Difference between revisions of "CoE 197U Logical Effort"

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Use the provided slide deck to guide you through this discussion.
 
Use the provided slide deck to guide you through this discussion.
The main reference for this lecture is Sutherland's book<ref name="sutherland1999">I Sutherland, B Sproull, D. Harris, '''Logical Effort: Designing Fast CMOS Circuits''', Morgan Kaufman Publishers, 1999</ref> and paper<ref name="sutherland1991">I Sutherland, R.F. Sproull, '''Logical Effort: Designing for speed on the back of an envelope''', pp 1-16, 1991</ref>.
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The main reference for this lecture is Sutherland's book<ref name="sutherland1999">I. Sutherland, R. Sproull, D. Harris, '''Logical Effort: Designing Fast CMOS Circuits''', Morgan Kaufman Publishers, 1999</ref> and paper<ref name="sutherland1991">I Sutherland, R.F. Sproull, '''Logical Effort: Designing for speed on the back of an envelope''', pp 1-16, 1991</ref>.
  
 
== Delay ==
 
== Delay ==

Revision as of 19:26, 9 March 2021

In this lecture, we will cover the following:

  • Delay Parameters
  • Logical Effort of Simple Gates
  • Multistage Networks

Use the provided slide deck to guide you through this discussion. The main reference for this lecture is Sutherland's book[1] and paper[2].

Delay

The delay of a path is equal to the sum of individual delays of the gates,

References

  1. I. Sutherland, R. Sproull, D. Harris, Logical Effort: Designing Fast CMOS Circuits, Morgan Kaufman Publishers, 1999
  2. I Sutherland, R.F. Sproull, Logical Effort: Designing for speed on the back of an envelope, pp 1-16, 1991
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