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Reducing 2-QuBit Gate Count for ZX-Calculus based Quantum Circuit Optimization

Korbinian Staudacher, Tobias Guggemos, Sophia Grundner-Culemann, Wolfgang Gehrke

2023Electronic Proceedings in Theoretical Computer Science20 citationsDOIOpen Access PDF

Abstract

In the near term, programming quantum computers will remain severely limited by low quantum volumes. Therefore, it is desirable to implement quantum circuits with the fewest resources possible. For the common Clifford+T circuits, most research is focused on reducing the number of T gates, since they are an order of magnitude more expensive than Clifford gates in quantum error corrected encoding schemes. However, this optimization sometimes leads to more 2-qubit gates, which, even though they are less expensive in terms of fault-tolerance, contribute significantly to the overall circuit cost. Approaches based on the ZX-calculus have recently gained some popularity in the field, but reduction of 2-qubit gates is not their focus. In this work, we present an alternative for improving 2-qubit gate count of a quantum circuit with the ZX-calculus by using heuristics in ZX-diagram simplification. Our approach maintains the good reduction of the T gate count provided by other strategies based on ZX-calculus, thus serving as an extension for other optimization algorithms. Our results show that combining the available ZX-calculus-based optimizations with our algorithms can reduce the number of 2-qubit gates by as much as 40% compared to current approaches using ZX-calculus. Additionally, we improve the results of the best currently available optimization technique of Nam et. al for some circuits by up to 15%.

Topics & Concepts

QubitToffoli gateComputer scienceQuantum computerHeuristicsReduction (mathematics)Gate countElectronic circuitQuantumMathematicsAlgorithmTopology (electrical circuits)Computer engineeringQuantum gateMathematical optimizationQuantum mechanicsEmbedded systemPhysicsGeometryCombinatoricsQuantum Computing Algorithms and ArchitectureQuantum Information and CryptographyQuantum-Dot Cellular Automata
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