Introduction: The Empire of User- Friendliness
User Friendly
1. Computing. Of hardware or software: easy to use or understand, esp. by an inexperienced user; designed with the needs of a user in mind.
2. In extended use: easy to use; accessible, manageable.
At only four stories tall, the world’s largest office building sits low to the ground but commands a footprint worthy of a UFO that could blot out the sun: a perfect doughnut shape, a mile around its edge. In the middle lies a grove meant to recall the time, just fifty years ago, when Silicon Valley wasn’t Silicon Valley, but rather the Valley of Heart’s Delight, covered in 10 million fruit trees—apricot, cherry, peach, pear, and apple. It took Apple, the computing giant, years to buy up all that land in secret, assembling some sixteen different plots across fifty acres in a $5 billion jigsaw. If the building looks like a spaceship, then it’s one that lifted off directly from Steve Jobs’s imagination to land in the heart of an otherwise sleepy suburb. It was one of the last undertakings that the great man signed off on before he died.
Every morning during the construction of Jobs’s last dream, Harlan Crowder woke up to the dull roar of heavy trucks on their way to the site, their alarms bleating as they nudged their loads into place. When we met, Crowder was seventy-three years old with three grown children. He wore a white goatee and a retiree’s wardrobe of rumpled pants and floral shirts. In Crowder’s neighborhood, the hubbub attending Apple Campus 2’s arrival had unleashed a swarm of real estate agents trawling door-to-door and offering to make people rich.
These agents were mostly women buffed to a high gloss, and they came adorned in big brass jewelry that served as armor against holdouts like Crowder. “There was one, she said it just like that: ‘I have ten people waiting to start a bidding war for your house,’” Crowder said in his Texas drawl as we sat talking on his back patio. Houses like his had originally been built in the 1960s for the population boom incited by the nascent transistor industry. When I visited, modest three-bedroom ranch houses like Crowder’s were easily fetching $2.5 million. In a year, he assumed it could be 10 percent higher, maybe more. It was all some strange dream.
Crowder isn’t a famous person—there are untold thousands like him, spread out in the Valley: people of technical ability who built the place but whose names are lost to history. But Crowder is one of the first people in the annals of history to use the term “user friendly” to refer to a computer. Every week or so, Crowder fends off the real estate agents and their offers of a multimillion-dollar payday. Apple fuels it all—Apple, the company that made “user friendly” into an idea that we live with every day.
Crowder looks on at the new Apple Park during his daily walks past the campus, the crown jewel in an empire built upon trillions of dollars in iPods and iMacs and iPads and Apple Watches and iPhones—devices that, despite being some of the most advanced computers ever made, can still be operated by toddlers. Their power dwarfs that of the “supercomputers” Crowder once worked with at IBM. That he’d come to IBM at all seemed like another kind of dream. He’d failed eighth-grade algebra. After high school, he bummed around until enlisting in the Army, where he trained as a medic: a year and a half of doctor’s training with all the theory stripped out, so that you simply knew the essentials required to save a life. The practicality and the pressure lit into him. The onetime layabout graduated first in his class. After service came college at East Texas State University, in Commerce. “It wasn’t the edge of nowhere, but you could see the edge,” he told me.
Crowder had seen an IBM recruitment flyer on a bulletin board at college, calling for science majors to enter a newfangled training program. He replied, and they called him back. He flew up to Yorktown, New York, without much idea of what to expect. IBM’s research center was a crescent-shaped architectural landmark designed by the great Finnish American designer Eero Saarinen—the original corporate-campus-as-spaceship. Its facade was a gleaming curved-glass curtain wall, and the walls inside were hewn from New York’s native granite. The building’s design was a statement about the modern workplace from the world’s smartest company, with as many Ph.D.s on staff as a university.
Crowder walked to his job interview in awe. The building resembled nothing so much as the spaceship from 2001, a bright techno future that was big news in 1968. Here was a place where the water-cooler conversations were about scientific breakthroughs. “I’d have done anything to work there. I didn’t care if I had to clean the toilets,” Crowder said, his voice still shimmering with glee. IBM had run out of computer programmers, and the company wanted to make more of them. Crowder got the job, and he took to the pragmatic nature of the work, using computers to solve real-world problems that you could measure by the ton, such as mapping shipping routes and calculating trucking loads. He found that he had a mind for visualizing the complex equations his job required.
