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Trapped Ion Quantum Computing
FragQC: An Efficient Quantum Error Reduction Technique using Quantum Circuit Fragmentation
arXiv
Authors: Saikat Basu, Arnav Das, Amit Saha, Amlan Chakrabarti, Susmita Sur-Kolay
Year
2023
Paper ID
54263
Status
Preprint
Abstract Read
~2 min
Abstract Words
182
Citations
N/A
Abstract
Quantum computers must meet extremely stringent qualitative and quantitative requirements on their qubits in order to solve real-life problems. Quantum circuit fragmentation techniques divide a large quantum circuit into a number of sub-circuits that can be executed on the smaller noisy quantum hardware available. However, the process of quantum circuit fragmentation involves finding an ideal cut that has exponential time complexity, and also classical post-processing required to reconstruct the output. In this paper, we represent a quantum circuit using a weighted graph and propose a novel classical graph partitioning algorithm for selecting an efficient fragmentation that reduces the entanglement between the sub-circuits along with balancing the estimated error in each sub-circuit. We also demonstrate a comparative study over different classical and quantum approaches of graph partitioning for finding such a cut. We present {\it FragQC}, a software tool that cuts a quantum circuit into sub-circuits when its error probability exceeds a certain threshold. With this proposed approach, we achieve an increase of fidelity by 14.83% compared to direct execution without cutting the circuit, and 8.45% over the state-of-the-art ILP-based method, for the benchmark circuits.
Why This Paper Matters
- This paper contributes to the Trapped-Ion Quantum Computing research area in the Quantum Articles archive.
- It adds a 2023 reference point for readers tracking recent quantum research.
- Quantum computers must meet extremely stringent qualitative and quantitative requirements on their qubits in order to solve real-life problems.
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