Presentation is loading. Please wait.

Presentation is loading. Please wait.

James Tam Introduction To Computers: Hardware and Software In this section of notes you will learn how the basic parts of a computer work as well what.

Similar presentations


Presentation on theme: "James Tam Introduction To Computers: Hardware and Software In this section of notes you will learn how the basic parts of a computer work as well what."— Presentation transcript:

1 James Tam Introduction To Computers: Hardware and Software In this section of notes you will learn how the basic parts of a computer work as well what are the fundamental categories of computer programs

2 James Tam What Is Hardware? The physical components of a computer system e.g., a monitor, keyboard, mouse and the computer itself.

3 James Tam Basic Units Of Measurement Bit binary digit smallest unit of measurement two possible values Byte 8 bits Word The number of adjacent bits that can be stored and manipulated as a unit 32, 64 for home computers, 128 for the most powerful

4 James Tam Large Units Of Measurement (Memory, Storage) Note: use powers of two because computer memory and storage are based on the basic unit (bit). ~ 20 million four-drawer filing cabinets full of text Kilobyte (kB) – a thousand bytes (1,024 = 2 10 ) Megabyte (MB) - a million (1,048,576 = 2 20 ) Gigabyte (GB) – a billion (1,073,741,824 = 2 30 ) Terabyte (TB) – a trillion (1,099,511,627,776 = 2 40 ) ~ A complete set of encyclopedias requires about 600 MB of storage

5 James Tam Small Units Of Measurement (Speed) millisecond (ms) – a thousandth of a second (1/1,000 = 10 -3 ) microsecond (μs) - a millionth of a second (1/1,000,000 = 10 -6 ) nanosecond (ns) – a billionth of a second (1/1,000,000,000 = 10 -9 )

6 James Tam High Level View Of A Computer

7 James Tam Input

8 James Tam Input Devices Used by a person to communicate to a computer. Person to computer

9 James Tam Example Input Devices Keyboard Mouse Need not be mundane! (A Jouse) From http://www.jouse.com/

10 James Tam Processor

11 James Tam Processor The brains of a computer (maybe not…) A real processor

12 James Tam Processor Speed Determined by: Type of processor e.g., Pentium III, IV, AMD Duron, Athalon Clock speed -1 Hz = 1 pulse is sent out each second (1 second passes between each pulse) -10 Hz = 10 pulses are sent out each second (0.1 seconds passes between each pulse) -: -25 MHz machine = 25 million pulses sent out each second (0.000 000 04 seconds between each pulse or 40 ns between pulses)

13 James Tam The Processor And The Computer Image from Peter Norton's Computing Fundamentals (3 rd Edition) by Norton P.

14 James Tam Memory

15 James Tam RAM Volatile Used for temporary storage Typical ranges 256 MB ~1 GB

16 James Tam RAM (2) Means direct access to any part of memory Picture from Computers in your future by Pfaffenberger B

17 James Tam How Does RAM Work? Like a leaky bucket From www.howstuffworks.com

18 James Tam How Does RAM Work? Like a leaky bucket From www.howstuffworks.com Transistor Capacitor

19 James Tam RAM: A Collection Of Capacitors A capacitor

20 James Tam Types Of RAM Old versions of RAM EDO RAM -Slowest -For older computers SD-RAM -Faster -Was the former standard Pictures from http://www.geekshelter.com

21 James Tam Types Of RAM (2) Newer version of RAM DDR-RAM (Double Data Rate RAM) -Double the speed of SD-RAM -Originally exclusively used with AMD processors RD-RAM (Rambus Dynamic RAM) -Produced by Rambus -Fast! -Used with Pentium 4 powered computers Pictures from http://www.geekshelter.com

22 James Tam Storage

23 James Tam Storage Vs. Memory? Memory (e.g., RAM) keep the information for a shorter period of time (usually volatile) faster more expensive Storage (e.g., Hard disk) the information is retained longer (non-volatile) slower cheaper

24 James Tam Categories Of Storage 1) Magnetic Floppy disks Zip disks Jazz drives Hard drives 2) Optical CD-ROM DVD

25 James Tam Magnetic Drives: A Hard Drive In Action

26 James Tam Magnetic Drives: Storage Capacities Floppy disks ~ 1 MB Zip disks 100 or 250 MB Jazz drives 1 – 2 GB Hard drives ~20 – 120+ GB

27 James Tam Optical Drives: Reading Information

28 James Tam Optical Drives: Recording and Reading Information

29 James Tam Optical Drives: Re-writing

30 James Tam Optical Drives: Re-writing

31 James Tam Optical Drives CD's ~ 700 MB storage CD-ROM (read only) CD-R: needs a CD-burner to create (record) to a CD CD-RW: can write and erase CD to reuse it (re-writable) DVD-ROM ~ 3.8 – 17 GB storage DVD- ROM (read only) Many recordable formats (e.g., DVD/CD-RW, DVD-RAM, DVD-R, CD- RW etc)

32 James Tam Output

33 James Tam Output Devices Displays information from the computer to the a person.

34 James Tam The Most Common Output Device: The Monitor Types of computer monitors 1)CRT's (Cathode Ray Tube) 2)LCD's (Liquid Crystal Display)

35 James Tam CRT's Monitors Images are displayed with dots (pixels) drawn with light "guns" Picture from Computer Confluence by Beekman G.

