A Representative Framework for Implementing Quantum Finite Automata on Real Devices
Abstract
We present a framework for the implementation of quantum finite automata algorithms designed for the language MODp = \ ai· p i ≥ 0 \ on gate-based quantum computers. First, we compile the known theoretical results from the literature to reduce the number of CNOT gates. Second, we demonstrate techniques for modifying the algorithms based on the basis gates of available quantum hardware in order to reduce circuit depth. Lastly, we explore how the number of CNOT gates may be reduced further if the topology of the qubits is known.
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