In the history of the mouse, Engelbart was the Soviet Union. He was the visionary, who saw the mouse before anyone else did. But visionaries are limited by their visions. “Engelbart’s self-defined mission was not to produce a product, or even a prototype; it was an open-ended search for knowledge,” Michael Hiltzik writes, in “Dealers of Lightning” (1999), his wonderful history of Xerox PARC. “Consequently, no project in his lab ever seemed to come to an end.” Xerox PARC was the United States: it was a place where things got made. “Xerox created this perfect environment,” recalled Bob Metcalfe, who worked there through much of the nineteen-seventies, before leaving to found the networking company 3Com. “There wasn’t any hierarchy. We built out our own tools. When we needed to publish papers, we built a printer. When we needed to edit the papers, we built a computer. When we needed to connect computers, we figured out how to connect them. We had big budgets. Unlike many of our brethren, we didn’t have to teach. We could just research. It was heaven.”

But heaven is not a good place to commercialize a product. “We built a computer and it was a beautiful thing,” Metcalfe went on. “We developed our computer language, our own display, our own language. It was a gold-plated product. But it cost sixteen thousand dollars, and it needed to cost three thousand dollars.” For an actual product, you need threat and constraint—and the improvisation and creativity necessary to turn a gold-plated three-hundred-dollar mouse into something that works on Formica and costs fifteen dollars. Apple was Israel.

Xerox couldn’t have been I.B.M. and Microsoft combined, in other words. “You can be one of the most successful makers of enterprise technology products the world has ever known, but that doesn’t mean your instincts will carry over to the consumer market,” the tech writer Harry McCracken recently wrote. “They’re really different, and few companies have ever been successful in both.” He was talking about the decision by the networking giant Cisco System, this spring, to shut down its Flip camera business, at a cost of many hundreds of millions of dollars. But he could just as easily have been talking about the Xerox of forty years ago, which was one of the most successful makers of enterprise technology the world has ever known. The fair question is whether Xerox, through its research arm in Palo Alto, found a better way to be Xerox—and the answer is that it did, although that story doesn’t get told nearly as often.

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One of the people at Xerox PARC when Steve Jobs visited was an optical engineer named Gary Starkweather. He is a solid and irrepressibly cheerful man, with large, practical hands and the engineer’s gift of pretending that what is impossibly difficult is actually pretty easy, once you shave off a bit here, and remember some of your high-school calculus, and realize that the thing that you thought should go in left to right should actually go in right to left. Once, before the palatial Coyote Hill Road building was constructed, a group that Starkweather had to be connected to was moved to another building, across the Foothill Expressway, half a mile away. There was no way to run a cable under the highway. So Starkweather fired a laser through the air between the two buildings, an improvised communications system that meant that, if you were driving down the Foothill Expressway on a foggy night and happened to look up, you might see a mysterious red beam streaking across the sky. When a motorist drove into the median ditch, “we had to turn it down,” Starkweather recalled, with a mischievous smile.

Lasers were Starkweather’s specialty. He started at Xerox’s East Coast research facility in Webster, New York, outside Rochester. Xerox built machines that scanned a printed page of type using a photographic lens, and then printed a duplicate. Starkweather’s idea was to skip the first step—to run a document from a computer directly into a photocopier, by means of a laser, and turn the Xerox machine into a printer. It was a radical idea. The printer, since Gutenberg, had been limited to the function of re-creation: if you wanted to print a specific image or letter, you had to have a physical character or mark corresponding to that image or letter. What Starkweather wanted to do was take the array of bits and bytes, ones and zeros that constitute digital images, and transfer them straight into the guts of a copier. That meant, at least in theory, that he could print anything.

“One morning, I woke up and I thought, Why don’t we just print something out directly?” Starkweather said. “But when I flew that past my boss he thought it was the most brain-dead idea he had ever heard. He basically told me to find something else to do. The feeling was that lasers were too expensive. They didn’t work that well. Nobody wants to do this, computers aren’t powerful enough. And I guess, in my naïveté, I kept thinking, He’s just not right—there’s something about this I really like. It got to be a frustrating situation. He and I came to loggerheads over the thing, about late 1969, early 1970. I was running my experiments in the back room behind a black curtain. I played with them when I could. He threatened to lay off my people if I didn’t stop. I was having to make a decision: do I abandon this, or do I try and go up the ladder with it?”

