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Introduction Chapter 1 S. Dandamudi. Outline  A user’s view of computer systems  What is assembly language?  Relationship to machine language  Advantages.

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Presentation on theme: "Introduction Chapter 1 S. Dandamudi. Outline  A user’s view of computer systems  What is assembly language?  Relationship to machine language  Advantages."— Presentation transcript:

1 Introduction Chapter 1 S. Dandamudi

2 Outline  A user’s view of computer systems  What is assembly language?  Relationship to machine language  Advantages of high- level languages  Faster program development  Easier maintenance  Portability  Why program in assembly language?  Time-efficiency  Space-efficiency  Accessibility to hardware  Typical applications  Why learn assembly language?  Performance: C versus assembly language  Multiplication example 2005 To be used with S. Dandamu di, “Introduct ion to Assembly Language Programm ing,” Second Edition, Springer, 2005. S. Dandamudi Chapter 1: Page 2

3 A User’s View of Computer Systems  Depends on the degree of abstraction provided by the underlying software  We consider a hierarchy of five levels  Moving to the top of hierarchy shields the user from the lower-level details  The top two levels are system independent  The lower four levels are system dependent  Assembly and machine languages are specific to a particular processor  One-to-one correspondence between assembly language and machine language 2005 To be used with S. Dandamu di, “Introduct ion to Assembly Language Programm ing,” Second Edition, Springer, 2005. S. Dandamudi Chap ter 1: Page 3

4 A User’s View of Computer Systems (cont’d) To be used with S. Dandamudi, “Introduction to Assembly Language Programming,” Second Edition, Springer, 2005. S. Dandamudi Chapter 1: Page 4

5 What Is Assembly Language?  Low-level language  Each instruction performs a much lower-level task compared to a high-level language instruction  One-to-one correspondence between assembly language and machine language instructions  For most assembly language instructions, there is a machine language equivalent  Assembler translates assembly language instructions to machine language instructions  Directly influenced by the instruction set and architecture of the processor (CPU) To be used with S. Dandamudi, “Introduction to Assembly Language Programming,” Second Edition, Springer, 2005. Chapter 1: Page 5

6 What Is Assembly Language? (Cont’d)  Some example assembly language instructions: inc result mov class_size,45 and mask1,128 add marks,10  Some points to note:  Assembly language instructions are cryptic  Mnemonics are used for operations  inc for increment, mov for move (i.e., copy)  Assembly language instructions are low level  Cannot write instructions such as mov marks, value To be used with S. Dandamudi, “Introduction to Assembly Language Programming,” Second Edition, Springer, 2005. S. Dandamudi Chapter 1: Page 6 MIPS Examples andi $t2,$t1,15 addu $t3,$t1,$t2 move $t2,$t1

7 What Is Assembly Language? (Cont’d)  Some simple high-level language instructions can be expressed by a single assembly instruction Assembly Language C inc resultresult++; mov class_size,45class_size = 45; and mask1,128mask1 &= 128; add marks,10marks += 10; S. Dandamudi

8 What Is Assembly Language? (Cont’d)  Most high-level language instructions need more than one assembly instruction C Assembly Language size = value;mov AX,value mov size,AX sum += x + y + z;mov AX,sum add AX,x add AX,y add AX,z mov sum,AX,” Second Edition, Springer, 2005. S. Dandamudi Chapter 1: Page 8

9 What Is Assembly Language? (Cont’d)  Readability of assembly language instructions is much better than the machine language instructions  Machine language instructions are a sequence of 1s and 0s Assembly Language Machine Language (in Hex) inc result FF060A00 mov class_size,45 C7060C002D00 and mask,128 80260E0080 add marks,10 83060F000A S. Dandamudi Chapter 1: Page 9

10 What Is Assembly Language? (Cont’d)  MIPS examples Assembly Language Machine Language (in Hex) nop 00000000 move $t2,$t15 000A2021 andi $t2,$t1,15 312A000F addu $t3,$t1,$t2 012A5821 Second Edition, Springer, 2005. S. Dandamudi Chap ter 1: Page 10

11 Advantages of High-level Languages  Program development is faster  High-level instructions  Fewer instructions to code  Programs maintenance is easier  For the same reasons as above  Programs are portable  Contain few machine-dependent details  Can be used with little or no modifications on different types of machines  Compiler translates to the target machine language  Assembly language programs are not portable S. Dandamudi Chapter 1: Page 11

12 Why Program in Assembly Language?  Two main reasons:  Efficiency  Space-efficiency  Time-efficiency  Accessibility to system hardware  Space-efficiency  Assembly code tends to be compact  Time-efficiency  Assembly language programs tend to run faster  Only a well-written assembly language program runs faster  Easy to write an assembly program that runs slower than its high-level language equivalent Second Edition, Springer, 2005. S. Dandamudi Chapter 1: Page 12

13 Typical Applications  Application that need one of the three advantages of the assembly language  Time-efficiency  Time-convenience  Good to have but not required for functional correctness  Graphics  Time-critical  Necessary to satisfy functionality  Real-time applications  Aircraft navigational systems  Process control systems  Robot control software  Missile control software Second Edition, Springer, 2005. S. Dandamudi Chapter 1: Page 13

14 Typical Applications (cont’d)  Accessibility to system hardware  System software typically requires direct control of the system hardware devices  Assemblers, linkers, compilers  Network interfaces, device drivers  Video games  Space-efficiency  Not a big plus point for most applications  Code compactness is important in some cases  Portable and hand-held device software  Spacecraft control software Second Edition, Springer, 2005. S. Dandamudi Chapter 1: Page 14

15 Why Learn Assembly Language?  Some applications require programming in assembly language  Typically only a small part of an application is coded in assembly language (rest written in a high-level language)  Such programs are called mixed mode programs  Assembly language can be used as a tool to learn computer organization  You will know more about the organization and internal workings of a computer system  Personal satisfaction of learning something something complicated and useful Second Edition, Springer, 2005. S. Dandamudi Chapter 1: Page 15

16 Performance: C versus Assembly Language To be used with S. Dandamudi, “Introduction to Assembly Language Programming,” Second Edition, Springer, 2005. S. Dandamudi Chapter 1: Page 16 Last slide

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