From WikiChip
Moore's Law
Revision as of 02:54, 12 December 2016 by Inject (talk | contribs)

Moore's law is a key observation and projection in the semiconductor industry that states that number of transistors on a dense integrated circuit at the same price doubles every 18 to 24 months. The law has had significant impact on the advancement of integrated circuits and the semiconductor industry as whole, largely due to its self-fulfilling prophecy nature. The law is named after Gordon Moore, the co-founder of Intel and Fairchild Semiconductor, whose original 1965 paper became the basis for this law.

Derivatives of the law have found their way into almost every field of technology, including memory capacity, digital cameras pixel and resolution, and even sensors. The law has also resulted in a large number of misconceptions and wrong interpretations especially concerning performance.

Overview

The law dates back to Gordon Moore's 1965 paper:

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.
—Gordon Moore; Electronics Magazine Vol. 38, No. 8 (April 19, 1965)

In an updated article in 1975 Moore updated his statement to 24 months:

Complexity of integrated circuits has approximately doubled every year since their introduction. Cost per function has decreased several thousand-fold, while system performance and reliability have been improved dramatically.
—Gordon Moore; International Electron Devices Meeting, Technical Digest, IEEE (1975)

His 1975 paper went on to address the question of limits, concluding the trend will continue for another decade and will reach its limits around 1985.