1. Orasa T. 13
Computer Hardware

2. 13
Learning Objectives
Identify the major types and uses of microcomputer, midrange, and mainframe computer systems.
Outline the major technologies and uses of computer peripherals for input, output, and storage.

3. Identify the components and functions of a computer system.13
Learning Objectives (continued)
Identify the components and functions of a computer system.
Identify the computer system and peripherals you would acquire or recommend for a business of your choice.

4. Computer Systems: End User and Enterprise Computing13
Section I
Computer Systems: End User and Enterprise Computing

5. Types of Computer Systems13
Types of Computer Systems
All computers are systems of input, processing, output, storage, and control components.
Three basic categories
Mainframe
Midrange computers
Microcomputers

6. 13 Mainframe Enterprise systems Superservers Transaction processors
Types of Computer Systems (continued)
Mainframe
Enterprise systems
Superservers
Transaction processors
Supercomputers

7. 13 Midrange Network servers Minicomputers Web servers
Types of Computer Systems (continued)
Midrange
Network servers
Minicomputers
Web servers
Multi-user systems

8. 13 Microcomputers Personal computers Network computers
Types of Computer Systems (continued)
Microcomputers
Personal computers
Network computers
Technical workstations
PDAs
Information appliances

9. The most important category of computers13
Microcomputer Systems
The most important category of computers
Desktop
Laptop
Workstation computers
Network servers

10. Microcomputer Systems (continued)13
Microcomputer Systems (continued)
Selection criteria
Solid performance at a reasonable price
Operating system ready
Connectivity

11. Microcomputer Systems (continued)13
Microcomputer Systems (continued)
Network computers
Designed primarily for use with the Internet and corporate intranets
For specialized or limited computing applications
Lower cost of purchase, upgrades, maintenance, and support

12. Microcomputer Systems (continued)13
Microcomputer Systems (continued)
Network computers (continued)
Other benefits
Ease of software distribution and licensing
Computing platform standardization
Reduced end user requirements
Improved manageability

13. Microcomputer Systems (continued)13
Microcomputer Systems (continued)
Information appliances
PDAs
Set-top boxes and video-game consoles
Wireless PDAs
Cellular and PCS phones

14. Microcomputer Systems (continued)13
Microcomputer Systems (continued)
Computer terminals
Dumb terminals
Intelligent terminals
Network terminals
Transaction terminals

15. Midrange Computer Systems13
Midrange Computer Systems
Multi-user systems that can manage networks of PCs and terminals
Less costly to buy, operate, and maintain than mainframes
Popular as network servers
Minicomputers

16. Mainframe Computer Systems13
Mainframe Computer Systems
Large, fast, powerful
Handle high transaction processing volumes or complex computational problems
Super servers for large client/server networks and high-volume Internet websites
Popular for data mining and warehousing

17. Mainframe Computer Systems (continued)13
Mainframe Computer Systems (continued)
Supercomputers
Extremely powerful systems specifically designed for scientific, engineering, and business applications requiring extremely high speeds for massive numeric computations
Use parallel processing architectures
Process at speeds measured in gigaflops and teraflops

18. The Computer System Concept13
The Computer System Concept
Computers are organized according to the following system functions:
Input
Keyboards
Touch screens
Pens
Electronic mice
Optical scanners
Convert data into electronic form

19. The Computer System Concept (continued)13
The Computer System Concept (continued)
Processing
Central Processing Unit (CPU)
Two subunits
Arithmetic-Logic Unit (ALU)
Control Unit

20. The Computer System Concept (continued)13
The Computer System Concept (continued)
Output
Video display units
Printers
Audio response units
Convert electronic information into human-intelligible form

21. The Computer System Concept (continued)13
The Computer System Concept (continued)
Storage
Store data and software instructions
May also include cache memory
Primary storage unit (hard drive)
Secondary storage
Magnetic disks
Optical disk drives

22. The Computer System Concept (continued)13
The Computer System Concept (continued)
Control
The registers and other circuits of the control unit interpret software instructions and transmit directions to the other components of the computer system

23. The Computer System Concept (continued)13
The Computer System Concept (continued)
Computer processing speeds
Milliseconds (thousandths of a second)
Microseconds (millionths of a second)
Nanoseconds (billionths of a second)
Picoseconds (trillionths of a second)

24. 13 Clock speeds Megahertz (MHz) Gigahertz (GHz)
The Computer System Concept (continued)
Clock speeds
Megahertz (MHz)
Millions of cycles per second
Gigahertz (GHz)
Billions of cycles per second

25. Computer Peripherals: Input, Output, and Storage Technologies13
Section II
Computer Peripherals: Input, Output, and Storage Technologies

26. Generic name given to all input, output, and secondary storage devices13
Peripherals
Generic name given to all input, output, and secondary storage devices
Depend on direct connections or telecommunications links to the CPU
All peripherals are online devices

27. Natural user interface13
Input Technologies
Natural user interface
Enter data and commands directly into a computer
Electronic mice and touch pads
Optical scanning, handwriting recognition, voice recognition

28. Used for entering data and text 13
Pointing Devices
Used for entering data and text
Work with your operating system’s graphical user interface (GUI)
Electronic mouse
Trackball
Pointing stick
Touch pad
Touch screen

29. Used in many hand-held computers and PDAs13
Pen-Based Computing
Used in many hand-held computers and PDAs
Digitizer pen
Graphics tablet

30. Speech Recognition Systems13
Speech Recognition Systems
Digitize, analyze, and classify your speech and its sound patterns
Allow operators to perform data entry without using their hands to key in data or instructions
Speaker-independent
Voice-messaging computers

31. Read text or graphics and convert them into digital input 13
Optical Scanning
Read text or graphics and convert them into digital input
Employ photoelectric devices to scan the characters being read

