Moore's Law: 43 Years and counting

In 1965, Gordon Moore sat down to pen his article for a Electronics Magazine and this is when he saw some fundamental drivers in the Integrated circuits. Little did he know how powerful his vision would be, or the longevity of what others would come to call a law. Forty year later, in celebration of his birthday, the semiconductor industry association devoted its annual report to Moore's law. They searched the world for the top two Moore's law scholars: one from the industry and one from the academia. they then commissioned these scholars to write two papers that describe Moore's law, its history, its economics and its impact on the world.

Moore's original statement that transistor counts had doubled every year can be found in his publication "Cramming more components onto integrated circuits", Electronics Magazine 19 April 1965:
The complexity for minimum component costs has increased at a rate of roughly a factor of two per year ... Certainly over the short term this rate can be expected to continue, if not to increase. Over the longer term, the rate of increase is a bit more uncertain, although there is no reason to believe it will not remain nearly constant for at least 10 years. That means by 1975, the number of components per integrated circuit for minimum cost will be 65,000. I believe that such a large circuit can be built on a single wafer.

Intel 8008 | Intel Pentium4

Who are the Computer Architects?

The author (Mark Smotherman, Associate Professor, School of Computing, Clemson University) makes an effort to list the key computer architects mainly to recognize their work. The listing comprises of instruction set architecture (ISA) and its architect(s), followed by implementations of that ISA and the associated microarchitect(s)/designer(s). The processors that are listing have been available for sale commercially, and in most instances, have categorized the processors by company. The current list mainly includes late 1980's and 1990's ISAs and microprocessor implementations. The list especially highlights the high-performance (i.e., high-risk) implementations.
The success and failure of high risk computer developments can quite often be traced to a single individual. It is not accidental that unique persons such as Gene Amdahl, Seymour Cray, Fred Brooks, and Bob Barton have become recognized leaders in the computer architecture and design field. Their reputations did not arise from a happy coincidence of being associated with a successful project; rather, they stand out because of their ability to generate a system wide concept, determine a course of action to get it implemented, make the necessary tradeoffs and finally drive through all obstacles to ensure completion of their vision.

Also read: Which Machines Do Computer Architects Admire?

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