1. History of Computer Science

2. Blaise Pascal (approx. 1650) zFrench Mathematician, theologian and scientist

4. Blaise Pascal (approx. 1650) zBuilt a machine with 8 gears called the Pascaline to assist French government in compiling tax reports

5. J.M. Jacquard (early 1800’s) zdeveloped loom that used punched cards (the equivalent of stored programs)

6. Jacquard’s Loom

7. Punched cards zinformation coded on cards (forerunner of modern storage devices) zcards could be linked in a series (forerunner of programs) zSuch programs can automate human tasks

8. Charles Babbage zBritish scientist and inventor, 1860’s zknown as ‘the Father of the Computer’

9. Babbage’s computer zDifference Engine zcould compute and print tables, but never got out of the 'working prototype' stage because of technological limits

10. Babbage’s dream machine zThe Analytical Engine zsteam powered calculating machine using programs on punched cards. zThe analytical engine was never completed in his lifetime.

11. Analytical Engine plans

12. Analytical Engine, con’t zContained all the elements of moderncomputers including x'mill' (for calculating) x'store' (for holding instructions) x'operator' (for carrying out instructions) xreading and writing device

13. Countess Ada Augusta Lovelace zLord Byron’s daughter zMathematician zDevised way to use punched cards to give instructions to Babbage’s machines zThe ‘first computer programmer’

14. Herman Hollerith (1890 census) zInvented a tabulating machine using punched cards (same size as ours today). zFounded forerunner of IBM

15. Hollerith’s machine

16. Thomas Watson, Sr. (head of IBM in 1924) zMade his fortune in punched card tabulating equipment and office equipment zNever convinced that computing machines were worth the risk. zTurned over the company to his son in mid 1950’s

17. Early Electronic Computers zKonrad Zuse yGerman engineering student, 1930’s yNever allowed to complete his computer zABC Computer yAtanasof and Berry y1937 zMark I, Harvard, 1944 yAutomatic calculator used paper tapes

18. The ABC machine Dr. John V. Atanasof Clifford Berry 1937 The first electronic computer

19. John von Neumann zinvented the stored program concept (data and instructions stored in memory in binary form). z1940's

20. Computer Science History zAlan Turing yWW II yEnigma y“Computers” zJohn von Neumann yPrograms as data zENIAC

21. ENIAC

23. Genesis of modern computing

24. Hardware “Generations” zHardware yvacuum tubes ytransistors yprinted circuits yintegrated circuits zMoore’s law yCircuit capacity doubles every 18 months yTrue from 1972 to the present day

25. The First Generation of Computers z1951-1958 zVacuum tubes for internal operations zMagnetic drums for memory zLimited memory zHeat and maintenance problems

26. ENIAC (19,000 vacuum tubes)

27. ENIAC Modular programming?

28. Age of the dinosaurs

29. 1st Generation (con’t) zPunched cards for input and output zSlow input, processing and output zLow-level symbolic languages for programming

30. UNIVAC zUNIVAC I (1951) zdeveloped by Mauchley and Eckert for Remington Rand zreplaced IBM tabulating machines at the Census Bureau

31. UNIVAC J. Presper Eckert and Walter Cronkite and the UNIVAC I on election night 1952

32. Machine language zMachine language: 0's and 1's, the only language a computer can directly execute.

33. Assembly language zMade programming easier. zUses abbreviations instead of binary code. ie. LD for load. zMachine-dependent (not portable)

34. The Second Generation of Computers z1959-1964 zTransistors for internal operations zMagnetic cores for memory zIncreased memory capacity

35. IBM 360

36. Second Generation (con’t) zMagnetic tapes and disks for storage zReductions in size and heat generation zIncrease in processing speed and reliability zIncreased use of high-level languages

37. High-level languages zThe first high-level programming languages were yFORTRAN (1954) yCOBOL (1956) yLISP (1961) yBASIC (1964)

38. Grace Hopper 1952 She introduces the new concept that computers could be programmed using symbols on paper (languages). Later writes the COBOL language.

39. The Third Generation of Computers z1965-1970 zIntegrated circuits on silicon chips for internal operations (IC’s) zIncreased memory capacity zCommon use of minicomputers

40. Third generation (con’t) zEmergence of the software industry zReduction in size and cost zIncrease in speed and reliability zIntroduction of families of computers

41. Key term: LSI zLSI (Large Scale Integration) - method by which circuits containing zthousands of components are packed on a single chip

42. Third generation (con’t) zCompatibility problems (languages, I/O devices, etc. were informally standardized) zMinicomputers popular in offices.

43. The Fourth Generation of Computers z1971-today zVLSI (100,000's of components/chip) zDevelopment of the microprocessor zMicrocomputers and supercomputers Ted Hoff, Intel Designer of first microprocessor

44. 4th generation design

45. VLSI (each wafer has 100-400 IC’s with millions of transistors on each one)

46. Fourth Generation (con’t) zGreater software versatility zIncrease in speed, power and storage capacity zParallel processing zArtificial intelligence and expert systems zRobotics

47. Graphic User Interfaces (GUI) Lisa, 1983 Macintosh, 1984 Sun, 1988

48. Key term: Microprocessor zMicroprocessor: programmable unit on a single silicon chip, containing all essential CPU components (ALU, controller)

49. Modern microprocessor

50. Key term: Microcomputer zMicrocomputer: small, low-priced, personal computer.

51. Early microcomputers Apple II, 1977 Apple I, 1976

52. Apple computer company Steve Wozniak and Steve Jobs

53. Early IBM microcomputers IBM PC, 1981IBM XT, 1983 w/10M Hard drive

54. Software giants

55. Programming language giants BASIC, 1964 David Kennedy, Dartmouth U Niklaus Wirth Pascal, 1972

56. Key term: Supercomputer zSupercomputer: perform millions of operations per second and process zenormous amounts of data zCosts in tens of millions of dollars

57. Supercomputers (l to r) Cray xmp, ymp and Cray 2

58. Cray T90, 40gigaflops

59. Processor speed growth

60. Environment “Generations” zEnvironments ysingle process ybatch process ytime-shared xone powerful computer serving multiple users ypersonal computer xmultiple individual computers yclient/server xindividual computers (clients) interacting with powerful computer providing services to multiple users (server)