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Limiting the Search Space in Optimal Quantum Circuit Mapping

Lukas Burgholzer, Sarah Schneider

202223 citationsDOIOpen Access PDF

Abstract

Executing quantum circuits on currently available quantum computers requires compiling them to a representation that conforms to all restrictions imposed by the targeted architecture. Due to the limited connectivity of the devices' physical qubits, an important step in the compilation process is to map the circuit in such a way that all its gates are executable on the hardware. Existing solutions delivering optimal solutions to this task are severely challenged by the exponential complexity of the problem. In this paper, we show that the search space of the mapping problem can be limited drastically while still preserving optimality. The proposed strategies are generic, architecture-independent, and can be adapted to various mapping methodologies. The findings are backed by both, theoretical considerations and experimental evaluations. Results confirm that, by limiting the search space, optimal solutions can be determined for instances that timeouted before or speed-ups of up to three orders of magnitude can be achieved.

Topics & Concepts

ExecutableComputer scienceLimitingQubitQuantum computerRepresentation (politics)Computer engineeringTheoretical computer scienceQuantumProcess (computing)Quantum circuitTask (project management)Space (punctuation)Quantum gateAlgorithmTopology (electrical circuits)MathematicsQuantum error correctionProgramming languageLawMechanical engineeringPolitical scienceEconomicsPhysicsCombinatoricsManagementPoliticsQuantum mechanicsEngineeringOperating systemQuantum Computing Algorithms and ArchitectureQuantum Information and CryptographyQuantum-Dot Cellular Automata
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