36 James Tam LCD Monitors Employ a conductive grid for each row and column The meeting of a row and column allows light to be emitted (a pixel can be seen)

37 James Tam Colour LCD Monitors Use three subpixels: One wire for each row One wire for each subpixel One colour filter for each colour (red, blue, green)

38 James Tam Some Determinants Of The Quality Of Monitors 1)Size 2)Resolution 3)Color depth 4)Dot pitch

39 James Tam 1) Monitor Quality (size) Measured diagonally

40 James Tam 2) Monitor quality (resolution) Columns of pixels x Rows of pixels For a given monitor size, the higher the resolution the sharper the image Col 1, Row 1 Col 2, Row 1 Col 3, Row 1 …Col [c], Row 1 Col 1, Row 2 Col [c], Row 2 Col 1, Row 3 Col [c], Row 3 :: Col 1, Row [r] Col 2, Row [r] Col 3, Row [r] …Col[c], Row[r]

41 James Tam 3) Monitor Quality (Color Depth) The number of possible colors that can be displayed for each pixel. e.g. monochrome (single color) 0 1 2 possible values Uses up 1 bit of space

42 James Tam 3) Monitor Quality (Effects Of Color Depth) 256 colours 16 colours 2 colours 16 million colours

43 James Tam 4) Monitor Quality (Dot Pitch) Dot pitch is the distance between the center of each color dot (mm) dot pitch

44 James Tam Refresh rate of monitors How fast the screen is redrawn (70 Hz / 70 times per second is usually a good minimum)

45 James Tam All The Basic Parts Together Diagram from http://www.jegsworks.com

46 James Tam The Motherboard Diagram from http://www.jegsworks.com

47 James Tam Printers Common types Inkjet Laser Note: By default on the CPSC network you only have access to text-only printers (do not print formatted text or graphics on them!) You can pay a minimal fee to access the laser printers.

48 James Tam How Inkjet Printers Work. Use a series of nozzles to spray drops of ink directly on the paper Slots for print cartridges Ink nozzles Picture from www.howstuffworks.com Print heads

49 James Tam How Laser Printers Work Use a laser to produce patterns on an ink drum using static electricity Diagram from www.howstuffworks.com

50 James Tam Software The instructions that tell the hardware what to do. 1)Balance my check book. 2)Do taxes 3)Print out my resume 4)::

51 James Tam Categories Of Software 1)Application programs (applications) 2)Operating systems 3)Compilers

52 James Tam 1) Common Types Of Application Programs 1)Word processors 2)Spreadsheets 3)Databases 4)Presentation software 5)Web browsers : :

53 James Tam 2) Operating Systems: What Do They Do? 1)Act an an intermediary between the user and the hardware 2)Manage the resources of the computer 3)Some may act to secure some parts of the computer

54 James Tam Operating Systems: The Intermediary Between The User And The Hardware (operating system)

55 James Tam Operating Systems: Manage System Resources (1) e.g., Processor time A = B + C

56 James Tam Operating Systems: Manage System Resources (2) A = B + C RAM e.g., Memory management

57 James Tam Operating Systems: Securing The Computer (not done) Single (faceless) user – security less of an issue My resume Claude Rains from Phantom of the Opera

58 James Tam Operating Systems: Securing The Computer (done) Multiple users – security is more important Bill Mary George Mary's assignment Bill's assignment George's assignment

59 James Tam 3) Compilers (Real-World) Huh? Merry Christmas and Happy New Year! Same to you buddy! Real life translation

60 James Tam 3) Compilers (Computers) 1) A programmer writes a computer program 2) The compiler translates the program into a form that the computer can understand 3) An executable program is created Anybody who has this executable on their computer can then run (use) it.

61 James Tam Summary What is hardware? What are the basic parts of a computer? What are some common input devices? What is the purpose of the processor? What are some examples of modern processors and their speeds? How does computer memory work? What are some common types of computer storage devices? What are the main types of computer monitors and how do they work? What are some of the factors that determine the quality of computer monitors? What is software? What are the main categories of software What are application programs? What do operating systems do? What is a compiler?


Download ppt "James Tam Introduction To Computers: Hardware and Software In this section of notes you will learn how the basic parts of a computer work as well what."

Similar presentations


Ads by Google