Author
Listed:
- Robert Wille
(University of Bremen, Germany)
- Rolf Drechsler
(University of Bremen, Germany)
Abstract
Reversible logic became a promising alternative to traditional circuits because of its applications in emerging technologies such as quantum computing, low-power design, DNA computing, or nanotechnologies. As a result, synthesis of the respective circuits is an intensely studied topic. However, most synthesis methods are limited, because they rely on a truth table representation of the function to be synthesized. In this paper, the authors present a synthesis approach that is based on Binary Decision Diagrams (BDDs). The authors propose a technique to derive reversible or quantum circuits from BDDs by substituting all nodes of the BDD with a cascade of Toffoli or quantum gates, respectively. Boolean functions containing more than a hundred of variables can efficiently be synthesized. More precisely, a circuit can be obtained from a given BDD using an algorithm with linear worst case behavior regarding run-time and space requirements. Furthermore, using the proposed approach, theoretical results known from BDDs can be transferred to reversible circuits. Experiments show better results (with respect to the circuit cost) and a significantly better scalability in comparison to previous synthesis approaches.
Suggested Citation
Robert Wille & Rolf Drechsler, 2010.
"BDD-Based Synthesis of Reversible Logic,"
International Journal of Applied Metaheuristic Computing (IJAMC), IGI Global, vol. 1(4), pages 25-41, October.
Handle:
RePEc:igg:jamc00:v:1:y:2010:i:4:p:25-41
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