📝 SummarXiv

Abstract

Control is a predominant concept in quantum and reversible computational models. It allows to apply or not a transformation on a system, depending on the state of another system. We introduce a general framework for diagrammatic reasoning featuring control as a constructor. To do so, we provide an elementary axiomatisation of control functors, extending the standard formalism of props (symmetric monoidal categories with the natural numbers as objects) to controlled props. As an application, we show that controlled props ease diagrammatic reasoning for quantum circuits by allowing a simple complete set of relations that only involves relations acting on at most three qubits, whereas it is known that in the standard prop setting any complete axiomatisation requires relations acting on arbitrarily many qubits.