QuantumCircuitOpt: An Open-source Framework for Provably Optimal Quantum Circuit Design

TL;DR

QuantumCircuitOpt is an open-source framework that optimally decomposes quantum unitaries into hardware-native gates, significantly reducing circuit complexity with guarantees of optimality, aiding quantum hardware design and research.

Contribution

It introduces QCOpt, a novel optimization-based framework that provides provably optimal quantum circuit decompositions, outperforming heuristic methods in efficiency and adaptability.

Findings

Achieves up to 57% reduction in gate count for four-qubit circuits.

Provides optimality guarantees for circuit decompositions.

Operates efficiently on standard hardware within minutes.

Abstract

In recent years, the quantum computing community has seen an explosion of novel methods to implement non-trivial quantum computations on near-term hardware. An important direction of research has been to decompose an arbitrary entangled state, represented as a unitary, into a quantum circuit, that is, a sequence of gates supported by a quantum processor. It has been well known that circuits with longer decompositions and more entangling multi-qubit gates are error-prone for the current noisy, intermediate-scale quantum devices. To this end, there has been a significant interest to develop heuristic-based methods to discover compact circuits. We contribute to this effort by proposing QuantumCircuitOpt (QCOpt), a novel open-source framework which implements mathematical optimization formulations and algorithms for decomposing arbitrary unitary gates into a sequence of hardware-native gates. A core innovation of QCOpt is that it provides optimality guarantees on the quantum circuits that it produces. In particular, we show that QCOpt can find up to 57% reduction in the number of necessary gates on circuits with up to four qubits, and in run times less than a few minutes on commodity computing hardware. We also validate the efficacy of QCOpt as a tool for quantum circuit design in comparison with a naive brute-force enumeration algorithm. We also show how the QCOpt package can be adapted to various built-in types of native gate sets, based on different hardware platforms like those produced by IBM, Rigetti and Google. We hope this package will facilitate further algorithmic exploration for quantum processor designers, as well as quantum physicists.