Difference between revisions of "CoE 197U Scaling"
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− | |[[File:Power density reduction.png|thumb| | + | |[[File:Power density reduction.png|thumb|500px|Figure 5: Semiconductor power density<ref name="chen2007">Chen (IBM), ISS Europe 2007, ([https://www.sec.gov/Archives/edgar/data/937966/000115697307001753/u54325exv99w3.htm link]).</ref>.]] |
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− | |[[File:Calculations vs year.png|thumb| | + | |[[File:Calculations vs year.png|thumb|900px|Figure 6: Calculations per second for a fixed cost<ref name="bcaresearch">BCA Research ([https://www.bcaresearch.com/images/Peter_PPT_presentation%2013.pdf link]).</ref>.]] |
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Revision as of 11:48, 26 February 2021
Contents
Moore's Law
In 1965, Gordon Moore published a 4-page paper entitled "Cramming more components onto integrated circuits"[1], where he predicted that the number of components in an integrated circuit will increase by a factor of two every year, as shown in Fig. 1. Note that he based his extrapolation on just 4 data points!
Why is this paper and the graph in Fig. 1 important? Gordon Moore's prediction, also known as Moore's Law, has reflected and, more importantly, driven the steady and rapid progress in computing technology[2]. Thus, satisfying Moore's Law has become the goal instead of being merely a prediction.
Evolution of Complexity
As Gordon Moore predicted, the cost and performance advantage of putting more and more devices into a single integrated circuit (IC) led to the rapid increase in circuit complexity. One convenient indicator of circuit complexity is the number of transistors contained in a single IC.
Challenges in Digital Design
Why Scale?
The Cost of Integrated Circuits
Non-Recurrent Engineering Costs
Recurrent Costs
Yield
References
- ↑ 1.0 1.1 Gordon E Moore, Cramming more components onto integrated circuits, Electronics, Volume 38, Number 8, April 19, 1965 (pdf)
- ↑ Gordon Moore: The Man Whose Name Means Progress, IEEE Spectrum, March 2015.
- ↑ https://upload.wikimedia.org/wikipedia/commons/0/00/Moore%27s_Law_Transistor_Count_1970-2020.png
- ↑ S. E. Thompson, S. Parthasarathy, Moore's law: the future of Si microelectronics, Materials Today, Volume 9, Issue 6, 2006, Pages 20-25. (link)
- ↑ Karl Rupp, 42 Years of Microprocessor Trend Data, https://www.karlrupp.net/2018/02/42-years-of-microprocessor-trend-data/
- ↑ Chen (IBM), ISS Europe 2007, (link).
- ↑ BCA Research (link).