assembly language for intel-based computers, 5 th edition chapter 1: basic concepts (c) pearson...
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![Page 1: Assembly Language for Intel-Based Computers, 5 th Edition Chapter 1: Basic Concepts (c) Pearson Education, 2006-2007. All rights reserved. You may modify](https://reader035.vdocuments.site/reader035/viewer/2022062516/56649d565503460f94a34ac6/html5/thumbnails/1.jpg)
Assembly Language for Intel-Based Assembly Language for Intel-Based Computers, 5Computers, 5thth Edition Edition
Chapter 1: Basic Concepts
(c) Pearson Education, 2006-2007. All rights reserved. You may modify and copy this slide show for your personal use, or for use in the classroom, as long as this copyright statement, the author's name, and the title are not changed.
Kip Irvine
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 2
Chapter OverviewChapter Overview
• Welcome to Assembly Language• Virtual Machine Concept• Data Representation• Boolean Operations
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 3
Welcome to Assembly LanguageWelcome to Assembly Language
• Assembly language is the oldest programming language.
• Of all languages, it bears the closest resemblance to the native language of a computer.• Direct access to a computer’s hardware
• To understand a great deal about your computer’s architecture and operating system
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 4
Some Good Questions to Ask [1/4]
• What background should I have?• Computer programming (C++, C#, JAVA, VB…)
• What is an assembler?• A program that converts source-code programs from
assembly language into machine language• MASM (Microsoft Assembler), TASM (Borland Turbo
Assembler)• Linker (a companion program of Assembler) combines
individual files created by an assembler into a single executable program.
• Debugger provides a way for a programmer to trace the execution of a program and examine the contents of memory.
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 5
Some Good Questions to Ask [2/4]
• What types of programs will I create?• 16-Bit Real-Address Mode: MS-DOS, DOS emulator
• 32-Bit Protected Mode: Microsoft Windows
• How does assembly language (AL) relate to machine language?• One-to-one relationship
• How do C++ and Java relate to AL? E.g., X=(Y+4) *3
mov eax, Yadd eax, 4mov ebx, 3imul ebxmov X, eax
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 6
Some Good Questions to Ask [3/4]
• What will I learn?• Basic principles of computer architecture
• Basic Boolean logic
• How IA-32 processors manage memory, using real mode, protected mode and virtual mode
• How high-level language compilers (such as C++) translate statements into assembly language and native machine code
• Improvement of the machine-level debugging skills (e.g., errors due to memory allocation)
• How application programs communicate with the computer’s operating system via interrupt handlers, system calls, and common memory areas
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 7
Some Good Questions to Ask [4/4]
• Is AL portable?• A language whose source program can be compiled and run
on a wide variety of computer systems is said to be portable.• AL makes no attempt to be portable.
• It is tied to a specific processor family.
• Why learn AL?• Embedded system programs• Programs to be highly optimized for both space and runtime
speed• To gain an overall understanding of the interaction between
the hardware, OS and application programs• Device driver: programs that translate general operating
system commands into specific references to hardware details
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 8
Assembly Language ApplicationsAssembly Language Applications
• Some representative types of applications:• Business application for single platform
• Hardware device driver
• Business application for multiple platforms
• Embedded systems & computer games
(see next panel)
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 9
Comparing ASM to High-Level LanguagesComparing ASM to High-Level Languages
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 10
What's NextWhat's Next
• Welcome to Assembly Language• Virtual Machine Concept• Data Representation• Boolean Operations
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 11
Virtual Machine ConceptVirtual Machine Concept
• Virtual Machines• Specific Machine Levels
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 12
Virtual Machines Virtual Machines [1/2]
• Virtual machine concept• A most effective way to explain how a computer’s hardware
and software are related• In terms of programming languages
• Each computer has a native machine language (language L0) that runs directly on its hardware
• A more human-friendly language is usually constructed above machine language, called Language L1
• Programs written in L1 can run two different ways:• Interpretation – L0 program interprets and executes L1
instructions one by one• Translation – L1 program is completely translated into an
L0 program, which then runs on the computer hardware
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 13
Virtual Machines Virtual Machines [2/2]
• In terms of a hypothetical computer• VM1 can execute commands written in language L1.• VM2 can execute commands written in language L2.• The process can repeat until a virtual machine VMn can be
designed that supports a powerful, easy-to-use language.• The Java programming language is based on the virtual machine
concept.• A program written in the Java language is translated by a Java
compiler into Java byte code. • Java byte code: a low-level language that is quickly executed at
run time by Java virtual machine (JVM).• The JVM has been implemented on many different computer
systems, making Java programs relatively system-independent.
