Andre Kornell (Tulane University, New Orleans, US) |
Bert Lindenhovius (Johannes Kepler University, Austria) |
Michael Mislove (Tulane University, New Orleans, US) |
We introduce the monoidal closed category qCPO of quantum cpos, whose objects are "quantized" analogs of omega-complete partial orders (cpos). The category qCPO is enriched over the category CPO of cpos, and contains both CPO, and the opposite of the category FdAlg of finite-dimensional von Neumann algebras as monoidal subcategories. We use qCPO to construct a sound model for the quantum programming language Proto-Quipper-M (PQM) extended with term recursion, as well as a sound and computationally adequate model for the Linear/Non-Linear Fixpoint Calculus (LNL-FPC), which is both an extension of the Fixpoint Calculus (FPC) with linear types, and an extension of a circuit-free fragment of PQM that includes recursive types. |
ArXived at: https://dx.doi.org/10.4204/EPTCS.340.9 | bibtex | |
Comments and questions to: eptcs@eptcs.org |
For website issues: webmaster@eptcs.org |