Reversible Computation 16th International Conference, RC 2024, Toruń, Poland, July 4-5, 2024, Proceedings / [electronic resource] :
edited by Torben Ægidius Mogensen, Łukasz Mikulski.
- 1st ed. 2024.
- X, 247 p. 104 illus., 39 illus. in color. online resource.
- Lecture Notes in Computer Science, 14680 1611-3349 ; .
- Lecture Notes in Computer Science, 14680 .
Invited Papers. -- Causal Debugging for Concurrent Systems (Tutorial). -- Compositional Reversible Computation. -- Models of Reversible Computation. -- Algorithmically expressive, always-terminating model for reversible computation. -- A toy model provably featuring an arrow of time without past hypothesis. -- Reversibility with holes. -- Experiments in Reversible Programming. -- Exploring the Energy Overhead of Reversible Programs Executed on Irreversible Hardware. -- Towards Clean Reversible Lossless Compression. A Reversible Programming Experiment with Zip. -- Reversible and Quantum Programming Languages. -- A Small-Step Semantics for Janus. -- Jeopardy: An Invertible Functional Programming Language. -- LinguaQuanta: Towards a Quantum Transpiler Between OpenQASM and Quipper. -- Connecting Reversible and Classical Computing through Hybrid SSA. -- Synthesis, Verification, and Analysis of Reversible and Quantum Systems. -- Concurrent RSSA for CRIL: Flow analysis for a concurrent reversible programming language. -- Is Simulation the Only Alternative for Effective Verification of Dynamic Quantum Circuits?. -- Model Checking Reversible Systems: Forwardly. -- Exact Synthesis of Multiqubit Clifford-Cyclotomic Circuits.
This book constitutes the refereed proceedings of the 16th International Conference on Reversible Computation, RC 2024, held in Toruń, Poland, during July 4-5, 2024. The 10 full papers and 3 short papers included along with two invited papers in this book were carefully reviewed and selected from 18 submissions. They were organized in topical sections as follows: Models of Reversible Computation; Experiments in Reversible Programming; Reversible and Quantum Programming Languages; and Synthesis, Verification, and Analysis of Reversible and Quantum Systems.