We start from two closure operators defined on the elements of a special kind of partially ordered sets, called causal nets. Causal nets are used to model histories of concurrent processes, recording occurrences of local states and of events. If every maximal chain (line) of such a partially ordered set meets every maximal antichain (cut), then the two closure operators coincide, and generate a complete orthomodular lattice. In this paper we recall that, for any closed set in this lattice, every line meets either it or its orthocomplement in the lattice, and show that to any line, a two-valued state on the lattice can be associated. Starting from this result, we delineate a logical language whose formulas are interpreted over closed sets of a causal net, where every line induces an assignment of truth values to formulas. The resulting logic is non-classical; we show that maximal antichains in a causal net are associated to Boolean (hence "classical") substructures of the overall quantum logic.

Bernardinello, L., Ferigato, C., POMELLO CHINAGLIA POMELLO, L. (2014). Between quantum logic and concurrency. ELECTRONIC PROCEEDINGS IN THEORETICAL COMPUTER SCIENCE, 158, 65-75 [10.4204/EPTCS.158.6].

Between quantum logic and concurrency

BERNARDINELLO, LUCA;POMELLO CHINAGLIA POMELLO, LUCIA
2014

Abstract

We start from two closure operators defined on the elements of a special kind of partially ordered sets, called causal nets. Causal nets are used to model histories of concurrent processes, recording occurrences of local states and of events. If every maximal chain (line) of such a partially ordered set meets every maximal antichain (cut), then the two closure operators coincide, and generate a complete orthomodular lattice. In this paper we recall that, for any closed set in this lattice, every line meets either it or its orthocomplement in the lattice, and show that to any line, a two-valued state on the lattice can be associated. Starting from this result, we delineate a logical language whose formulas are interpreted over closed sets of a causal net, where every line induces an assignment of truth values to formulas. The resulting logic is non-classical; we show that maximal antichains in a causal net are associated to Boolean (hence "classical") substructures of the overall quantum logic.
Articolo in rivista - Articolo scientifico
Quantum logic, closure operator, concurrency.
English
2014
158
65
75
6
none
Bernardinello, L., Ferigato, C., POMELLO CHINAGLIA POMELLO, L. (2014). Between quantum logic and concurrency. ELECTRONIC PROCEEDINGS IN THEORETICAL COMPUTER SCIENCE, 158, 65-75 [10.4204/EPTCS.158.6].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/53088
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