On a crisp California afternoon in early December 1968, a square-jawed, mild-mannered Stanford researcher named Douglas Engelbart took the stage at San Franciscoβs Civic Auditorium and proceeded to blow everyoneβs mind about what computers could do.
Sitting down at a keyboard, this computer-age Clark Kent calmly showed a rapt audience of computer engineers how the devices they built could be utterly different kinds of machines β ones that were βalive for you all day,β as he put it, immediately responsive to your input, and which didnβt require users to know programming languages in order to operate.
Engelbart typed simple commands. He edited a grocery list. As he worked, he skipped the computer cursor across the screen using a strange wooden box that fit snugly under his palm. With small wheels underneath and a cord dangling from its rear, Engelbart dubbed it a βmouse.β
The 90-minute presentation went down in Silicon Valley history as the βmother of all demos,β for it previewed a world of personal and online computing utterly different from 1968βs status quo. It wasnβt just the technology that was revelatory; it was the notion that a computer could be something a non-specialist individual user could control from their own desk.
Shrinking the Massive Machines
In the America of 1968, computers werenβt at all personal. They were refrigerator-sized behemoths that hummed and blinked, calculating everything from consumer habits to missile trajectories, cloistered deep within corporate offices, government agencies and university labs. Their secrets were accessible only via punch card and teletype terminals.
The Vietnam-era counterculture already had made mainframe computers into ominous symbols of a soul-crushing Establishment. Four years before, the student protesters of Berkeleyβs Free Speech Movement had pinned signs to their chests that bore a riff on the prim warning that appeared on every IBM punch card: βI am a UC student. Please donβt bend, fold, spindle or mutilate me.β Hear Prof. O'Mara discuss this topic on our Heat and Light podcast.
Earlier in 1968, Stanley Kubrickβs trippy β2001: A Space Odysseyβ mined moviegoersβ anxieties about computers run amok with the tale of a malevolent mainframe that seized control of a spaceship from its human astronauts.
Voices rang out on Capitol Hill about the uses and abuses of electronic data-gathering, too. Missouri Senator Ed Long regularly delivered floor speeches he called βBig Brother updates.β North Carolina Senator Sam Ervin declared that mainframe power posed a threat to the freedoms guaranteed by the Constitution. βThe computer,β Ervin warned darkly, βnever forgets.β As the Johnson administration unveiled plans to centralize government data in a single, centralized national database, New Jersey Congressman Cornelius Gallagher declared that it was just another grim step toward scientific thinking taking over modern life, βleaving as an end result a stack of computer cards where once were human beings.β
The zeitgeist of 1968 helps explain why Engelbartβs demo so quickly became a touchstone and inspiration for a new, enduring definition of technological empowerment. Here was a computer that didnβt override human intelligence or stomp out individuality, but instead could, as Engelbart put it, βaugment human intellect.β
While Engelbartβs vision of how these tools might be used was rather conventionally corporate β a computer on every office desk and a mouse in every workerβs palm β his overarching notion of an individualized computer environment hit exactly the right note for the anti-Establishment technologists coming of age in 1968, who wanted to make technology personal and information free.
Over the next decade, technologists from this new generation would turn what Engelbart called his βwild dreamβ into a mass-market reality β and profoundly transform Americansβ relationship to computer technology.
Government Involvement
In the decade after the demo, the crisis of Watergate and revelations of CIA and FBI snooping further seeded distrust in Americaβs political leadership and in the ability of large government bureaucracies to be responsible stewards of personal information. Economic uncertainty and an antiwar mood slashed public spending on high-tech research and development β the same money that once had paid for so many of those mainframe computers and for training engineers to program them.
Enabled by the miniaturizing technology of the microprocessor, the size and price of computers plummeted, turning them into affordable and soon indispensable tools for work and play. By the 1980s and 1990s, instead of being seen as machines made and controlled by government, computers had become ultimate expressions of free-market capitalism, hailed by business and political leaders alike as examples of what was possible when government got out of the way and let innovation bloom.
There lies the great irony in this pivotal turn in American high-tech history. For even though βthe mother of all demosβ provided inspiration for a personal, entrepreneurial, government-is-dangerous-and-small-is-beautiful computing era, Doug Engelbartβs audacious vision would never have made it to keyboard and mouse without government research funding in the first place.
Engelbart was keenly aware of this, flashing credits up on the screen at the presentationβs start listing those who funded his research team: the Defense Departmentβs Advanced Projects Research Agency, later known as DARPA; the National Aeronautics and Space Administration; the U.S. Air Force. Only the public sector had the deep pockets, the patience and the tolerance for blue-sky ideas without any immediate commercial application.
Although government funding played a less visible role in the high-tech story after 1968, it continued to function as critical seed capital for next-generation ideas. Marc Andreessen and his fellow graduate students developed their groundbreaking web browser in a government-funded university laboratory.
DARPA and NASA money helped fund the graduate research project that Sergey Brin and Larry Page would later commercialize as Google. Driverless car technology got a jump-start after a government-sponsored competition; so has nanotechnology, green tech and more. Government hasnβt gotten out of Silicon Valleyβs way; it remained there all along, quietly funding the next generation of boundary-pushing technology.
Today, public debate rages once again on Capitol Hill about computer-aided invasions of privacy. Hollywood spins apocalyptic tales of technology run amok. Americans spend days staring into screens, tracked by the smartphones in our pockets, hooked on social media.
Technology companies are among the biggest and richest in the world. Itβs a long way from Engelbartβs humble grocery list.
But perhaps the current moment of high-tech angst can once again gain inspiration from the mother of all demos. Later in life, Engelbart described his lifeβs work as a quest to βhelp humanity cope better with complexity and urgency.β
His solution was a computer that was remarkably different from the others of that era, one that was humane and personal, that augmented human capability rather than boxing it in. And he was able to bring this vision to life because government agencies funded his work.
Now itβs time for another mind-blowing demo of the possible future, one that moves beyond the current adversarial moment between big government and Big Tech. It could inspire people to enlist public and private resources and minds in crafting the next audacious vision for our digital future.
This article is republished from The Conversation under a Creative Commons license. Read the original article here: http://theconversation.com/in-1968-computers-got-personal-how-the-mother-of-all-demos-changed-the-world-101654.
