Add to ORKGStudies of computational complementarity properties in finite state interactive automata may shed light on the nature of both quantum and classical computation. But, complementarity is difficult to test even for small-size automata. This paper introduces the concept of an observation graph of an automaton which is used as the main tool for the design of an algorithm which tests, in a uniform manner, two types of complementarity properties. Implementations have been run on a standard desktop computer examining all 5-state binary automata
We introduce a new paradigm for analysing and finding bugs in quantum circuits. In our approach, the...
We introduce a new paradigm for analysing and finding bugs in quantum circuits. In our approach, the...
We introduce a new paradigm for analysing and finding bugs in quantum circuits. In our approach, the...
Complementarity is not only a feature of quantum mechanical systems but occurs also in the context o...
Studies of computational complementarity properties in finite state interactive automata may shed l...
Since Edward Moore, finite automata theory has been inspired by physics, in particular by quantum co...
AbstractQuantum finite automata have been studied intensively since their introduction in late 1990s...
AbstractThis paper is a review of the connection between formulas of logic and quantum finite-state ...
Abstract. Since Edward Moore, finite automata theory has been inspired by physics, in particular by ...
AbstractQuantum finite automata have been studied intensively since their introduction in late 1990s...
In the talk we present results on comparitve power of classical and quantum computational models. We...
AbstractThis paper is a review of the connection between formulas of logic and quantum finite-state ...
In this thesis we shall present and develop the concept of a theory machine. Theory machines describ...
In this paper, we introduce the model of quantum Mealy machines and study the equivalence checking a...
We introduce a new paradigm for analysing and finding bugs in quantum circuits. In our approach, the...
We introduce a new paradigm for analysing and finding bugs in quantum circuits. In our approach, the...
We introduce a new paradigm for analysing and finding bugs in quantum circuits. In our approach, the...
We introduce a new paradigm for analysing and finding bugs in quantum circuits. In our approach, the...
Complementarity is not only a feature of quantum mechanical systems but occurs also in the context o...
Studies of computational complementarity properties in finite state interactive automata may shed l...
Since Edward Moore, finite automata theory has been inspired by physics, in particular by quantum co...
AbstractQuantum finite automata have been studied intensively since their introduction in late 1990s...
AbstractThis paper is a review of the connection between formulas of logic and quantum finite-state ...
Abstract. Since Edward Moore, finite automata theory has been inspired by physics, in particular by ...
AbstractQuantum finite automata have been studied intensively since their introduction in late 1990s...
In the talk we present results on comparitve power of classical and quantum computational models. We...
AbstractThis paper is a review of the connection between formulas of logic and quantum finite-state ...
In this thesis we shall present and develop the concept of a theory machine. Theory machines describ...
In this paper, we introduce the model of quantum Mealy machines and study the equivalence checking a...
We introduce a new paradigm for analysing and finding bugs in quantum circuits. In our approach, the...
We introduce a new paradigm for analysing and finding bugs in quantum circuits. In our approach, the...
We introduce a new paradigm for analysing and finding bugs in quantum circuits. In our approach, the...
We introduce a new paradigm for analysing and finding bugs in quantum circuits. In our approach, the...