Add to ORKGThis paper deals with design opportunities of CMOS based reversible logic circuits employing adiabat...
Reversible logic provides an alternative to classical computing, that may overcome many of the power...
With the recent trend toward portable communication and computing, power dissipation has become one ...
We show that both 130 nm and 65 nm technologies are suitable for reversible computation
Through the very last reversible CMOS circuit realizations, this tutorial will discuss the viability...
Abstract—We propose a new fully reversible adiabatic logic, nMOS reversible energy recovery logic (n...
This paper presents a new family of logic gates for ultra low energy computing using pulsed power CM...
Programmable reversible logic is emerging as a prospective logic design style for implementation in ...
We propose a new fully reversible adiabatic logic, nMOS reversible energy recovery logic (nRERL), w...
Quantum computing and circuits are of growing interest and so is reversible logic as it plays an imp...
Comparison of power dissipation characteristics for a range of reversible logic elements when operat...
Reversibility plays a fundamental role when logic gates such as AND, OR, and XOR are not reversible....
CMOS based computing is reaching its limits. To take computation beyond Moores law (the number of tr...
In this paper, we describe an energy-efficient carrylookahead adder using reversible energy recover...
The demand for high speed, low power dissipation and low cost for design of low-power VLSI, is alway...
This paper deals with design opportunities of CMOS based reversible logic circuits employing adiabat...
Reversible logic provides an alternative to classical computing, that may overcome many of the power...
With the recent trend toward portable communication and computing, power dissipation has become one ...
We show that both 130 nm and 65 nm technologies are suitable for reversible computation
Through the very last reversible CMOS circuit realizations, this tutorial will discuss the viability...
Abstract—We propose a new fully reversible adiabatic logic, nMOS reversible energy recovery logic (n...
This paper presents a new family of logic gates for ultra low energy computing using pulsed power CM...
Programmable reversible logic is emerging as a prospective logic design style for implementation in ...
We propose a new fully reversible adiabatic logic, nMOS reversible energy recovery logic (nRERL), w...
Quantum computing and circuits are of growing interest and so is reversible logic as it plays an imp...
Comparison of power dissipation characteristics for a range of reversible logic elements when operat...
Reversibility plays a fundamental role when logic gates such as AND, OR, and XOR are not reversible....
CMOS based computing is reaching its limits. To take computation beyond Moores law (the number of tr...
In this paper, we describe an energy-efficient carrylookahead adder using reversible energy recover...
The demand for high speed, low power dissipation and low cost for design of low-power VLSI, is alway...
This paper deals with design opportunities of CMOS based reversible logic circuits employing adiabat...
Reversible logic provides an alternative to classical computing, that may overcome many of the power...
With the recent trend toward portable communication and computing, power dissipation has become one ...