Lightcone bounds for quantum circuit mapping via uncomplexity

IF 6.6 1区 物理与天体物理 Q1 PHYSICS, APPLIED
Matthew Steinberg, Medina Bandić, Sacha Szkudlarek, Carmen G. Almudever, Aritra Sarkar, Sebastian Feld
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引用次数: 0

Abstract

Efficiently mapping quantum circuits onto hardware is integral for the quantum compilation process, wherein a circuit is modified in accordance with a quantum processor’s connectivity. Many techniques currently exist for solving this problem, wherein SWAP-gate overhead is usually prioritized as a cost metric. We reconstitute quantum circuit mapping using tools from quantum information theory, showing that a lower bound, which we dub the lightcone bound, emerges for a circuit executed on hardware. We also develop an initial placement algorithm based on graph similarity search, aiding us in optimally placing circuit qubits onto a device. 600 realistic benchmarks using the IBM Qiskit compiler and a brute-force method are then tested against the lightcone bound, with results unambiguously verifying the veracity of the bound, while permitting trustworthy estimations of minimal overhead in near-term realizations of quantum algorithms. This work constitutes the first use of quantum circuit uncomplexity to practically-relevant quantum computing.

Abstract Image

通过非复杂性实现量子电路映射的光锥边界
高效地将量子电路映射到硬件上是量子编译过程不可或缺的一部分,在这一过程中,电路会根据量子处理器的连接性进行修改。目前有许多解决这一问题的技术,其中 SWAP 门开销通常作为成本指标优先考虑。我们利用量子信息论的工具重构了量子电路映射,证明在硬件上执行的电路会出现一个下限,我们称之为光锥下限。我们还开发了一种基于图相似性搜索的初始放置算法,帮助我们以最佳方式将电路量子比特放置到设备上。然后,我们使用 IBM Qiskit 编译器和蛮力方法对 600 个现实基准进行了光锥约束测试,结果明确验证了约束的真实性,同时允许对量子算法近期实现的最小开销进行可信的估计。这项工作首次将量子电路不复杂性应用于实际相关的量子计算。
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来源期刊
npj Quantum Information
npj Quantum Information Computer Science-Computer Science (miscellaneous)
CiteScore
13.70
自引率
3.90%
发文量
130
审稿时长
29 weeks
期刊介绍: The scope of npj Quantum Information spans across all relevant disciplines, fields, approaches and levels and so considers outstanding work ranging from fundamental research to applications and technologies.
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