Best Approximate Quantum Compiling Problems

ACM Transactions on Quantum Computing Pub Date : 2021-06-10 DOI:10.1145/3505181
Liam Madden, Andrea Simonetto
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引用次数: 28

Abstract

We study the problem of finding the best approximate circuit that is the closest (in some pertinent metric) to a target circuit, and which satisfies a number of hardware constraints, like gate alphabet and connectivity. We look at the problem in the CNOT+rotation gate set from a mathematical programming standpoint, offering contributions both in terms of understanding the mathematics of the problem and its efficient solution. Among the results that we present, we are able to derive a 14-CNOT 4-qubit Toffoli decomposition from scratch, and show that the Quantum Shannon Decomposition can be compressed by a factor of two without practical loss of fidelity.
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最佳近似量子编译问题
我们研究了寻找最接近(在一些相关度量中)目标电路的最佳近似电路的问题,并且它满足许多硬件约束,如门字母和连通性。我们从数学规划的角度看待CNOT+旋转门集合中的问题,在理解问题的数学原理及其有效解决方案方面都做出了贡献。在我们提出的结果中,我们能够从零开始推导出14-CNOT 4量子位Toffoli分解,并表明量子香农分解可以被压缩两倍而不会实际损失保真度。
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ACM Transactions on Quantum Computing
ACM Transactions on Quantum Computing
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