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 14
Translating LanguagesTranslating Languages
English: Display the sum of A times B plus C.
C++: cout << (A * B + C);
Assembly Language:
mov eax,Amul Badd eax,Ccall WriteInt
Intel Machine Language:
A1 00000000
F7 25 00000004
03 05 00000008
E8 00500000
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 15
Specific Machine LevelsSpecific Machine Levels
(descriptions of individual levels follow . . . )
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 16
High-Level LanguageHigh-Level Language
• Level 5• Application-oriented languages
• C++, Java, Pascal, Visual Basic . . .• Programs compile into assembly language
(Level 4)
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 17
Assembly LanguageAssembly Language
• Level 4• Instruction mnemonics that have a one-to-
one correspondence to machine language• Calls functions written at the operating
system level (Level 3)• Programs are translated into machine
language (Level 2)
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 18
Operating SystemOperating System
• Level 3• Provides services to Level 4 programs • Translated and run at the instruction set
architecture level (Level 2)
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 19
Instruction Set ArchitectureInstruction Set Architecture
• Level 2• Also known as conventional machine
language• Executed by Level 1 (microarchitecture)
program
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 20
MicroarchitectureMicroarchitecture
• Level 1• Interprets conventional machine instructions
(Level 2)• Executed by digital hardware (Level 0)
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 21
Digital LogicDigital Logic
• Level 0• CPU, constructed from digital logic gates• System bus• Memory• Implemented using bipolar transistors
next: Data Representation
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 22
What's NextWhat's Next
• Welcome to Assembly Language• Virtual Machine Concept• Data Representation• Boolean Operations
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 23
Data RepresentationData Representation
• Binary Numbers• Translating between binary and decimal
• Binary Addition• Integer Storage Sizes• Hexadecimal Integers
• Translating between decimal and hexadecimal
• Hexadecimal subtraction
• Signed Integers• Binary subtraction
• Character Storage
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 24
Binary NumbersBinary Numbers
• Digits are 1 and 0• 1 = true
• 0 = false
• MSB – most significant bit• LSB – least significant bit
• Bit numbering:015
1 0 1 1 0 0 1 0 1 0 0 1 1 1 0 0
MSB LSB
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 25
Binary NumbersBinary Numbers
• Each digit (bit) is either 1 or 0• Each bit represents a power of 2:
Every binary number is a sum of powers of 2
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 26
Translating Binary to DecimalTranslating Binary to Decimal
Weighted positional notation shows how to calculate the decimal value of each binary bit:
dec = (Dn-1 2n-1) (Dn-2 2n-2) ... (D1 21) (D0 20)
D = binary digit
binary 00001001 = decimal 9:
(1 23) + (1 20) = 9
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 27
Translating Unsigned Decimal to BinaryTranslating Unsigned Decimal to Binary
• Repeatedly divide the decimal integer by 2. Each remainder is a binary digit in the translated value:
37 = 100101
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 28
Binary AdditionBinary Addition
• Starting with the LSB, add each pair of digits, include the carry if present.
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 29
Integer Storage SizesInteger Storage Sizes
What is the largest unsigned integer that may be stored in 20 bits?
Standard sizes:
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 30
Hexadecimal IntegersHexadecimal Integers
Binary values are represented in hexadecimal.
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 31
Translating Binary to HexadecimalTranslating Binary to Hexadecimal
• Each hexadecimal digit corresponds to 4 binary bits.
• Example: Translate the binary integer 000101101010011110010100 to hexadecimal:
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 32
Converting Hexadecimal to DecimalConverting Hexadecimal to Decimal
• Multiply each digit by its corresponding power of 16:dec = (D3 163) + (D2 162) + (D1 161) + (D0 160)
• Hex 1234 equals (1 163) + (2 162) + (3 161) + (4 160), or decimal 4,660.
• Hex 3BA4 equals (3 163) + (11 * 162) + (10 161) + (4 160), or decimal 15,268.
