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Computer Architecture with Python and ARM

Computer Architecture with Python and ARM

By : Alan Clements
4.6 (7)
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Computer Architecture with Python and ARM

Computer Architecture with Python and ARM

4.6 (7)
By: Alan Clements

Overview of this book

This comprehensive guide offers a unique and immersive learning experience by combining Python programming with ARM architecture. Starting with an introduction to computer architecture and the flow of data within a computer system, you’ll progress to building your own interpreter using Python. You’ll see how this foundation enables the simulation of computer operations and learn ways to enhance a simulator by adding new instructions and displaying improved results. As you advance, you’ll explore the TC1 Assembler and Simulator Program to gain insights into instruction analysis and explore practical examples of simulators. This will help you build essential skills in understanding complex computer instructions, strengthening your grasp of computer architecture. Moreover, you’ll be introduced to the Raspberry Pi operating system, preparing you to delve into the detailed language of the ARM computer. This includes exploring the ARM instruction set architecture, data-processing instructions, subroutines, and the stack. With clear explanations, practical examples, and coding exercises, this resource will enable you to design and construct your own computer simulator, simulate assembly language programs, and leverage the Raspberry Pi for ARM programming.
Table of Contents (18 chapters)
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1
Part 1: Using Python to Simulate a Computer
Lock Free Chapter
2
Chapter 1: From Finite State Machines to Computers
10
Part 2: Using Raspberry Pi to Study a Real Computer Architecture

Summary

Addressing modes comprise all the ways to express the location of an item in memory. Addressing modes are simultaneously the easiest and most difficult topic in assembly language programming. The concept is simple, but indirect addressing modes that use pointers may take some effort to visualize.

In this chapter, we learned about literal or immediate addressing where an operand is an actual value (it’s the thing itself and not the location). Literal values are used to specify constants – for example, in x + 5, the number 5 is a literal. This is the simplest of addressing modes, and no memory location is accessed because the data is part of the instruction.

We also looked at the ARM’s rather unusual way of specifying literals, by providing a value in the range of 0 to 255 and a multiplier that can multiply it by an even power of 2. You can specify 5 and store 5, 20, 80, and so on.

Much of this chapter was taken up by register indirect addressing...

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Computer Architecture with Python and ARM
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