Dueck scite author profile

Dueck

2Publications

24Citation Statements Received

58Citation Statements Given

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Debugging of Toffoli networks

Wille

Grosse²,

Frehse³

et al. 2009

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Abstract-Intensive research is performed to find post-CMOS technologies. A very promising direction based on reversible logic are quantum computers. While in the domain of reversible logic synthesis, testing, and verification have been investigated, debugging of reversible circuits has not yet been considered. The goal of debugging is to determine gates of an erroneous circuit that explain the observed incorrect behavior.In this paper we propose the first approach for automatic debugging of reversible Toffoli networks. Our method uses a formulation for the debugging problem based on Boolean satisfiability. We show the differences to classical (irreversible) debugging and present theoretical results. These are used to speed-up the debugging approach as well as to improve the resulting quality. Our method is able to find and to correct single errors automatically.

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Quantified Synthesis of Reversible Logic

Wille¹,

Le²,

Dueck³

et al. 2008

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In the last years synthesis of reversible logic functions has emerged as an important research area. Other fields such as low-power design, optical computing and quantum computing benefit directly from achieved improvements. Recently, several approaches for exact synthesis of Toffoli networks have been proposed. They all use Boolean satisfiability to solve the underlying synthesis problem. In this paper a new exact synthesis approach based on Quantified Boolean Formula (QBF) satisfiability -a generalization of Boolean satisfiability -is presented. Besides the application of QBF solvers, we propose Binary Decision Diagrams to solve the quantified problem formulation. This allows to easily support different gate libraries during synthesis. In addition, all minimal networks are found in a single step and the best one with respect to quantum costs can be chosen. Experimental results confirm that the new technique is faster than the best previously known approach and leads to cheaper realizations in terms of quantum costs.

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Dueck

Debugging of Toffoli networks

Quantified Synthesis of Reversible Logic

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