Abstract
With the continuous scaling down of technology in the field of integrated circuit design, low power dissipation has become one of the primary focuses of the research. With the increasing demand for low power devices, adiabatic logic gates prove to be an effective solution. This paper briefs on different adiabatic logic families such as ECRL (Efficient Charge Recovery Logic), 2N-2N2P and PFAL (Positive Feedback Adiabatic Logic), and presents a new proposed circuit based on the PFAL logic circuit. The aim of this paper is to simulate various logic gates using PFAL logic circuits and with the proposed logic circuit, and hence to compare the effectiveness in terms of average power dissipation and delay at different frequencies. This paper further presents implementation of C17 and C432 benchmark circuits, using the proposed logic circuit and the conventional PFAL logic circuit to compare effectiveness of the proposed logic circuit in terms of average power dissipation at different frequencies. All simulations are carried out by using HSPICE Simulator at 65 nm technology at different frequency ranges. Finally, average power dissipation characteristics are plotted with the help of graphs, and comparisons are made between PFAL logic family and new proposed PFAL logic family.
Highlights
The rapid advancement in semiconductor technology in electronic devices over the years has resulted in better performance and higher circuit densities
We have shown the waveforms of simulation of 2:1 MUX using Positive Feedback Adiabatic Logic (PFAL) and DCDB-PFAL logic families
In order to see the effectiveness of the proposed DCDBPFAL logic circuits over conventional PFAL logic family, different logic gates have been implemented, first using conventional PFAL logic family and by usc 2017 ADVANCES IN ELECTRICAL AND ELECTRONIC ENGINEERING
Summary
The rapid advancement in semiconductor technology in electronic devices over the years has resulted in better performance and higher circuit densities. The adiabatic logic is a novel low power circuit technology which utilizes AC voltage supply as opposed to DC voltage supply so as to recycle the energy of circuits. To recycle the energy of circuit nodes, adiabatic logic based devices utilize AC power clock which has a four-phase operation. In these circuits the charge, rather flowing from the load capacitance to ground, it flows back to the trapezoidal or sinusoidal supply voltage and can be reused [9]. Power dissipation and delay is calculated for different logic gates using PFAL and with proposed PFAL logic, and results are compared graphically to see the effectiveness of the proposed logic circuit over the base PFAL adiabatic logic circuit.
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