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Meet the inventor of the electronic spreadsheet

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    How many of you have used
    an electronic spreadsheet,
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    like Microsoft Excel?
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    Very good.
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    Now, how many of you have run a business
    with a spreadsheet by hand,
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    like my dad did for his small
    printing business in Philadelphia?
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    A lot less.
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    Well, that's the way it was done
    for hundreds of years.
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    In early 1978,
    I started working on an idea
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    that eventually became VisiCalc.
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    And the next year it shipped
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    running on something new
    called an Apple II personal computer.
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    You could tell that things
    had really changed when, six years later,
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    the Wall Street Journal ran an editorial
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    that assumed you knew what VisiCalc was
    and maybe even were using it.
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    Steve Jobs back in 1990
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    said that "spreadsheets
    propelled the industry forward."
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    "VisiCalc propelled the success of Apple
    more than any other single event."
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    On a more personal note,
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    Steve said, "If VisiCalc had been written
    for some other computer,
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    you'd be interviewing
    somebody else right now."
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    So, VisiCalc was instrumental in getting
    personal computers on business desks.
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    How did it come about?
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    What was it? What did I go through
    to make it be what it was?
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    Well, I first learned to program
    back in 1966, when I was 15 --
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    just a couple months
    after this photo was taken.
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    Few high schoolers had access
    to computers in those days.
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    But through luck
    and an awful lot of perseverance,
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    I was able to get
    computer time around the city.
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    After sleeping in the mud at Woodstock,
    I went off to MIT to go to college,
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    where to make money,
    I worked on the Multics Project.
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    Multics was a trailblazing
    interactive time-sharing system.
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    Have you heard of the Linux
    and Unix operating systems?
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    They came from Multics.
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    I worked on the Multics versions
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    of what are known
    as interpreted computer languages,
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    that are used by people
    in noncomputer fields
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    to do their calculations
    while seated at a computer terminal.
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    After I graduated from MIT,
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    I went to work for
    Digital Equipment Corporation.
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    At DEC, I worked on software
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    for the new area
    of computerized typesetting.
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    I helped newspapers
    replace their reporters' typewriters
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    with computer terminals.
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    I'd write software
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    and then I'd go out in the field
    to places like the Kansas City Star,
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    where I would train users
    and get feedback.
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    This was real-world experience
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    that is quite different
    than what I saw in the lab at MIT.
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    After that, I was project leader
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    of the software for DEC's first
    word processor, again a new field.
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    Like with typesetting, the important thing
    was crafting a user interface
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    that was both natural and efficient
    for noncomputer people to use.
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    After I was at DEC, I went
    to work for a small company
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    that made microprocessor-based electronic
    cash registers for the fast-food industry.
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    But I had always wanted to start
    a company with my friend Bob Frankston
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    that I met on the Multics project at MIT.
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    So I decided to go back to school to learn
    as much as I could about business.
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    And in the fall of 1977,
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    I entered the MBA program
    at Harvard Business School.
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    I was one of the few
    percentage of students
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    who had a background
    in computer programming.
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    There's a picture of me from the yearbook
    sitting in the front row.
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    (Laughter)
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    Now at Harvard,
    we learned by the case method.
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    We'd do about three cases a day.
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    Cases consist of up to a few dozen pages
    describing particular business situations.
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    They often have exhibits,
    and exhibits often have words and numbers
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    laid out in ways that make sense
    for the particular situation.
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    They're usually all somewhat different.
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    Here's my homework.
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    Again, numbers, words,
    laid out in ways that made sense.
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    Lots of calculations --
    we got really close to our calculators.
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    In fact, here's my calculator.
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    For Halloween, I went
    dressed up as a calculator.
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    (Laughter)
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    At the beginning of each class,
    the professor would call on somebody
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    to present the case.
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    What they would do is
    they would explain what was going on
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    and then dictate information
    that the professor would transcribe
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    onto the many motorized blackboards
    in the front of the class,
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    and then we'd have a discussion.
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    One of the really frustrating things
    is when you've done all your homework,
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    you come in the next day
    only to find out that you made an error
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    and all of the other numbers
    you did were wrong.
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    And you couldn't participate as well.
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    And we were marked by class participation.
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    So, sitting there with 87 other people
    in the class, I got to daydream a lot.
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    Most programmers in those days
    worked on mainframes,
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    building things like inventory systems,
    payroll systems and bill-paying systems.
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    But I had worked
    on interactive word processing
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    and on-demand personal computation.
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    Instead of thinking
    about paper printouts and punch cards,
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    I imagined a magic blackboard
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    that if you erased one number
    and wrote a new thing in,
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    all of the other numbers
    would automatically change,
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    like word processing with numbers.
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    I imagined that my calculator
    had mouse hardware on the bottom of it
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    and a head-up display,
    like in a fighter plane.
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    And I could type some numbers in,
    and circle it, and press the sum button.
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    And right in the middle of a negotiation
    I'd be able to get the answer.
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    Now I just had to take my fantasy
    and turn it into reality.
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    My father taught me about prototyping.
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    He showed me mock-ups
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    that he'd make to figure out
    the placement on the page
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    for the things for brochures
