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Evolving Quantum Circuits And An Fpga-Based Quantum Computing Emulator, Goran Negovetic, Marek Perkowski, Martin Lukac, Andrzej Buller
Evolving Quantum Circuits And An Fpga-Based Quantum Computing Emulator, Goran Negovetic, Marek Perkowski, Martin Lukac, Andrzej Buller
Electrical and Computer Engineering Faculty Publications and Presentations
The goal of the PQLG group is to develop complete methodologies, software tools and circuits for quantum logic. Our interests are mainly in logic synthesis for quantum circuits and quantum system design [10]. Emulation of quantum circuits using standard reconfigurable FPGA technology and FPGA-based Evolvable Quantum Hardware, proposed here, are research areas not yet dealt with by other research groups. A parallel software simulator was presented in [13].
Logic Synthesis Of Reversible Wave Cascades, Alan Mishchenko, Marek Perkowski
Logic Synthesis Of Reversible Wave Cascades, Alan Mishchenko, Marek Perkowski
Electrical and Computer Engineering Faculty Publications and Presentations
A circuit is reversible if it maps each input vector into a unique output vector, and vice versa. Reversible circuits lead to power-efficient CMOS implementations. Reversible logic synthesis may be applicable to optical and quantum computing. Minimizing garbage bits is the main challenge in reversible logic synthesis. This paper introduces an algorithm to generate the cascade of reversible complex Maitra terms (called here reversible wave cascade) implementing incompletely specified Boolean functions. The remarkable property of the presented method compared to other reversible synthesis methods is that it creates at most one constant input and no additional garbage outputs. Preliminary estimation …