1. Principles of Information Systems, Sixth Edition 1 Hardware: Input, Processing, and Output Devices Chapter 3

2. Principles of Information Systems, Sixth Edition 2 Chapter 3 Outline Computer Systems: Integrating the Power of Technology Processing and Memory Devices: Power, Speed and Capacity –memory characteristics and functions Secondary Storage Input and Output Devices: The Gateway to Computer Systems Computer System Types, Standards, Selecting and Upgrading

3. Principles of Information Systems, Sixth Edition 3 Computer Systems: Integrating the Power of Technology

4. Principles of Information Systems, Sixth Edition 4 Hardware Components 1. Processor (CPU) 2. Memory (primary storage) 3. Secondary storage 4. Input devices 5. Output devices 6. Communications devices

5. Principles of Information Systems, Sixth Edition 5 How A Computer Thinks: The Processor Step 1: Fetch instruction Step 2: Decode instruction Step 3: Execute the instruction Step 4: Store results

6. Principles of Information Systems, Sixth Edition 6 Processing & Memory Devices

7. Principles of Information Systems, Sixth Edition 7 Processing Characteristics and Functions Machine cycle time is measured in: –Microseconds (1 millionth) –Nanoseconds (1 billionth) –Picoseconds (1 trillionth) –MIPS (Millions of Instructions Processed per Second) Clock speed: electronic pulses affecting machine cycle time –Hertz: one cycle (pulse) per second –Megahertz (MHz): millions of cycles per second Microcode: internal, predefined elementary operations in a CPU

8. Principles of Information Systems, Sixth Edition 8 Clock Speed

9. Principles of Information Systems, Sixth Edition 9 Wordlength and Bus Line Width Bits (Binary Digits): smallest form of data in a computer Wordlength: number of bits that can be processed together as a unit. Equal to the size of the processor’s registers. Bus lines: electrical circuits used as central paths for data flow. Bus line width: number of “lanes” on the bus available for carrying data. Should match word size.

10. Principles of Information Systems, Sixth Edition 10 Physical Characteristics of the CPU Superconductivity - property of certain metals that allows current to flow with minimal electrical resistance Optical processors - uses light waves instead of electrical current

11. Principles of Information Systems, Sixth Edition 11 History of Computing: Eniac 5 Built during WWII: The first electronic computer Used huge numbers of vacuum tubes. These often broke down and had to be replaced. The term “computer bug” comes from the fact that moths would sometimes get into the vacuum tube arrays and be the source of some of the tubes breaking down.

12. Principles of Information Systems, Sixth Edition 12 Semiconductors or Solid State Electronics Using these, Shockley, Bardeen and Brattain (1947) created the first “solid state” transistor, essentially an electronically controlled switch, Made using semiconductors but much more durable than a vacuum tube. The 2 nd generation of computers were the first to use solid state technology. Their Central Processing Units (CPUs) were built on large scale circuit boards.

13. Principles of Information Systems, Sixth Edition 13 Integrated Circuits In 1958, Jack Kilby at Texas Instruments created the first “Integrate Circuit”, shrinking the size of the semiconductor transistors. Integrated circuits (ICs) make possible the creation of complex circuits on a single chip. The first IC-based microprocessors (“CPU on a chip”) were manufactured around 1970. This led to the creation of the microcomputer.

14. Principles of Information Systems, Sixth Edition 14 Moore’s Law Intel’s first microprocessor, the 4004, was manufactured in 1971, had 4 bit words and 1 kilobyte of primary memory. The miniaturization of the integration circuits has continued at a rapid, more or less predictable pace since the 1960s. Intel’s Gordon Moore, seeing this trend, used it to predict the no. of possible transistors on a chip and/or trends in processing power. IC technology will eventually be replaced by some other technology, but should continue for about 10 years.

15. Principles of Information Systems, Sixth Edition 15 Moore’s Law Moore’s Law - transistor density/processing power on an integrate circuit doubles every 18 months

16. Principles of Information Systems, Sixth Edition 16 CISC and RISC Complex Instruction Set Computing (CISC) - places as many microcode instructions into the central processor as possible Reduced Instruction Set Computing (RISC) - involves reducing the number of microcode instructions built into a chip to an essential set of common microcode instructions

17. Principles of Information Systems, Sixth Edition 17 memory characteristics and functions

18. Principles of Information Systems, Sixth Edition 18 Storage Capacity

19. Principles of Information Systems, Sixth Edition 19 Memory Types Random Access Memory (RAM) Types: –EDO (Extended Data Out) –DRAM (Dynamic RAM) –SDRAM (Synchronous DRAM) Read Only Memory (ROM) Types: –ROM –PROM (programmable ROM) –EPROM (erasable programmable ROM)