The field where Crowder worked, operations research, began with World War II and the Marshall Plan. Rebuilding Europe meant shipping a mind-boggling amount of matériel across the Atlantic, but also shipping back a mind-boggling amount of matériel that had accumulated in dozens of countries during a war effort of unprecedented scale. Loading ships efficiently on the way over, then loading them up efficiently for the return home, was a math problem whose unruly complexity demanded computing power.
Crowder was working on these sorts of operational problems for IBM’s clients in the 1960s. To create a computer program, he had to use a machine to punch intricate holes in cards the size of an airplane boarding pass. When he was done, he couldn’t just walk up to the computer himself. The computer was a $5 million machine—about $35 million in today’s money—patrolled by two security guards and a perky-eared German shepherd. Crowder would spend all day programming and then take his stack of cards to the computer attendant behind a window, who fed the cards into the machine. The computer would spend all night calculating, and the results would usually be ready for Crowder by the morning—if he hadn’t made a mistake. This was a big “if.” A mistake would be as simple as a misplaced character that gummed up the processing, or a poorly defined equation that divided by zero and sent the computer into looping infinities. (Shades of Apple again: The address of its former campus is One Infinite Loop.)
Faced with fitfully waiting overnight to see if all the days they’d spent programming had been wasted by a typo, a cultish group of programmers at IBM found a way out. Working at a minicomputer tied to a mainframe down the hall and using a simplified programming language called APL—literally, A Programming Language—you could simply write a program and run it. You just typed up your program, saw whether the computer spat out meaningful results, and immediately knew whether your program was heading in the right direction. This was magic. Simply seeing the fruits of your work right away let you shape new ideas in your head just as soon as you had them. Years later, Steve Jobs would describe a computer as a bicycle for the mind—a fabulous machine that could turn the muscle power of a single person into the ability to traverse a mountain in a day. Crowder and his colleagues were among the very first to experience that ideal firsthand. The machine, once it was capable of immediate feedback, was actually augmenting what your mind could do. An insight might flash before you, and you could test that idea out right away. Seeing how well it worked would spur new ideas, and on and on. Thanks to these feedback loops, computer programming, which had once had the stately pace of chamber music, entered its own improvisational Jazz Age.
These “jazz musicians” traded their ideas in academic journals. The only thing was, it was awful trying to re-create the music someone had made on their machines. You couldn’t tell how easy it would be to test another person’s work or replicate it. The programs simply didn’t consider what someone else might do with them. To Crowder, they weren’t user friendly. And so Crowder proposed that a computer program be gauged not just on how well it solved a problem but on how easy it made the lives of the people trying to solve it. To be clear, he didn’t actually invent the term. As far as he knows, it had been floating around in the air, and it was there when he needed it. Which tends to prove how powerful it was—how it encapsulated something that people had started to feel.
And yet IBM didn’t go on to invent the user-friendly world—even though it hired some of the best designers in the world, such as Paul Rand, who created its logo; Eero Saarinen, who created its campus; and even Eliot Noyes, who designed its Selectric typewriter. Instead, that accomplishment is typically credited to Apple, which adapted ideas seeded at Xerox PARC to create the Macintosh. Just a decade after Crowder first wrote his paper describing user-friendly algorithms, Apple was making ads for user-friendly machines:
In the olden days, before 1984, not very many people used computers—for a very good reason.
Not very many people knew how.
And not very many people wanted to learn …
Then, on a particularly bright day in California, some particularly bright engineers had a brilliant idea: since computers are so smart, wouldn’t it make sense to teach computers about people, instead of teaching people about computers?
So it was that those very engineers worked long days and late nights—and a few legal holidays—teaching tiny silicon chips all about people. How they make mistakes and change their minds. How they label their file folders and save old phone numbers. How they labor for their livelihoods. And doodle in their spare time …
And when the engineers were finally finished, they introduced us to a personal computer so personable it can practically shake hands.
There’s a certain magic in how a few words can elide so many stories and so many ideas. This book is an attempt to paint a picture that’s gone missing in plain sight.
Copyright © 2019 by Cliff Kuang and Robert Fabricant