English

An Integrated Programming and Development Environment for Adiabatic Quantum Optimization

Quantum Physics 2014-07-15 v3
Authors: Travis S. Humble , Alex J. McCaskey , Ryan S. Bennink , Jay J. Billings , Ed F. D'Azevedo , Blair D. Sullivan , Christine F. Klymko , Hadayat Seddiqi
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Abstract

Adiabatic quantum computing is a promising route to the computational power afforded by quantum information processing. The recent availability of adiabatic hardware has raised challenging questions about how to evaluate adiabatic quantum optimization programs. Processor behavior depends on multiple steps to synthesize an adiabatic quantum program, which are each highly tunable. We present an integrated programming and development environment for adiabatic quantum optimization called JADE that provides control over all the steps taken during program synthesis. JADE captures the workflow needed to rigorously specify the adiabatic quantum optimization algorithm while allowing a variety of problem types, programming techniques, and processor configurations. We have also integrated JADE with a quantum simulation engine that enables program profiling using numerical calculation. The computational engine supports plug-ins for simulation methodologies tailored to various metrics and computing resources. We present the design, integration, and deployment of JADE and discuss its potential use for benchmarking adiabatic quantum optimization programs by the quantum computer science community.

Keywords

adiabatic quantum mechanics quantum computing computational physics software

Cite

@article{arxiv.1309.3575,
  title  = {An Integrated Programming and Development Environment for Adiabatic Quantum Optimization},
  author = {Travis S. Humble and Alex J. McCaskey and Ryan S. Bennink and Jay J. Billings and Ed F. D'Azevedo and Blair D. Sullivan and Christine F. Klymko and Hadayat Seddiqi},
  journal= {arXiv preprint arXiv:1309.3575},
  year   = {2014}
}

Comments

28 pages, 17 figures, feedback welcomed, even if it's criticism; v2 manuscript updated based on reviewer feedback; v3 manuscript updated based on reviewer feedback, title modified

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