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A verified optimizer for Quantum circuits

Kesha Hietala, Robert W. Rand, Shih-Han Hung, Xiaodi Wu, Michael Hicks

2021Proceedings of the ACM on Programming Languages108 citationsDOIOpen Access PDF

Abstract

We present VOQC, the first fully verified optimizer for quantum circuits, written using the Coq proof assistant. Quantum circuits are expressed as programs in a simple, low-level language called SQIR, a simple quantum intermediate representation, which is deeply embedded in Coq. Optimizations and other transformations are expressed as Coq functions, which are proved correct with respect to a semantics of SQIR programs. SQIR uses a semantics of matrices of complex numbers, which is the standard for quantum computation, but treats matrices symbolically in order to reason about programs that use an arbitrary number of quantum bits. SQIR's careful design and our provided automation make it possible to write and verify a broad range of optimizations in VOQC, including full-circuit transformations from cutting-edge optimizers.

Topics & Concepts

Computer scienceQuantum computerSimple (philosophy)Semantics (computer science)QuantumRepresentation (politics)ComputationElectronic circuitTheoretical computer scienceQuantum algorithmProgramming languageQuantum circuitQuantum gateElectronic design automationAlgorithmComputer engineeringQuantum error correctionEmbedded systemQuantum mechanicsPhysicsLawPolitical sciencePoliticsPhilosophyEpistemologyQuantum Computing Algorithms and ArchitectureQuantum Information and CryptographyLow-power high-performance VLSI design