Add to ORKGIn this paper a synthesis algorithm for reversible ternary logic cascades is presented. The algorithm can find a solution for any reversible ternary function with n inputs and n outputs utilizing ternary inverter gates and the new (quantum realizable) UCTG gates which are a powerful generalization of ternary Toffoli gates and Generalized Ternary Gates [4]. The algorithm is an extension of the algorithm presented by Dueck, Maslov, and Miller in [3]. A unique feature of this algorithm is that it utilizes no extra wires to generate the outputs. A basic compaction algorithm is defined to improve the results of the basic algorithm. This paper also provides the groundwork for transforming any n*n Toffoli based binary synthesis algorithm into a te...
Logic synthesis has been increasingly important to accelerate the development of high-level systems....
AbstractReversible circuits play an important role in quantum computing. This paper studies the real...
Abstract — Interest in quantum computing, nanotechnology, and low power consumption circuits is fuel...
In this paper a synthesis algorithm for reversible ternary logic cascades is presented. The algorith...
In this paper a synthesis algorithm for reversible ternary logic cascades is presented. The algorith...
AbstractTernary logic has some distinct advantage over binary logic. In this paper we propose a synt...
A digital combinational logic circuit is reversible if it maps each input pattern to a unique output...
Abstract-Ternary quantum circuits have recently been introduced to help reduce the size of multi-val...
A digital combinational logic circuit is reversible if it maps each input pattern to a unique output...
This paper investigates the synthesis of quantum networks built to realize ternary switching circuit...
We present a new algorithm for synthesis of reversible circuits for arbitrary n-bit bijective functi...
This dissertation is devoted to efficient automated logic synthesis of reversible circuits using var...
This paper presents a new approach to designing reversible circuits. Reversible circuits can decreas...
Abstract — This paper presents a constructive synthesis algorithm for any n-qubit reversible functio...
This paper presents an original method of designing some special reversible circuits. This method is...
Logic synthesis has been increasingly important to accelerate the development of high-level systems....
AbstractReversible circuits play an important role in quantum computing. This paper studies the real...
Abstract — Interest in quantum computing, nanotechnology, and low power consumption circuits is fuel...
In this paper a synthesis algorithm for reversible ternary logic cascades is presented. The algorith...
In this paper a synthesis algorithm for reversible ternary logic cascades is presented. The algorith...
AbstractTernary logic has some distinct advantage over binary logic. In this paper we propose a synt...
A digital combinational logic circuit is reversible if it maps each input pattern to a unique output...
Abstract-Ternary quantum circuits have recently been introduced to help reduce the size of multi-val...
A digital combinational logic circuit is reversible if it maps each input pattern to a unique output...
This paper investigates the synthesis of quantum networks built to realize ternary switching circuit...
We present a new algorithm for synthesis of reversible circuits for arbitrary n-bit bijective functi...
This dissertation is devoted to efficient automated logic synthesis of reversible circuits using var...
This paper presents a new approach to designing reversible circuits. Reversible circuits can decreas...
Abstract — This paper presents a constructive synthesis algorithm for any n-qubit reversible functio...
This paper presents an original method of designing some special reversible circuits. This method is...
Logic synthesis has been increasingly important to accelerate the development of high-level systems....
AbstractReversible circuits play an important role in quantum computing. This paper studies the real...
Abstract — Interest in quantum computing, nanotechnology, and low power consumption circuits is fuel...