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Recently, logic-in-memory (LIM) is gaining growing interest because it eliminates the unnecessary data movement between the memory and logic components that embarrasses both performance and power dissipation in modern microprocessors. However, most of the existing LIM just puts the logic and memory closer rather than a true integration due to the incompatibility of logic and memory circuit structures...
The performances of high-frequency two-stage pipeline 32-bit carry lookahead adders are evaluated in this paper with the following three different implementations: silicon MOSFET (Si-MOSFET) domino logic, Si-MOSFET NP dynamic CMOS, and carbon nanotube MOSFET (CN-MOSFET) NP dynamic CMOS. While providing similar propagation delay, the total area of CN-MOSFET NP dynamic CMOS adder is reduced by 35.53%...
Low-power, compact, and high-performance NP dynamic CMOS circuits implemented with a 16nm carbon nanotube transistor technology are presented in this paper. The performances of two-stage pipeline 32-bit carry lookahead adders are evaluated with two circuit techniques: the carbon nanotube MOSFET (CN-MOSFET) domino logic and the CN-MOSFET NP dynamic CMOS. While providing similar propagation delay, the...
Low-power, compact, and high-performance NP dynamic CMOS circuits implemented with a 16nm carbon nanotube transistor technology are presented in this paper. The performances of NP dynamic CMOS full adders based on 16nm carbon nanotube MOSFETs (CN-MOSFETs) and 16nm conventional silicon MOSFETs (Si-MOSFETs) are compared. The dynamic switching power consumption, the leakage power consumption, and the...
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