Transformations for accelerator-based quantum circuit simulation in Haskell

Youssef Moawad; Wim Vanderbauwhede; René Steijl

doi:10.48550/arxiv.2210.12703

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qcr:2606.80264.1

Transformations for accelerator-based quantum circuit simulation in Haskell

arXiv

Youssef Moawad, Wim Vanderbauwhede, René Steijl

For efficient hardware-accelerated simulations of quantum circuits, we can define hardware-specific quantum-circuit transformations. We use a functional programming approach to create a quantum-circuit analysis and transformation method implemented in Haskell. This tool forms a key part of our larger quantum-computing simulation toolchain. As an example of hardware acceleration, we discuss FPGA-based simulations of selected quantum arithmetic circuits, including the transformation steps to optimise the hardware utilisation. Future development steps in the Haskell-based analysis and transformation tool are outlined. The described toolchain can be found on GitHub: https://github.com/DevdudeSami/fqt.

10.48550/arxiv.2210.12703

Published 2022

Uploaded 3 days ago

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