The Man Who Powered A Revolution In Electronics


(MENAFN- Khaleej Times) Gordon E. Moore, a co-founder and former chairman of Intel Corp., the California Semiconductor chipmaker that helped give Silicon Valley its name, achieving the kind of industrial dominance once held by giant American railroad or steel companies of another age, died on Friday at his home in Hawaii. He was 94.

His death was confirmed by Intel and the Gordon and Betty Moore Foundation. They did not provide a cause.

Along with a handful of colleagues, Moore could claim credit for bringing laptop computers to hundreds of millions of people and embedding microprocessors into everything from bathroom scales, toasters and toy fire engines to cellphones, cars and jets.

Moore, who had wanted to be a teacher but could not get a job in education and later called himself the Accidental Entrepreneur, became a billionaire as a result of an initial $500 investment in the fledgling microchip business, which turned electronics into one of the world's largest industries.

And it was he, his colleagues said, who saw the future. In 1965, in what became known as Moore's Law, he predicted that the number of transistors that could be placed on a silicon chip would double at regular intervals for the foreseeable future, thus increasing the data-processing power of computers exponentially.

He added two corollaries later: The evolving technology would make computers more and more expensive to build, yet consumers would be charged less and less for them because so many would be sold. Moore's Law held up for decades.

Through a combination of Moore's brilliance, leadership, charisma and contacts, as well as that of his partner and Intel co-founder, Robert Noyce, the two assembled a group widely regarded by many as among the boldest and most creative technicians of the high-tech age.

This was the group that advocated the use of the thumbnail-thin chips of silicon, a highly polished, chemically treated sandy substance - one of the most common natural resources on Earth - because of what turned out to be silicon's amazing hospitality in housing smaller and smaller electronic circuitry that could work at higher and higher speeds.

With its silicon microprocessors, the brains of a computer, Intel enabled American manufacturers in the mid-1980s to regain the lead in the vast computer data-processing field from their formidable Japanese competitors. By the '90s, Intel had placed its microprocessors in 80% of the computers that were being made worldwide, becoming the most successful semiconductor company in history.

Much of this happened under Moore's watch. He was CEO from 1975 to 1987, when Andrew Grove succeeded him, and remained chairman until 1997.

Not only was Moore predicting that electronics would become much cheaper over time, as the industry shifted from away from discrete transistors and tubes to silicon microchips, but over the years his prediction proved so reliable that technology firms based their product strategy on the assumption that Moore's Law would hold.

“Any business doing rational multiyear planning had to assume this rate of change or else get steamrolled,” said Harry Saal, a longtime Silicon Valley entrepreneur.

“That's his legacy,” said Arthur Rock, an early investor in Intel and friend of Moore's.“It's not Intel. It's not the Moore Foundation. It's that phrase: Moore's Law.”

Gordon Earl Moore was born on Jan. 3, 1929, in San Francisco. He grew up in Pescadero, a small coastal town south of San Francisco,

where his father, Walter H. Moore, was deputy sheriff and the family of his mother, the former Florence Almira Williamson, ran the general store.

Moore enrolled at San Jose State College (now San Jose State University), where he met Betty Whitaker, a journalism student. They married in 1950. That year, he completed his undergraduate studies at the University of California, Berkeley, with a degree in chemistry. In 1954, he received his doctorate, also in chemistry, from Caltech.

One of the first jobs he applied for was as a manager with Dow Chemical.“They sent me to a psychologist to see how this would fit,” Moore wrote in 1994.“The psychologist said I was OK technically but I'd never manage anything.”

So Moore took a position with the Applied Physics Laboratory at Johns Hopkins University in Maryland. Then, looking for a way back to California, he interviewed at Lawrence Livermore Laboratory in Livermore, California. He was offered a job,“but I decided I didn't want to take spectra of exploding nuclear bombs, so I turned it down,” he wrote.

Instead, in 1956, Moore joined William Shockley, the inventor of the transistor, to work at a West Coast division of Bell Laboratories, a startup unit whose aim was to make a cheap silicon transistor.

But the company, Shockley Semiconductor, foundered under Shockley, who had no experience running a company. In 1957, Moore and Noyce joined a group of defectors who came to be known as“the traitorous eight.” With each putting in $500, along with $1.3 million in backing from aircraft pioneer Sherman Fairchild, the eight men left to form the Fairchild Semiconductor Corp., which became a pioneer in manufacturing integrated circuits.

With $2.5 million in capital, Moore and Noyce called their startup Integrated Electronics Corp., and later shortened it to Intel. The third employee was Grove, a young Hungarian immigrant who had worked under Moore at Fairchild.

After some indecision around what technology to focus on, the three men settled on a new version of MOS - metal oxide semiconductor - technology called silicon-gate MOS. To improve a transistor's speed and density, they used silicon instead of aluminum.

“Fortunately, very much by luck, we had hit on a technology that had just the right degree of difficulty for a successful startup,” Moore wrote in 1994.“This was how Intel began.”

In the early 1970s, Intel's 4000 series“computer on a chip” began the revolution in personal computers, although Intel itself missed the opportunity to manufacture a PC, which Moore blamed partly on his own shortsightedness.

“Long before Apple, one of our engineers came to me with the suggestion that Intel ought to build a computer for the home,” he wrote.“And I asked him, 'What the heck would anyone want a computer for in his home?”

Still, he saw the future. In 1963, while still at Fairchild as director of research and development, Moore contributed a book chapter describing what was to become the precursor to his eponymous law, without the explicit numerical prediction. Two years later, he published an article in Electronics, a widely circulated trade magazine, titled,“Cramming More Components Onto Integrated Circuits.”

“The article presented the same argument as the book chapter, with the addition of this explicitly numerical prediction,” said David Brock, a co-author of“Moore's Law: The Life of Gordon Moore, Silicon Valley's Quiet Revolutionary.”

There is little evidence that many people read the article when it was published, Brock said.

“He kept giving talks with these charts and plots, and people started using his slides and reproducing his graphs,” Brock said.“Then people saw the phenomenon happen. Silicon microchips got more complex, and their cost went down.”

In the 1960s, when Moore began in electronics, a single silicon transistor sold for $150. Later, $10 would buy more than 100 million transistors. Moore once wrote that if cars advanced as quickly as computers,“they would get 100,000 miles to the gallon and it would be cheaper to buy a Rolls-Royce than park it. (Cars would also be a half an inch long.)”

Moore's survivors include his wife, and his sons Kenneth and Steven, as well as four grandchildren.

This article originally appeared in The New York Times

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