Authors: Elena R. Henderson, Jessie M. Henderson, Aviraj Sinha, Eric C. Larson, Mitchell A. Thornton

Published on: September 02, 2023

Impact Score: 8.22

Arxiv code: Arxiv:2309.01028

Summary

• What is new: The introduction of an automated quantum-software toolkit that transforms classically-specified functions into quantum circuits.
• Why this is important: Manual preparation of quantum circuits for current quantum computers is tedious and impractical due to the increasing number of qubits.
• What the research proposes: An automated toolkit that synthesizes, compiles, and optimizes irreversible functions into quantum circuits, making the process efficient and scalable.
• Results: Successful application of the toolkit to quantum read-only memories, quantum random number generators, and quantum oracles, demonstrating its comprehensiveness and utility.

Technical Details

Technological frameworks used: Automated quantum-software toolkit

Models used: Synthesis, Compilation, Optimization

Data used: Classically-specified, irreversible functions

Potential Impact

Quantum computing markets, cloud computing providers, cybersecurity firms, and companies involved in quantum research

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