AbstractA logic for reasoning about states of basic quantum imperative programs is presented. The models of the logic are ensembles obtained by attaching probabilities to pairs of quantum states and classical states. The state logic is used to provide a sound Hoare-style calculus for quantum imperative programs. The calculus is illustrated by proving the correctness of the Deutsch algorithm
In the first chapter we introduce new forms of quantum logic suggested by quantum computation, calle...
We present a logical calculus for reasoning about information flow in quan-tum programs. In particul...
Several domains [S. Abramsky. A Cook's tour of a simple quantum programming language. 3rd Inter...
AbstractA logic for reasoning about states of basic quantum imperative programs is presented. The mo...
Hoare logic provides a syntax-oriented method to reason about program correctness and has been prove...
Abstract. This paper provides a Hoare-style logic for quantum compu-tation. While the usual Hoare lo...
Verifying the functional correctness of programs with both classical and quantum constructs is a cha...
© The Author(s) 2019. We formalize the theory of quantum Hoare logic (QHL) [TOPLAS 33(6),19], an ext...
We present a variant of the quantum relational Hoare logic from (Unruh, POPL 2019) that allows us to...
We investigate the formal semantics of a simple imperative language that has both classical and quan...
Quantum Hoare Logic (QHL) was introduced in Ying's work to specify and reason about quantum programs...
© 2018, British Computer Society. This paper summarises the results obtained by the author and his c...
We apply the notion of quantum predicate proposed by D'Hondt and Panangaden to analyze a simple lang...
Classical and quantum parallelism are deeply different, although it is sometimes claimed that quantu...
AbstractWe apply the notion of quantum predicate proposed by D’Hondt and Panangaden to analyze a sim...
In the first chapter we introduce new forms of quantum logic suggested by quantum computation, calle...
We present a logical calculus for reasoning about information flow in quan-tum programs. In particul...
Several domains [S. Abramsky. A Cook's tour of a simple quantum programming language. 3rd Inter...
AbstractA logic for reasoning about states of basic quantum imperative programs is presented. The mo...
Hoare logic provides a syntax-oriented method to reason about program correctness and has been prove...
Abstract. This paper provides a Hoare-style logic for quantum compu-tation. While the usual Hoare lo...
Verifying the functional correctness of programs with both classical and quantum constructs is a cha...
© The Author(s) 2019. We formalize the theory of quantum Hoare logic (QHL) [TOPLAS 33(6),19], an ext...
We present a variant of the quantum relational Hoare logic from (Unruh, POPL 2019) that allows us to...
We investigate the formal semantics of a simple imperative language that has both classical and quan...
Quantum Hoare Logic (QHL) was introduced in Ying's work to specify and reason about quantum programs...
© 2018, British Computer Society. This paper summarises the results obtained by the author and his c...
We apply the notion of quantum predicate proposed by D'Hondt and Panangaden to analyze a simple lang...
Classical and quantum parallelism are deeply different, although it is sometimes claimed that quantu...
AbstractWe apply the notion of quantum predicate proposed by D’Hondt and Panangaden to analyze a sim...
In the first chapter we introduce new forms of quantum logic suggested by quantum computation, calle...
We present a logical calculus for reasoning about information flow in quan-tum programs. In particul...
Several domains [S. Abramsky. A Cook's tour of a simple quantum programming language. 3rd Inter...