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A new low power dynamic CMOS one bit full adder cell is presented in this paper. In this design technique is based on semi-domino logic. This new adder cell was compared with some previous proposed widely used dynamic adders as well as other conventional architectures. Objective of this work is to inspect the power, delay, power-delay product and leakage performance of low voltage full adder cells...
A new low power dynamic CMOS one bit full adder cell is presented. In this design technique is based on semi-domino logic. This new cell is compared with some previous proposed widely used dynamic adders as well as other conventional architectures. Objective of this work is to inspect the power, delay, power-delay-product and leakage performance of low voltage full adder cells in different CMOS logic...
Dynamic logic style is used in high performance circuit design because of its fast speed and less transistors requirement as compared to CMOS logic style. But it is not widely accepted for all types of circuit implementations due to its less noise tolerance and charge sharing problems. A small noise at the input of the dynamic logic can change the desired output. Domino logic uses one static CMOS...
Dynamic CMOS gates are widely exploited in high-performance designs because of their speed. However, they suffer from high noise sensitivity. The main reason for this is the sub-threshold leakage current flowing through the evaluation network. This problem becomes more and more severe with continuous scaling of the technology. A new circuit technique for increasing the noise tolerance of dynamic CMOS...
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