• Post category:StudyBullet-5
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What you will learn

 

Understand the basics of ARM emulation and program structure

 

The fundamentals of register, stack, and memory addressing modes

 

The concepts of arithmetic and logical operators

 

The main concept of branches, loops, and subroutine branches

 

The ways to interact with simple hardware devices

Description

ARM is becoming an increasingly popular language in the world of computer programming. It is estimated that over 200 billion devices contain an ARM chip, making the ARM language valuable to understand. By understanding an assembly language, programmers can have a better understanding of how code is compiled and run, making it possible to create more efficient programs. In addition to this, programmers can work at a lower level, allowing them to write code that interacts with hardware in an efficient manner.

In this course, you will learn:


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  • How to emulate an ARM processor

  • How to interact with ARM processors through register and stack memory

  • How to interact with various memory types

  • How to conduct basic arithmetic and logical instructions

  • How to create branching logic

  • How to create basic loop structures

  • How to write functions and subroutines

  • How to interact with basic hardware

By the end of this course, you will have a fundamental understanding of the ARM processor, as well as assembly programming in general. You will be able to write basic ARM assembly programs, using various instructions available in the processor. You will also have the understanding required to further expand your knowledge, allowing you to become an expert in the area of assembly programming. You should consider this course if you are interested in learning about assembly programming, or ARM assembly!

 

English
language

Content

Introduction

Emulation and Memory Layout
Your First Program
Addressing Modes

Arithmetic and Logical Operations

Arithmetic and CPSR Flags
Logical Operations
Logical Shifts and Rotations 1
Logical Shifts and Rotations 2

Conditionals, Loops, and Functions

Conditions and Branches
Loops with Branches
Conditional Instruction Execution
Branch with link register and returns
Preseving and Retrieving Stack Data in Functions
Hardware Interactions