Concrete Resource Analysis of the Quantum Linear System Algorithm used to Compute the Electromagnetic Scattering Cross Section of a 2D Target - Archive ouverte HAL
Article Dans Une Revue Quantum Information Processing Année : 2017

Concrete Resource Analysis of the Quantum Linear System Algorithm used to Compute the Electromagnetic Scattering Cross Section of a 2D Target

Artur Scherer
  • Fonction : Auteur
Mau Siun-Chuon
  • Fonction : Auteur
Eric van den Berg
  • Fonction : Auteur
Thomas Chapuran
  • Fonction : Auteur

Résumé

We provide a detailed estimate for the logical resource requirements of the quantum linear system algorithm (QLSA) [Phys. Rev. Lett. 103, 150502 (2009)] including the recently described generalization [Phys. Rev. Lett. 110, 250504 (2013)]. Our resource estimates are based on the standard quantum-circuit model of quantum computation; they comprise circuit width, circuit depth, the number of qubits and ancilla qubits employed, and the overall number of elementary quantum gate operations as well as more specific gate counts for each elementary fault-tolerant gate from the standard set {X, Y, Z, H, S, T, CNOT}. To perform these estimates, we used an approach that combines manual analysis with automated estimates generated via the Quipper quantum programming language and compiler. Our estimates pertain to the example problem size N=332,020,680 beyond which, according to a crude big-O complexity comparison, QLSA is expected to run faster than the best known classical linear-system solving algorithm. For this problem size, a desired calculation accuracy 0.01 requires an approximate circuit width 340 and circuit depth of order 10^25 if oracle costs are excluded, and a circuit width and depth of order 10^8 and 10^29, respectively, if oracle costs are included, indicating that the commonly ignored oracle resources are considerable. In addition to providing detailed logical resource estimates, it is also the purpose of this paper to demonstrate explicitly how these impressively large numbers arise with an actual circuit implementation of a quantum algorithm. While our estimates may prove to be conservative as more efficient advanced quantum-computation techniques are developed, they nevertheless provide a valid baseline for research targeting a reduction of the resource requirements, implying that a reduction by many orders of magnitude is necessary for the algorithm to become practical.
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Dates et versions

hal-01474610 , version 1 (08-02-2024)

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Artur Scherer, Benoît Valiron, Mau Siun-Chuon, D. Scott Alexander, Eric van den Berg, et al.. Concrete Resource Analysis of the Quantum Linear System Algorithm used to Compute the Electromagnetic Scattering Cross Section of a 2D Target. Quantum Information Processing, 2017, pp.16:60. ⟨10.1007/s11128-016-1495-5⟩. ⟨hal-01474610⟩
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