Power-delay characteristics of CMOS adders |
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| Authors: | Nagendra C. Owens R.M. Irwin M.J. |
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| Affiliation: | Dept. of Comput. Sci. & Eng., Pennsylvania State Univ., University Park, PA; |
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| Abstract: | ![]()
An approach to designing CMOS adders for both high speed and low power is presented by analyzing the performance of three types of adders - linear time adders, logN time adders and constant time adders. The representative adders used are a ripple carry adder, a blocked carry lookahead adder and several signed-digit adders, respectively. Some of the tradeoffs that are possible during the logic design of an adder to improve its power-delay product are identified. An effective way of improving the speed of a circuit is by transistor sizing which unfortunately increases power dissipation to a large extent. It is shown that by sizing transistors judiciously it is possible to gain significant speed improvements at the cost of only a slight increase in power and hence a better power-delay product. Perflex, an in-house performance driven layout generator, is used to systematically generate sized layouts |
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