An outlook on design technologies for future integrated systems
IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems
On the Effect of Quantum Interaction Distance on Quantum Addition Circuits
ACM Journal on Emerging Technologies in Computing Systems (JETC)
A Θ( √ n)-depth quantum adder on the 2D NTC quantum computer architecture
ACM Journal on Emerging Technologies in Computing Systems (JETC)
Synthesis and optimization of reversible circuits—a survey
ACM Computing Surveys (CSUR)
Optimization of quantum circuits for interaction distance in linear nearest neighbor architectures
Proceedings of the 50th Annual Design Automation Conference
A blueprint for building a quantum computer
Communications of the ACM
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We study the problem of the practical realization of an abstract quantum circuit when executed on a quantum hardware. By practical, we mean adapting the circuit to particulars of the physical environment which restricts/complicates the establishment of certain direct interactions between qubits. This is a quantum version of the classical circuit placement problem. We study the theoretical aspects of the problem and also present empirical results that match the best known solutions that have been developed by experimentalists. Finally, we discuss the efficiency of the approach and the scalability of its implementation with regard to the future development of quantum hardware.