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 33
Powers of 16Powers of 16
Used when calculating hexadecimal values up to 8 digits long:
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 34
Converting Decimal to HexadecimalConverting Decimal to Hexadecimal
decimal 422 = 1A6 hexadecimal
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 35
Hexadecimal AdditionHexadecimal Addition
• Divide the sum of two digits by the number base (16). The quotient becomes the carry value, and the remainder is the sum digit.
36 28 28 6A42 45 58 4B78 6D 80 B5
11
21 / 16 = 1, rem 5
Important skill: Programmers frequently add and subtract the addresses of variables and instructions.
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 36
Hexadecimal SubtractionHexadecimal Subtraction
• When a borrow is required from the digit to the left, add 16 (decimal) to the current digit's value:
C6 75A2 4724 2E
1
16 + 5 = 21
Practice: The address of var1 is 00400020. The address of the next variable after var1 is 0040006A. How many bytes are used by var1?
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 37
Signed IntegersSigned Integers
The highest bit indicates the sign. 1 = negative, 0 = positive
If the highest digit of a hexadecimal integer is > 7, the value is negative. Examples: 8A, C5, A2, 9D
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 38
Forming the Two's ComplementForming the Two's Complement
• Negative numbers are stored in two's complement notation
• Represents the additive Inverse
Note that 00000001 + 11111111 = 00000000
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 39
Binary SubtractionBinary Subtraction
• When subtracting A – B, convert B to its two's complement
• Add A to (–B)
0 0 0 0 1 1 0 0 0 0 0 0 1 1 0 0
– 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 1
0 0 0 0 1 0 0 1
Practice: Subtract 0101 from 1001.
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 40
Learn How To Do the Following:Learn How To Do the Following:
• Form the two's complement of a hexadecimal integer• Convert signed binary to decimal• Convert signed decimal to binary• Convert signed decimal to hexadecimal• Convert signed hexadecimal to decimal
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 41
Ranges of Signed IntegersRanges of Signed Integers
The highest bit is reserved for the sign. This limits the range:
Practice: What is the largest positive value that may be stored in 20 bits?
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 42
Character StorageCharacter Storage
• Character sets• Standard ASCII (0 – 127)
• Extended ASCII (0 – 255)
• ANSI (0 – 255)
• Unicode (0 – 65,535)
• Null-terminated String• Array of characters followed by a null byte
• Using the ASCII table• back inside cover of book
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 43
Numeric Data RepresentationNumeric Data Representation
• pure binary• can be calculated directly
• ASCII binary• string of digits: "01010101"
• ASCII decimal• string of digits: "65"
• ASCII hexadecimal• string of digits: “41"
next: Boolean Operations
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 44
What's NextWhat's Next
• Welcome to Assembly Language• Virtual Machine Concept• Data Representation• Boolean Operations
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 45
Boolean OperationsBoolean Operations
• NOT• AND• OR• Operator Precedence• Truth Tables
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 46
Boolean AlgebraBoolean Algebra
• Based on symbolic logic, designed by George Boole• Boolean expressions created from:
• NOT, AND, OR
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 47
NOTNOT
• Inverts (reverses) a boolean value• Truth table for Boolean NOT operator:
NOT
Digital gate diagram for NOT:
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 48
ANDAND
• Truth table for Boolean AND operator:
AND
Digital gate diagram for AND:
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 49
OROR
• Truth table for Boolean OR operator:
OR
Digital gate diagram for OR:
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 50
Operator PrecedenceOperator Precedence
• Examples showing the order of operations:
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 51
Truth Tables Truth Tables (1 of 3)(1 of 3)
• A Boolean function has one or more Boolean inputs, and returns a single Boolean output.
• A truth table shows all the inputs and outputs of a Boolean function
Example: X Y
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 52
Truth Tables Truth Tables (2 of 3)(2 of 3)
• Example: X Y
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 53
Truth Tables Truth Tables (3 of 3)(3 of 3)
• Example: (Y S) (X S)
Two-input multiplexer
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 54
SummarySummary
• Assembly language helps you learn how software is constructed at the lowest levels
• Assembly language has a one-to-one relationship with machine language
• Each layer in a computer's architecture is an abstraction of a machine• layers can be hardware or software
• Boolean expressions are essential to the design of computer hardware and software
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Irvine, Kip R. Assembly Language for Intel-Based Computers 5/e, 2007. Web site Examples 55
54 68 65 20 45 6E 6454 68 65 20 45 6E 64
What do these numbers represent?