Quantum (Nov 2023)

Automated Generation of Shuttling Sequences for a Linear Segmented Ion Trap Quantum Computer

  • Jonathan Durandau,
  • Janis Wagner,
  • Frédéric Mailhot,
  • Charles-Antoine Brunet,
  • Ferdinand Schmidt-Kaler,
  • Ulrich Poschinger,
  • Yves Bérubé-Lauzière

DOI
https://doi.org/10.22331/q-2023-11-08-1175
Journal volume & issue
Vol. 7
p. 1175

Abstract

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A promising approach for scaling-up trapped-ion quantum computer platforms is by storing multiple trapped-ion qubit sets ('ion crystals') in segmented microchip traps and to interconnect these via physical movement of the ions ('shuttling'). Already for realizing quantum circuits with moderate complexity, the design of suitable qubit assignments and shuttling schedules require automation. Here, we describe and test algorithms which address exactly these tasks. We describe an algorithm for fully automated generation of shuttling schedules, complying to constraints imposed by a given trap structure. Furthermore, we introduce different methods for initial qubit assignment and compare these for random circuit (of up to 20 qubits) and quantum Fourier transform-like circuits, and generalized Toffoli gates of up to 40 qubits each. We find that for quantum circuits which contain a fixed structure, advanced assignment algorithms can serve to reduce the shuttling overhead.