Then Starkweather heard that Xerox was opening a research center in Palo Alto, three thousand miles away from its New York headquarters. He went to a senior vice-president of Xerox, threatening to leave for I.B.M. if he didn’t get a transfer. In January of 1971, his wish was granted, and, within ten months, he had a prototype up and running.

Starkweather is retired now, and lives in a gated community just north of Orlando, Florida. When we spoke, he was sitting at a picnic table, inside a screened-in porch in his back yard. Behind him, golfers whirred by in carts. He was wearing white chinos and a shiny black short-sleeved shirt, decorated with fluorescent images of vintage hot rods. He had brought out two large plastic bins filled with the artifacts of his research, and he spread the contents on the table: a metal octagonal disk, sketches on lab paper, a black plastic laser housing that served as the innards for one of his printers.

“There was still a tremendous amount of opposition from the Webster group, who saw no future in computer printing,” he went on. “They said, ‘I.B.M. is doing that. Why do we need to do that?’ and so forth. Also, there were two or three competing projects, which I guess I have the luxury of calling ridiculous. One group had fifty people and another had twenty. I had two.” Starkweather picked up a picture of one of his in-house competitors, something called an “optical carriage printer.” It was the size of one of those modular Italian kitchen units that you see advertised in fancy design magazines. “It was an unbelievable device,” he said, with a rueful chuckle. “It had a ten-inch drum, which turned at five thousand r.p.m., like a super washing machine. It had characters printed on its surface. I think they only ever sold ten of them. The problem was that it was spinning so fast that the drum would blow out and the characters would fly off. And there was only this one lady in Troy, New York, who knew how to put the characters on so that they would stay.

“So we finally decided to have what I called a fly-off. There was a full page of text—where some of them were non-serif characters, Helvetica, stuff like that—and then a page of graph paper with grid lines, and pages with pictures and some other complex stuff—and everybody had to print all six pages. Well, once we decided on those six pages, I knew I’d won, because I knew there wasn’t anything I couldn’t print. Are you kidding? If you can translate it into bits, I can print it. Some of these other machines had to go through hoops just to print a curve. A week after the fly-off, they folded those other projects. I was the only game in town.” The project turned into the Xerox 9700, the first high-speed, cut-paper laser printer in the world.

In one sense, the Starkweather story is of a piece with the Steve Jobs visit. It is an example of the imaginative poverty of Xerox management. Starkweather had to hide his laser behind a curtain. He had to fight for his transfer to PARC. He had to endure the indignity of the fly-off, and even then Xerox management remained skeptical. The founder of PARC, Jack Goldman, had to bring in a team from Rochester for a personal demonstration. After that, Starkweather and Goldman had an idea for getting the laser printer to market quickly: graft a laser onto a Xerox copier called the 7000. The 7000 was an older model, and Xerox had lots of 7000s sitting around that had just come off lease. Goldman even had a customer ready: the Lawrence Livermore laboratory was prepared to buy a whole slate of the machines. Xerox said no. Then Starkweather wanted to make what he called a photo-typesetter, which produced camera-ready copy right on your desk. Xerox said no. “I wanted to work on higher-performance scanners,” Starkweather continued. “In other words, what if we print something other than documents? For example, I made a high-resolution scanner and you could print on glass plates.” He rummaged in one of the boxes on the picnic table and came out with a sheet of glass, roughly six inches square, on which a photograph of a child’s face appeared. The same idea, he said, could have been used to make “masks” for the semiconductor industry—the densely patterned screens used to etch the designs on computer chips. “No one would ever follow through, because Xerox said, ‘Now you’re in Intel’s market, what are you doing that for?’ They just could not seem to see that they were in the information business. This”—he lifted up the plate with the little girl’s face on it—“is a copy. It’s just not a copy of an office document.” But he got nowhere. “Xerox had been infested by a bunch of spreadsheet experts who thought you could decide every product based on metrics. Unfortunately, creativity wasn’t on a metric.”