20. Principles of Information Systems, Sixth Edition 20 Cache Memory

21. Principles of Information Systems, Sixth Edition 21 Multiprocessing Speeds processing by linking hundreds and even thousands of processors to operate at the same time Can coordinate large amounts of data and access them with greater speed

22. Principles of Information Systems, Sixth Edition 22 Massively Parallel Processing

23. Principles of Information Systems, Sixth Edition 23 Secondary Storage

24. Principles of Information Systems, Sixth Edition 24 Secondary Storage Offers the advantages of nonvolatility, greater capacity, and greater economy Access methods, storage capacities, and portability required are determined by the information system’s objectives

25. Principles of Information Systems, Sixth Edition 25 Secondary Storage

26. Principles of Information Systems, Sixth Edition 26 Access Methods Sequential: records must be retrieved in order –Devices used are called sequential access storage devices (SASD) Direct: records can be retrieved in any order –Devices used are called direct access storage devices (DASDs)

27. Principles of Information Systems, Sixth Edition 27 Storage Devices Magnetic tapes Magnetic disks RAID Storage area networks (SAN) Optical disks Magneto-optical (MO) disks Digital versatile disks (DVDs)

28. Principles of Information Systems, Sixth Edition 28 Magnetic Disks

29. Principles of Information Systems, Sixth Edition 29 Storage Area Network

30. Principles of Information Systems, Sixth Edition 30 Digital Versatile Disk

31. Principles of Information Systems, Sixth Edition 31 Additional Devices and Media Memory cards Flash memory Expandable storage

32. Principles of Information Systems, Sixth Edition 32 Expandable Storage

33. Principles of Information Systems, Sixth Edition 33 Comparison of Secondary Storage Devices

34. Principles of Information Systems, Sixth Edition 34 Characteristics and Functionality Data - can be human or machine readable Data entry - converts human readable data into machine-readable form Data input - transfers machine-readable data into the system Source data automation - capturing and editing data at its source

35. Principles of Information Systems, Sixth Edition 35 Input and Output Devices

36. Principles of Information Systems, Sixth Edition 36 Input Devices Personal computer input devices –Keyboard –Mouse Voice-recognition devices Digital cameras Terminals

37. Principles of Information Systems, Sixth Edition 37 Digital Computer Cameras

38. Principles of Information Systems, Sixth Edition 38 Magnetic Ink Character Recognition (MICR) Device

39. Principles of Information Systems, Sixth Edition 39 Output Devices Display monitors Printers and plotters Music devices Liquid Crystal Displays (LCDs) –Active matrix –Passive matrix

40. Principles of Information Systems, Sixth Edition 40 Printers

41. Principles of Information Systems, Sixth Edition 41 Computer System Types, Standards, Selecting, and Upgrading

42. Principles of Information Systems, Sixth Edition 42 Computer System Types

43. Principles of Information Systems, Sixth Edition 43 Computer System Types

44. Principles of Information Systems, Sixth Edition 44 Standards

45. Principles of Information Systems, Sixth Edition 45 Standards

46. Principles of Information Systems, Sixth Edition 46 Selecting and Upgrading Computer Systems Hard drive considerations Main memory considerations Printer considerations

47. Principles of Information Systems, Sixth Edition 47 Example of Price Lists

48. Principles of Information Systems, Sixth Edition 48 Summary Hardware - includes any machinery that assists with the input, processing, and output activities of a CBIS Processing speed - often measured by the time it takes to complete one machine cycle Primary storage (memory) - provides working storage for program instructions and data Common forms of secondary storage - magnetic tape, magnetic disk, compact disk, digital video disk, and optical disk storage

49. Principles of Information Systems, Sixth Edition 49 Principles and Learning Objectives Assembling an effective, efficient computer system requires an understanding of its relationship to the information system and the organization. The computer system objectives are subordinate to, but supportive of, the information system and the needs of the organization. –DESCRIBE HOW TO SELECT AND ORGANIZE COMPUTER SYSTEM COMPONENTS TO SUPPORT INFORMATION SYSTEM OBJECTIVES AND BUSINESS ORGANIZATION NEEDS

50. Principles of Information Systems, Sixth Edition 50 Principles and Learning Objectives When selecting computer devices, you also must consider the current and future needs of the information system and the organization. The computer system objectives are subordinate to, but supportive of, the information system and the needs of the organization. –DESCRIBE THE POWER, SPEED, AND CAPACITY OF CENTRAL PROCESSING AND MEMORY DEVICES. –DESCRIBE THE ACCESS METHODS, CAPACITY, AND PORTABILITY OF SECONDARY STORAGE DEVICES. –DISCUSS THE SPEED, FUNCTIONALITY, AND IMPORTANCE OF INPUT AND OUTPUT DEVICES. –IDENTIFY POPULAR CLASSES OF COMPUTER SYSTEMS AND DISCUSS THE ROLE OF EACH.

51. Principles of Information Systems, Sixth Edition 51 End of Chapter 3