The Memory Business Steven Sasson is a tall man with a lantern jaw. In 1973, he was a freshly minted graduate of the Rensselaer Polytechnic Institute… - Peter Diamandis
" "The Memory Business Steven Sasson is a tall man with a lantern jaw. In 1973, he was a freshly minted graduate of the Rensselaer Polytechnic Institute. His degree in electrical engineering led to a job with Kodak's Apparatus Division research lab, where, a few months into his employment, Sasson's supervisor, Gareth Lloyd, approached him with a "small" request. Fairchild Semiconductor had just invented the first "charge-coupled device" (or CCD) — an easy way to move an electronic charge around a transistor — and Kodak needed to know if these devices could be used for imaging.4 Could they ever. By 1975, working with a small team of talented technicians, Sasson used CCDs to create the world's first digital still camera and digital recording device. Looking, as Fast Company once explained, "like a '70s Polaroid crossed with a Speak-and-Spell,"5 the camera was the size of a toaster, weighed in at 8.5 pounds, had a resolution of 0.01 megapixel, and took up to thirty black-and-white digital images — a number chosen because it fell between twenty-four and thirty-six and was thus in alignment with the exposures available in Kodak's roll film. It also stored shots on the only permanent storage device available back then — a cassette tape. Still, it was an astounding achievement and an incredible learning experience. Portrait of Steven Sasson with first digital camera, 2009 Source: Harvey Wang, From Darkroom to Daylight "When you demonstrate such a system," Sasson later said, "that is, taking pictures without film and showing them on an electronic screen without printing them on paper, inside a company like Kodak in 1976, you have to get ready for a lot of questions. I thought people would ask me questions about the technology: How'd you do this? How'd you make that work? I didn't get any of that. They asked me when it was going to be ready for prime time? When is it going to be realistic to use this? Why would anybody want to look at their pictures on an electronic screen?"6 I
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About Peter Diamandis
Peter H. Diamandis (born May 20, 1961) is an American engineer, physician, and entrepreneur. He is best known as the founder and chairman of the XPRIZE Foundation, and the cofounder and executive chairman of Singularity University. He is also cofounder and former CEO of the Zero Gravity Corporation, cofounder and vice chairman of Space Adventures Ltd., founder and chairman of the Rocket Racing League, cofounder of the International Space University, cofounder of Planetary Resources, cofounder of Celularity, founder of Students for the Exploration and Development of Space, and vice chairman and cofounder of Human Longevity, Inc.
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Native Name:
Peter H. Diamandis
Alternative Names:
Dr. Peter Diamandis
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Dr. Peter H. Diamandis
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The human brain evolved in an environment that was local and linear. Local, meaning most everything that we interacted with was less than a day’s walk away. Linear, meaning the rate of change was exceptionally slow. Your great-great-great-grandfather’s life was roughly the same as his great-great-grandson’s life. But now we live in a world that is global and exponential. Global, meaning if it happens on the other side of the planet, we hear about it seconds later (and our computers hear about it only milliseconds later). Exponential, meanwhile, refers to today’s blitzkrieg speed of development. Forget about the difference between generations, currently mere months can bring a revolution. Yet our brain — which hasn’t really had a hardware update in two hundred thousand years — wasn’t designed for this scale or speed. And if we struggle to track the growth of singular innovations, we’re downright helpless in the face of converging ones. Put it this way, in “The Law of Accelerating Returns,” Ray Kurzweil did the math and found that we’re going to experience twenty thousand years of technological change over the next one hundred years. Essentially, we’re going from the birth of agriculture to the birth of the internet twice in the next century. This means paradigm-shifting, game-changing, nothing-is-ever-the-same-again breakthroughs — such as affordable aerial ridesharing — will not be an occasional affair. They’ll be happening all the time. It means, of course, that flying cars are just the beginning.
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