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Beginning Snapshots

Beginning Snapshots. Chapter 0. Objectives. Give an overview of computer science Show its breadth Provide context for computer science concepts Events from the past Describe basic components, organization of a computer. Algorithms and Data Structures Architecture

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Beginning Snapshots

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  1. Beginning Snapshots Chapter 0

  2. Objectives • Give an overview of computer science • Show its breadth • Provide context for computer science concepts • Events from the past • Describe basic components, organization of a computer C++ An Introduction to Computing, 3rd ed.

  3. Algorithms and Data Structures Architecture Artificial Intelligence and Robotics Database and Information Retrieval Human-Computer Communication Numerical and Symbolic Computation Operating Systems Programming Languages Software Methodology and Engineering Social and Professional Context Areas of Computer Science C++ An Introduction to Computing, 3rd ed.

  4. Important Concepts in Computer History • The mechanism of arithmetic • The stored program • The graphical user interface • The computer network C++ An Introduction to Computing, 3rd ed.

  5. Computing Systems Computers have two kinds of components: • Hardware – physical devices such as • CPU • memory • storage devices • Software – programs such as • Operating system • applications • utilities C++ An Introduction to Computing, 3rd ed.

  6. Hardware: CPU • Central Processing Unit (CPU): • the “brain” of the machine • Circuitry that performs arithmetic and logical ML statements • CPU measurement • Speed (roughly) in megahertz (millions of clock-ticks per second) • Examples • Intel Pentium, AMD K6, Motorola PowerPC, Sun SPARC, C++ An Introduction to Computing, 3rd ed.

  7. Storage • Random Access Memory (RAM) • “Main” memory, which is fast, but volatile... • Analogous to a person’s short-term memory. • Many tiny “on-off” switches • “on” is represented by 1, “off” by 0. • Each switch is called a binary digit, or bit. • 8 bits is called a byte. • 210 bytes =1024 bytes is called a kilobyte (1K) • 220 bytes is called a megabyte (1M). C++ An Introduction to Computing, 3rd ed.

  8. Storage • Secondary Memory (Disk): • Stable storage using magnetic or optical media. • Analogous to a person’s long-term memory. • Slower to access than RAM. • Examples: • floppy disk (measured in kilobytes) • hard disk (measured in gigabytes (230 bytes)) • CD-ROM (measured in megabytes), ... C++ An Introduction to Computing, 3rd ed.

  9. Input and Output • Input devices • Instructions and data must be encoded in binary form and transmitted to the CPU • Examples: • keyboard • mouse, trackball, joystick • scanner • audio, video capture boards C++ An Introduction to Computing, 3rd ed.

  10. Input and Output • Output devices • Convert data from binary to another form • Examples • monitors, printers • sound, video • robotics control • Communication between CPU and peripheral devices is through ports • Ports communicate via the system bus C++ An Introduction to Computing, 3rd ed.

  11. Software: OS • OS acts as the “manager” of the system, • Making sure that each hardware device interacts smoothly with the others. • Provides an interface • Enables user to interact with the computer, • Awaits user input if no application is running. • Examples: MacOS, Windows-95, Windows-NT, UNIX, Linux, Solaris, ... C++ An Introduction to Computing, 3rd ed.

  12. Software: Applications • Applications are non-OS programs • Perform some useful task • Including word processors, spreadsheets, databases, web browsers, C++ compilers • Example C++ compilers/environments: • CodeWarrior (MacOS, Win95, WinNT, Solaris) • GNU C++ (UNIX, Linux) • Turbo/Borland C++ (Win95, WinNT) • Visual C++ (Win95, WinNT) C++ An Introduction to Computing, 3rd ed.

  13. Software: User Programs • Programs that are neither OS programs nor applications are called user programs. • User programs are what you’ll be writing in this course. C++ An Introduction to Computing, 3rd ed.

  14. What is Programming? • Computer Program • A sequence of statements that instruct a computer in how to solve a problem. • Programming • The act of designing, writing and maintaining a program • Programmers • People who write programs C++ An Introduction to Computing, 3rd ed.

  15. What kinds of statementsdo computers understand? • A computer only understands machine language statements. • Characteristics of machine language • A sequence of ones and zeros • Cause the computer to perform a particular action, such as add, subtract, multiply, ... C++ An Introduction to Computing, 3rd ed.

  16. Machine Language (ML) • ML statements • Stored in a computer’s memory • Computer memory is a sequence of switches. • an “on” switch is represented by 1, • an “off” switch is represented by 0. • ML thus appears to be binary (base-2): 0010111010110101 C++ An Introduction to Computing, 3rd ed.

  17. Early Computers ... required a programmer to write in ML... • Problem • Easy to make mistakes! • Such mistakes are hard to find! • Not portable -- only runs on one kind of machine! • Programming was very difficult! C++ An Introduction to Computing, 3rd ed.

  18. Assembly languagestatements (mnemonics) Machine language statements A Bright Idea • Devise a set of abbreviations (mnemonics) corresponding to the ML statements • Create a program (the assembler) to translate them into ML. 100111001110010110100110110111 ADD 34, R1MOVE R1,1200CMPR R1, R2 Assembler C++ An Introduction to Computing, 3rd ed.

  19. More natural than binary. Much easier to read programs Much easier to find and fix mistakes Still not portable to different machines Each machine had its own set of mnemonics Each had its own assembler Advantages and Disadvantages C++ An Introduction to Computing, 3rd ed.

  20. High Level Languages • Improvement on assembly language • Devise a set of statements that are close to human language (if, while, do, ...) • Create a program to translate them into ML. • The set of statements is called a high level language (HLL) • The translation program is called a compiler. C++ An Introduction to Computing, 3rd ed.

  21. Assembler translates one mnemonic into one ML statement Compiler translates one HL statement into several ML statements Contrast Assembler and HLL Compiler 1010110011110101 0000000000010000 0010111010110101 0000000000010010 0010111011111101 0000000000010100 Compiler z = x + y; C++ An Introduction to Computing, 3rd ed.

  22. Advantage of HLLs • Programs are easier to read • Errors are easier to find • Programs are portable from one computer to another • Assumes the language is standard • Just create a new compiler which does the translation into the correct ML C++ An Introduction to Computing, 3rd ed.

  23. Correctly Efficiently Readably In user-friendly fashion It actually solves the problem Without wasting time or space Understandable by another person In a way that is easy for its user to use Objectives in ProgrammingA program should solve a problem: C++ An Introduction to Computing, 3rd ed.

  24. Low levelML in binary language Medium Level Assembly language High Levelas in C++ Hard to read, not portable Mnemonics, easier to read, still not portable Reads like English and algebra, portable Summary of "Levels" of Computer Languages C++ An Introduction to Computing, 3rd ed.

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