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Computer Architecture with Python and ARM

You're reading from   Computer Architecture with Python and ARM Learn how computers work, program your own, and explore assembly language on Raspberry Pi

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Product type Paperback
Published in Jul 2023
Publisher Packt
ISBN-13 9781837636679
Length 412 pages
Edition 1st Edition
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Author (1):
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Alan Clements Alan Clements
Author Profile Icon Alan Clements
Alan Clements
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Table of Contents (18) Chapters Close

Preface 1. Part 1: Using Python to Simulate a Computer
2. Chapter 1: From Finite State Machines to Computers FREE CHAPTER 3. Chapter 2: High-Speed Introduction to Python 4. Chapter 3: Data Flow in a Computer 5. Chapter 4: Crafting an Interpreter – First Steps 6. Chapter 5: A Little More Python 7. Chapter 6: TC1 Assembler and Simulator Design 8. Chapter 7: Extending the TC1 9. Chapter 8: Simulators for Other Architectures 10. Part 2: Using Raspberry Pi to Study a Real Computer Architecture
11. Chapter 9: Raspberry Pi: An Introduction 12. Chapter 10: A Closer Look at the ARM 13. Chapter 11: ARM Addressing Modes 14. Chapter 12: Subroutines and the Stack 15. Index 16. Other Books You May Enjoy Appendices – Summary of Key Concepts

An assembly-level program

Having developed our computer a little further, in this section, we will show how a simple program is executed. Assume that this computer doesn’t provide three-address instructions (i.e., you can’t specify an operation with three registers and/or memory addresses) and we want to implement the high-level language operation Z = X + Y. Here, the plus symbol means arithmetic addition. An assembly language program that carries out this operation is given in the following code block. Remember that X, Y, and Z are symbolic names referring to the locations of the variables in memory. Logically, the store operation should be written STR Z,r2, with the destination operand on the left just like other instructions. By convention, it is written as STR r2,Z, with the source register on the left. This is a quirk of programming history:

   LDR  r2,X  Load data register r2 with the contents of memory location X

 ...

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