architecture (ISA) of the 80x86 Family Programmers model of the x86 Assembly Language The compilation process Operating system: what it is; what it does The Intel x86 instruction set Stack Protocols Basic Math Operations Logical operations BCD Operations 64 Operations on STRINGS of data Shifts/rotates Multiply Divide Faster Math Interrupt architecture Pseudo operations Labels Addressing modes on the 8086 Effective Address Calculation Memory Segments Code addressing modes Data Addressing Modes Program Flow Subroutines Macro Modular design X86 Boot sequence The 8086 reset The BIOS ROM CPUid instruction Load
This new effort was triggered by the introduction of a new chip for the 40th anniversary of the x86 architecture. Who would have thought the architecture would remain commercially viable at the time? This gives us a unique opportunity to see how Moore's law has held up over time, and to compare and contrast the 40-year old part with the current one, to understand where we are coming from, and heading to. I removed a lot of the material from the original on the basics, including the number systems, data structures, I/O methods, etc. These are generic, and can be found in many Introduction to Computer Science texts. I have added details on the 40th anniversary chip, did a compare and contrast with the original 8086, and included some material on AMD's rival x86-architecture chips.
Assembly Language for x86 Processors, 6/e is ideal for undergraduate courses in assembly language programming and introductory courses in computer systems and computer architecture. Written specifically for the Intel/Windows/DOS platform, this complete and fully updated study of assembly language teaches students to write and debug programs at the machine level. Based on the Intel processor family, the text simplifies and demystifies concepts that students need to grasp before they can go on to more advanced computer architecture and operating systems courses. Students put theory into practice through writing software at the machine level, creating a memorable experience that gives them the confidence to work in any OS/machine-oriented environment. Proficiency in one other programming language, preferably Java, C, or C++, is recommended.
Primarily intended for the undergraduate students of electronics and communication engineering, computer science and engineering, and information technology, this book skilfully integrates both the hardware and software aspects of the 8086 microprocessor. It offers the students an up-to-date account of the state-of-the-art microprocessors and therefore can be regarded as an incomparable source of information on recently developed microprocessor chips. The book covers the advanced microprocessor architecture of the Intel microprocessor family, from 8086 to Pentium 4. The text is organized in four parts. Part I (Chapters 1-7) includes a detailed description of the architecture, organization, instruction set, and assembler directives of microprocessor 8086. Part II (Chapters 8-11) discusses the math coprocessor, multiprocessing and multiprogramming, the different types of data transfer schemes, and memory concepts. Part III (Chapters 12-15) covers programmable interfacing chips with the help of extensive interfacing examples. Part IV (Chapters 16-18) deals with advanced processors--from 80186 to Pentium 4. This well-organized and student-friendly text should prone to be an invaluable asset to the students as well as the practising engineers. KEY FEATURES: Gives elaborate programming examples to develop the analytical ability of students. Provides solved examples covering different types of typical interfacing problems to develop the practical skills of students. Furnishes chapter-end exercises to reinforce the understanding of the subject.
Keeping students on the forefront of technology, this text offers a practical reference to all programming and interfacing aspects of the popular Intel microprocessor family.
This book covers assembly language programming for the x86 family of microprocessors. The objective is to teach how to program in x86 assembly, as well as the history and basic architecture of x86 processor family. When referring to x86 we address the complete range of x86-based processors but keep in mind that x86-32 Assembly is commonly referred to as IA-32 (Intel Architecture, 32-bit) Assembly, a 32-bit extension of the original Intel x86 processor architecture. IA-32 has full backwards compatibility (16-bit). AMD64 or AMD 64-bit extension is called x86-64 and is backwards compatible with 32-bit code without performance loss. Intel 64 previously named IA-32e or EM64T is almost identical to x86-64. Throughout the book these terms may be used interchangeably when appropriate. A special notice will be given if covering 16-bit, 32-bit or 64-bits architectures and on any limitations so to limit confusion.