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W4311556554 abstract "Quantum circuits are widely used for benchmarking quantum computers and therefore crucial for the development and improvement of full-stack quantum computing systems. To execute such circuits on a given quantum processor, they have to be modified to comply with its physical constraints. That process is done during the compilation phase and known as mapping of quantum circuits. The result of the mapping procedure is highly dependent not only on the hardware constraints, but also on the properties of the circuit itself. In this paper, we propose to explore the structure of quantum circuits to get detailed insights into their success rate when being executed on a given quantum device while using a specific compilation technique. To this purpose, we have characterized a large body of quantum circuits by extracting graph theory-based properties from their corresponding qubit interaction graphs and afterwards clustered them based on those and other commonly used circuit-describing parameters. This characterization will help i) to perform an in-depth analysis of quantum circuits and their structure and group them based on similarities; ii) to better understand and compare the mapping performance when run on a quantum processor and, later on, iii) to develop mapping techniques that use information from both, algorithms and quantum devices. Our simulation results show a clear correlation between interaction graph-based parameters as well as clusters of circuits with their mapping performance metrics when considering the constraints of a Surface-97 processor, as well as of IBM-53 Rochester and Aspen-16 devices. In addition to that, we provide an up-to-date collection of quantum circuits and algorithms taken from well-known sources with the goal of having an all-gathering, easy-to-use, categorized and characterized benchmark set available for the quantum computing community." @default.
W4311556554 created "2022-12-27" @default.
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W4311556554 date "2022-12-13" @default.
W4311556554 modified "2023-10-13" @default.
W4311556554 title "Interaction graph-based profiling of quantum benchmarks for improving quantum circuit mapping techniques" @default.
W4311556554 doi "https://doi.org/10.1007/s42484-023-00124-1" @default.
W4311556554 hasPublicationYear "2022" @default.
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