    that he was printing.
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    And he'd use it
    to get feedback from customers
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    and OKs before he sent the job
    off to the presses.
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    The act of making a simple, working
    version of what you're trying to build
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    forces you to uncover key problems.
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    And it lets you find solutions
    to those problems much less expensively.
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    So I decided to build a prototype.
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    I went to a video terminal connected to
    Harvard's time-sharing system
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    and got to work.
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    One of the first problems
    that I ran into was:
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    How do you represent values in formulas?
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    Let me show you what I mean.
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    I thought that you would point somewhere,
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    type in some words,
    then type in some somewhere else,
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    put in some numbers and some more numbers,
    point where you want the answer.
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    And then point to the first, press minus,
    point to the second,
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    and get the result.
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    The problem was:
    What should I put in the formula?
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    It had to be something
    the computer knew what to put in.
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    And if you looked at the formula,
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    you needed to know
    where on the screen it referred to.
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    The first thing I thought was
    the programmer way of doing it.
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    The first time you pointed to somewhere,
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    the computer would ask you
    to type in a unique name.
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    It became pretty clear pretty fast that
    that was going to be too tedious.
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    The computer had to automatically
    make up the name and put it inside.
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    So I thought, why not make it be
    the order in which you create them?
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    I tried that. Value 1, value 2.
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    Pretty quickly I saw
    that if you had more than a few values
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    you'd never remember
    on the screen where things were.
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    Then I said, why not instead of
    allowing you to put values anywhere,
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    I'll restrict you to a grid?
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    Then when you pointed to a cell,
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    the computer could put
    the row and column in as a name.
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    And, if I did it like a map and put ABC
    across the top and numbers along the side,
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    if you saw B7 in a formula,
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    you'd know exactly
    where it was on the screen.
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    And if you had to type the formula
    in yourself, you'd know what to do.
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    Restricting you to a grid
    helped solve my problem.
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    It also opened up new capabilities,
    like the ability to have ranges of cells.
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    But it wasn't too restrictive --
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    you could still put any value,
    any formula, in any cell.
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    And that's the way we do it to this day,
    almost 40 years later.
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    My friend Bob and I decided that we were
    going to build this product together.
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    I did more work figuring out exactly
    how the program was supposed to behave.
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    I wrote a reference card
    to act as documentation.
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    It also helped me ensure
    that the user interface I was defining
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    could be explained concisely
    and clearly to regular people.
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    Bob worked in the attic of the apartment
    he rented in Arlington, Massachusetts.
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    This is the inside of the attic.
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    Bob bought time on the MIT Multics System
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    to write computer code
    on a terminal like this.
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    And then he would download test versions
    to a borrowed Apple II
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    over a phone line
    using an acoustic coupler,
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    and then we would test.
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    For one of these tests I prepared
    for this case about the Pepsi Challenge.
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    Print wasn't working yet,
    so I had to copy everything down.
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    Save wasn't working,
    so every time it crashed,
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    I had to type in all of the formulas
    again, over and over again.
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    The next day in class, I raised my hand;
    I got called on, and I presented the case.
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    I did five-year projections.
    I did all sorts of different scenarios.
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    I aced the case.
    VisiCalc was already useful.
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    The professor said, "How did you do it?"
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    Well, I didn't want to tell him
    about our secret program.
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    (Laughter)
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    So I said, "I took this and added this
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    and multiplied by this
    and subtracted that."
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    He said, "Well,
    why didn't you use a ratio?"
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    I said, "Hah! A ratio --
    that wouldn't have been as exact!"
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    What I didn't say was,
    "Divide isn't working yet."
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    (Laughter)
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    Eventually, though,
    we did finish enough of VisiCalc
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    to be able to show it to the public.
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    My dad printed up a sample reference card
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    that we could use as marketing material.
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    In June of 1979, our publisher
    announced VisiCalc to the world,
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    in a small booth at the giant National
    Computer Conference in New York City.
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    The New York Times had
    a humorous article about the conference.
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    "The machines perform
    what seem religious rites ...
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    Even as the believers gather,
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    the painters in the Coliseum sign room
    are adding to the pantheon,
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    carefully lettering 'VISICALC'
    in giant black on yellow.
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    All hail VISICALC!"
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    (Gasp) New York Times:
    "All hail VISICALC."
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    (Laughter)
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    That was the last mention
    of the electronic spreadsheet
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    in the popular business press
    for about two years.
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    Most people didn't get it yet.
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    But some did.
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    In October of 1979, we shipped VisiCalc.
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    It came in packaging
    that looked like this.
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    And it looked like this
    running on the Apple II.
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    And the rest, as they say, is history.
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    Now, there's an awful lot
    more to this story,
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    but that'll have to wait for another day.
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    One thing, though, Harvard remembers.
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    Here's that classroom.
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    They put up a plaque
    to commemorate what happened there.
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    (Applause)
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    But it also serves as a reminder
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    that you, too, should take
    your unique backgrounds, skills and needs
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    and build prototypes to discover
    and work out the key problems,
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    and through that, change the world.
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    Thank you.
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    (Applause)
Title:
Meet the inventor of the electronic spreadsheet
Speaker:
Dan Bricklin
Description:

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Video Language:
English
Team:
closed TED
Project:
TEDTalks
Duration:
12:00

English subtitles

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