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This book is about two separate but related topics: assembly language programming and computer architecture. This is based on the notion that it is not possible to study computer architecture in any depth without some knowledge of assembly language programming and similarly, one of the reasons for studying assembly language programming is to gain an insight into how computers work - which naturally leads to their architecture. Introducing Assembly Language Programming and Computer Architecture is ideal for first year computer science or engineering students taking degree and diploma level courses. It will also be a useful reference for computer enthusiasts wishing to advance their knowledge and programming skills.
Ideal for undergraduate courses in computer organization, assembly language programming, and computer architecture, An Assembly Language Introduction to Computer Architecture: Using the Intel Pentium introduces students to the fundamentals of computer architecture from a programmer's perspective by teaching them assembly language, the interface between hardware and software. Designed for students in computer science and engineering who have taken one high-level language programming course, it uses a top-down approach, introducing an abstract (registerless) assembly language first. This approach enables students to build on previous knowledge and allows them to write programs from the beginning of the course. Topics covered include basic computer organization, data representation, data structures, the assembly process, exception handling, and more. Examples are developed using the very popular Intel Pentium architecture; however, the concepts covered are valid with any system. This accessible text is supplemented with a helpful website (http: //www.cs.wisc.edu/ smoler/x86text.html) that contains macros to use with programming tools, lecture notes to accompany the text, sample programs, and other useful items.
This is a straightforward text on RISC assembly language programming for MIPS computers - the microprocessor gaining popularity due to its compact and elegant instruction set. Enabling students to understand the internal working of a computer, courses in RISC are an increasingly popular option in assembly language programming.
Detailed coverage of architecture/hardware topics such as CPU, microprocessors, large computer architecture and fault tolerance architecture makes this a valuable reference. For computer science and electrical engineering professionals as well as VAX assembly language programmers.
This hands-on tutorial is a broad examination of how a modern computer works. Classroom tested for over a decade, it gives readers a firm understanding of how computers do what they do, covering essentials like data storage, logic gates and transistors, data types, the CPU, assembly, and machine code. Introduction to Computer Organization gives programmers a practical understanding of what happens in a computer when you execute your code. You may never have to write x86-64 assembly language or design hardware yourself, but knowing how the hardware and software works will give you greater control and confidence over your coding decisions. We start with high level fundamental concepts like memory organization, binary logic, and data types and then explore how they are implemented at the assembly language level. The goal isn’t to make you an assembly programmer, but to help you comprehend what happens behind the scenes between running your program and seeing “Hello World” displayed on the screen. Classroom-tested for over a decade, this book will demystify topics like: How to translate a high-level language code into assembly language How the operating system manages hardware resources with exceptions and interrupts How data is encoded in memory How hardware switches handle decimal data How program code gets transformed into machine code the computer understands How pieces of hardware like the CPU, input/output, and memory interact to make the entire system work Author Robert Plantz takes a practical approach to the material, providing examples and exercises on every page, without sacrificing technical details. Learning how to think like a computer will help you write better programs, in any language, even if you never look at another line of assembly code again.
For freshman/sophomore-level courses in Assembly Language Programming, Introduction to Computer Organization, and Introduction to Computer Architecture. Students using this text will gain an understanding of how the functional components of modern computers are put together and how a computer works at the machine language level. MIPS architecture embodies the fundamental design principles of all contemporary RISC architectures. By incorporating this text into their courses, instructors will be able to prepare their undergraduate students to go on to upper-division computer organization courses.
This textbook introduces readers to assembly and its role in computer programming and design. The author concentrates on covering the 8086 family of processors up to and including the Pentium. The focus is on providing students with a firm grasp of the main features of assembly programming, and how it can be used to improve a computer's performance. All of the main features are covered in depth: stacks, addressing modes, arithmetic, selection and iteration, as well as bit manipulation. Advanced topics include: string processing, macros, interrupts and input/output handling, and interfacing with such higher-level languages as C. The book is based on a successful course given by the author and includes numerous hands-on exercises.
Unlike high-level languages such as Java and C++, assembly language is much closer to the machine code that actually runs computers; it's used to create programs or modules that are very fast and efficient, as well as in hacking exploits and reverse engineering Covering assembly language in the Pentium microprocessor environment, this code-intensive guide shows programmers how to create stand-alone assembly language programs as well as how to incorporate assembly language libraries or routines into existing high-level applications Demonstrates how to manipulate data, incorporate advanced functions and libraries, and maximize application performance Examples use C as a high-level language, Linux as the development environment, and GNU tools for assembling, compiling, linking, and debugging