A few days after that afternoon in his back yard, however, Starkweather e-mailed an addendum to his discussion of his experiences at PARC. “Despite all the hassles and risks that happened in getting the laser printer going, in retrospect the journey was that much more exciting,” he wrote. “Often difficulties are just opportunities in disguise.” Perhaps he felt that he had painted too negative a picture of his time at Xerox, or suffered a pang of guilt about what it must have been like to be one of those Xerox executives on the other side of the table. The truth is that Starkweather was a difficult employee. It went hand in hand with what made him such an extraordinary innovator. When his boss told him to quit working on lasers, he continued in secret. He was disruptive and stubborn and independent-minded—and he had a thousand ideas, and sorting out the good ideas from the bad wasn’t always easy. Should Xerox have put out a special order of laser printers for Lawrence Livermore, based on the old 7000 copier? In “Fumbling the Future: How Xerox Invented, Then Ignored, the First Personal Computer” (1988)—a book dedicated to the idea that Xerox was run by the blind—Douglas Smith and Robert Alexander admit that the proposal was hopelessly impractical: “The scanty Livermore proposal could not justify the investment required to start a laser printing business. . . . How and where would Xerox manufacture the laser printers? Who would sell and service them? Who would buy them and why?” Starkweather, and his compatriots at Xerox PARC, weren’t the source of disciplined strategic insights. They were wild geysers of creative energy.

The psychologist Dean Simonton argues that this fecundity is often at the heart of what distinguishes the truly gifted. The difference between Bach and his forgotten peers isn’t necessarily that he had a better ratio of hits to misses. The difference is that the mediocre might have a dozen ideas, while Bach, in his lifetime, created more than a thousand full-fledged musical compositions. A genius is a genius, Simonton maintains, because he can put together such a staggering number of insights, ideas, theories, random observations, and unexpected connections that he almost inevitably ends up with something great. “Quality,” Simonton writes, is “a probabilistic function of quantity.”

Simonton’s point is that there is nothing neat and efficient about creativity. “The more successes there are,” he says, “the more failures there are as well”—meaning that the person who had far more ideas than the rest of us will have far more bad ideas than the rest of us, too. This is why managing the creative process is so difficult. The making of the classic Rolling Stones album “Exile on Main Street” was an ordeal, Keith Richards writes in his new memoir, because the band had too many ideas. It had to fight from under an avalanche of mediocrity: “Head in the Toilet Blues,” “Leather Jackets,” “Windmill,” “I Was Just a Country Boy,” “Bent Green Needles,” “Labour Pains,” and “Pommes de Terre”—the last of which Richards explains with the apologetic, “Well, we were in France at the time.”

At one point, Richards quotes a friend, Jim Dickinson, remembering the origins of the song “Brown Sugar”:

I watched Mick write the lyrics. . . . He wrote it down as fast as he could move his hand. I’d never seen anything like it. He had one of those yellow legal pads, and he’d write a verse a page, just write a verse and then turn the page, and when he had three pages filled, they started to cut it. It was amazing.

Richards goes on to marvel, “It’s unbelievable how prolific he was.” Then he writes, “Sometimes you’d wonder how to turn the fucking tap off. The odd times he would come out with so many lyrics, you’re crowding the airwaves, boy.” Richards clearly saw himself as the creative steward of the Rolling Stones (only in a rock-and-roll band, by the way, can someone like Keith Richards perceive himself as the responsible one), and he came to understand that one of the hardest and most crucial parts of his job was to “turn the fucking tap off,” to rein in Mick Jagger’s incredible creative energy.

The more Starkweather talked, the more apparent it became that his entire career had been a version of this problem. Someone was always trying to turn his tap off. But someone had to turn his tap off: the interests of the innovator aren’t perfectly aligned with the interests of the corporation. Starkweather saw ideas on their own merits. Xerox was a multinational corporation, with shareholders, a huge sales force, and a vast corporate customer base, and it needed to consider every new idea within the context of what it already had.

Xerox’s managers didn’t always make the right decisions when they said no to Starkweather. But he got to PARC, didn’t he? And Xerox, to its great credit, had a PARC—a place where, a continent away from the top managers, an engineer could sit and dream, and get every purchase order approved, and fire a laser across the Foothill Expressway if he was so inclined. Yes, he had to pit his laser printer against lesser ideas in the contest. But he won the contest. And, the instant he did, Xerox cancelled the competing projects and gave him the green light.

“I flew out there and gave a presentation to them on what I was looking at,” Starkweather said of his first visit to PARC. “They really liked it, because at the time they were building a personal computer, and they were beside themselves figuring out how they were going to get whatever was on the screen onto a sheet of paper. And when I showed them how I was going to put prints on a sheet of paper it was a marriage made in heaven.” The reason Xerox invented the laser printer, in other words, is that it invented the personal computer. Without the big idea, it would never have seen the value of the small idea. If you consider innovation to be efficient and ideas precious, that is a tragedy: you give the crown jewels away to Steve Jobs, and all you’re left with is a printer. But in the real, messy world of creativity, giving away the thing you don’t really understand for the thing that you do is an inevitable tradeoff.