introduces the use of assembly language on Linux systems. It is assumed that the reader is already familiar with Unix,
and has been exposed a bit to the Intel register and instruction set.
This PDF covers the following topics related to Assembly Language
Programming : Fundamentals of assembly language, Introduction to assembly
language and ARMlite, Countdown, Matchsticks, Hangman, Indirect & Indexed
addressing, The System Stack, and Subroutines, Interrupts, Snake.
include: High Level Languages, Machine Languages, Assembly Languages, Why Learn Assembly
Language, Why Learn ARM Assembly Lang, Von Neumann Architecture, Registers and RAM, ALU,
Instruction Format, Signed vs Unsigned, 32-bit Arithmetic, 8- and 16-bit Arithmetic, Loads
and Stores, Defining Data, Byte Order.
This lecture note
covers the following topics: Server Configuration, Python Overview, Pandas and
Numpy, Classifiers, Regression, Cross-Validation, Logistic Regression, Support
Vector Machines, Decision Trees, Ensemble Methods, Principal Component Analysis,
Embedding Methods, Clustering, Semi-Supervised Learning.
This note describes the following topics: SASM - Simple Abstract
Language, Number Systems, Data Representation, Arithmetic and Logical
Operations, Floating Point Arithmetic, Data Structures, Using Regsiters for
Efficiency, The Pentium Architecture, Procedures,The Assembly Process, Input and
Output,Interrupts and Exception Handling, Features for Architectural
Performance, Architecture in Perspective, Memory Management and Virtual Memory
starts from basic information needed for MIPS assembly language programming
using MARS IDE, the text covers MIPS arithmetic and logical operators, memory
model of MIPS, control structures, recursion, and array, and so on in grater
This note covers the following topics: Introduction to Computer Organization,
Sample 68000 Addressing Modes, Introduction to Input/Output, Memory
Mapped I/O, Stacks and Stack Operations, Stack Related Instructions,
Recursive/Re-entrant subroutines, Utilizing The Stack for Local Subroutine
Storage, Interrupts & Exceptions,
Interrupt-Driven I/O, Vectored Interrupts, PIT I/O and Timer Interrupt Examples,
68000 Binary Coded Decimal (BCD) And Multiple-Precision Arithmetic Support , Reduced Instruction Set Computer, Basic concepts of CPU organization.