2009
DOI: 10.1109/mssc.2008.930943
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Moore's law, microcomputer, and me

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Cited by 4 publications
(3 citation statements)
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“…Although, FPGAs have so far proved a good choice for low-level vision processing algorithms like feature extraction, there is still a question mark regarding its capability to implement more complex vision processing in future with strict power constraints. • According to Moore's law [22], transistor densities double every two years. However, with decreasing transistor geometries, static power consumption in deep sub-micron technologies is coming up as a major challenge for Silicon industry.…”
Section: Time To Rethink Strategymentioning
confidence: 99%
“…Although, FPGAs have so far proved a good choice for low-level vision processing algorithms like feature extraction, there is still a question mark regarding its capability to implement more complex vision processing in future with strict power constraints. • According to Moore's law [22], transistor densities double every two years. However, with decreasing transistor geometries, static power consumption in deep sub-micron technologies is coming up as a major challenge for Silicon industry.…”
Section: Time To Rethink Strategymentioning
confidence: 99%
“…However, these platforms are constructed based on either CPU or specially-designed devices, which limit their scalability and potential to speed up. On one hand, the calculation speed of a single CPU core has no longer followed up with "More's law" [12], and the number of CPU cores on one chip is limited. On the other hand, the specially-designed devices are expensive, and are usually hard to update and extend [13].…”
Section: Introductionmentioning
confidence: 99%
“…One of the co-inventors of the first microcomputer system [2], eloquently expressed this sentiment as follows: 'In 1960ten years before Intel developed the first single-chip CPU (microcomputer central processing unit) -the revolution that would ensue was inconceivable: the cost of computing dropped by a factor of a million, modes of personal communication changed forever, and intelligent machines took over processes in manufacturing, transportation, medicinevirtually every aspect of our lives. "-Stanley Mazor's memoir, co-inventor of the first microcomputer system, published in the IEEE Solid-State Circuit Magazine, 2009 [3] The rapid proliferation of computers and the growing demand for computing resources did not only elude the pioneers but have also presented challenges to our capacity to engineer the necessary machinery for their production. To overcome these challenges, we employ computers to assist us in the development and manufacturing of nextgeneration computers and computer applications.…”
mentioning
confidence: 99%