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

Product type Paperback

Published in Jul 2023

Publisher Packt

ISBN-13 9781837636679

Length 412 pages

Edition 1st Edition

Languages

Python

Tools

Raspberry Pi

Concepts

Android Development

Author (1):

Alan Clements

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Table of Contents (18) Chapters

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

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Appendices – Summary of Key Concepts

Summary

In this chapter, we have introduced a real computer, the Raspberry Pi. Instead of designing our own computer instruction sets, we’ve looked at the ARM microprocessor that is at the heart of the Raspberry Pi and most smartphones.

We introduced the basics of the Raspberry Pi and showed how to write an ARM assembly language program that can run on it. This requires an understanding of the ARM assembler and the use of the linker. We demonstrated how you can then run your ARM program instruction-by-instruction using the gdb debugger.

One important feature of Raspberry Pi’s architecture we have encountered is the way in which data in memory is modified. You cannot use a str (store) instruction to modify data in memory. You must do it indirectly via a pointer to the address of the memory you wish to change. The following short program demonstrates this vital point. A data item in memory is read directly using an ldr but modified in memory using a pointer to a pointer...

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

Table of Contents (18) Chapters

Summary

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Authors (1)