32. Optical Scanning (continued)13
Optical Scanning (continued)
Optical character recognition (OCR)
Reads OCR characters & codes
Merchandise tags
Product labels
Sort mail, score tests
Hand-held optical scanning wands
Reads bar coding
Universal Product Code (UPC)

33. Other Input Technologies13
Other Input Technologies
Magnetic stripe technology
Credit cards
Smart cards
Embedded microprocessor chip
Debit, credit, and other cards
Digital cameras
Still cameras
Digital camcorders

34. Magnetic ink character recognition (MICR) technology13
Other Input Technologies (continued)
Magnetic ink character recognition (MICR) technology
Used by banks to sort and post checks and deposit slips
14 characters of a standardized design
Reader-sorters
Video
Print
Storage

35. 13 Video monitors Video Output Cathode ray tube (CRT)
Liquid crystal displays (LCDs)

36. 13 Inkjet Laser Printed Output
Spray ink onto the page one line at a time
Laser
Use an electrostatic process similar to a copier

37. 13
Storage Trade-Offs

38. Storage Trade-Offs (continued)13
Storage Trade-Offs (continued)
Computer storage fundamentals
Information is stored through the presence or absence of electronic or magnetic signals
Binary representation
1 = ON
0 = OFF

39. Storage Trade-Offs (continued)13
Storage Trade-Offs (continued)
Computer storage fundamentals (continued)
Bit
The smallest element of data
May have a value of either one or zero
Byte
Basic grouping of bits
Typically, a byte consists of 8 bits and represents one character of data

40. Storage Trade-Offs (continued)13
Storage Trade-Offs (continued)
Computer storage fundamentals (continued)
Storage capacities
Kilobytes (KB)
1,000 bytes
Megabytes (MB)
1 million bytes

41. Storage Trade-Offs (continued)13
Storage Trade-Offs (continued)
Computer storage fundamentals (continued)
Gigabytes (GB)
1 billion bytes
Terabytes (TB)
1 trillion bytes
Petabyte (PB)
1 quadrillion bytes

42. Storage Trade-Offs (continued)13
Storage Trade-Offs (continued)
Direct and sequential access
Terms direct access and random access describe the same concept
An element of data or instructions can be directly stored and retrieved by selecting and using any of the locations on the storage media
Each storage position
Has a unique address
Can be individually accessed in approximately the same time

43. Storage Trade-Offs (continued)13
Storage Trade-Offs (continued)
Direct and sequential access (continued)
Sequential access
Does not have unique storage addresses
Serial process
Data are recorded one after another in a predetermined sequence.
Locating an individual item requires searching all of the data until the desired item is located

44. Storage Trade-Offs (continued)13
Storage Trade-Offs (continued)

45. Primary storage of your computer Advantages13
Semiconductor Memory
Primary storage of your computer
Advantages
Small size
Great speed
Shock and temperature resistant
Disadvantage
Volatility

46. Semiconductor Memory (continued)13
Semiconductor Memory (continued)
Two basic types of semiconductor memory
RAM – random access memory
Volatile memory
Read/write memory
“working” memory

47. Semiconductor Memory (continued)13
Semiconductor Memory (continued)
ROM – read only memory
Nonvolatile
Used for permanent storage
Can be read but not erased or overwritten
Variations of ROM
PROM
Programmable read only memory
EPROM
Erasable programmable read only memory

48. Most common form of secondary storage 13
Magnetic Disk Storage
Most common form of secondary storage
Data is recorded on tracks in the form of tiny magnetized spots
Thousands of bytes recorded on each track

49. Magnetic Disk Storage (continued)13
Magnetic Disk Storage (continued)
Types of Magnetic Disks
Floppy disks
Zip disks
Hard disk drives

50. Magnetic Disk Storage (continued)13
Magnetic Disk Storage (continued)
Redundant arrays of independent disks (RAID)
Provides large capacities with high access speeds
Data are accessed in parallel over multiple paths from many disks
Fault tolerant
Storage area networks (SANs)
Fiber channel LANs that connect many RAID units

51. Used as secondary storage 13
Magnetic Tape Storage
Used as secondary storage
Also used in robotic automated drive assemblies
Lower-cost storage
Archival storage

52. 13
Optical Disk Storage
CD-ROM
CD-R
CD-RW
DVD
DVD-ROM
DVD-RAM

53. Business applications13
Optical Disk Storage (continued)
Business applications
Image processing
Provide access to reference materials in a convenient, compact form
videos

54. Do you agree with the statement: “The network is the computer”?13
Discussion Questions
Do you agree with the statement: “The network is the computer”?
What trends are occurring in the development and use of the major types of computer systems?

55. Are networks of PCs and servers making mainframe computers obsolete?13
Discussion Questions (continued)
Do you think that network computers (NCs) will replace personal computers (PCs) in business applications?
Are networks of PCs and servers making mainframe computers obsolete?

56. 13
Discussion Questions (continued)
What trends are occurring in the development and use of peripheral devices? Why are those trends occurring?
When would you recommend the use of each of the following:
Network computers
NetPCs
Network terminals
Information appliances in business applications

57. Discussion Questions (continued)13
Discussion Questions (continued)
What processor, memory, magnetic disk storage, and video display capabilities would you require for a personal computer that you would use for business purposes?
What other peripheral devices and capabilities would you want to have for your business PC?

58. The Business Value of PDAs
Real World Case 1 – City of Richmond
& Tim Beaty Builders 13
The Business Value of PDAs
What are the business benefits of PDAs for business applications?
What are the limitations of PDAs for business use?

59. 13
References
James A. O'Brien; George M. Marakas. Management Information Systems: Managing Information Technology in the Business Enterprise 6th Ed., Boston: McGraw-Hill/ Irwin,2004