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by miratrix
5309 days ago
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The papers I've seen point to values larger than 15~30% - I've seen ~50% cited for geometries as large as 65nm, only to get worse as we go to even smaller feature sizes. [1] Threshold voltage is not really an effective knob, unless you assume that the feature size to be a knob and go against Moore's law, or that brand new, once in 10-years process innovation is a knob that designers can pick out of a hat. I don't think anyone's clamoring for return to 130nm parts on a smartphone. At each new process node, you're going to lose out on the amount of control you'll have over Vth. This is basically what Intel did with the tri-gate transistors which gives them longer lease on life until they bump against subthreshold leakage. TSMC is on their first generation high-k metal gates, and still a process node or two away before jumping over to the tri-gate party. 1. http://www.eetimes.com/design/eda-design/4211228/Overcoming-... |
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[1] http://www.eetimes.com/ContentEETimes/Images/Design/Prog%20L....
Threshold voltage is not really an effective knob
Why is it not an effective knob? Most modern designs include sleep transistors in an attempt to not leak when a circuit is inactive. These would not work unless we could engineer high-vt transistors.