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DAC
2004
ACM
2004
ACM
Quantum logic synthesis by symbolic reachability analysis
Reversible quantum logic plays an important role in quantum computing. In this paper, we propose an approach to optimally synthesize quantum circuits by symbolic reachability analysis where the primary inputs are purely binary. We present an exact synthesis method with optimal quantum cost and a speedup method with non-optimal quantum cost. Both our methods guarantee the synthesizeability of all reversible circuits. Unlike previous works which use permutative reversible gates, we use a lower level library which includes non-permutative quantum gates. Our approach obtains the minimum cost quantum circuits for Miller's gate, half-adder, and full-adder, which are better than previous results. In addition, we prove the minimum quantum cost (using our elementary quantum gates) for Fredkin, Peres, and Toffoli gates. Our work constitutes the first successful experience of applying satisfiability with formal methods to quantum logic synthesis. Categories and Subject Descriptors: B.6.3 [L...
Real-time TrafficCost Quantum Circuits | DAC 2004 | Design Automation | Minimum Quantum Cost | Reversible Quantum Logic |
| Added | 13 Nov 2009 |
| Updated | 13 Nov 2009 |
| Type | Conference |
| Year | 2004 |
| Where | DAC |
| Authors | William N. N. Hung, Xiaoyu Song, Guowu Yang, Jin Yang, Marek A. Perkowski |
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