Gardado en:
| Main Authors: | , |
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| Formato: | Recurso digital |
| Idioma: | inglés |
| Publicado: |
Zenodo
2026
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| Subjects: | |
| Acceso en liña: | https://doi.org/10.5281/zenodo.20097936 |
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Table of Contents:
- <p class="isSelectedEnd">This publication establishes the execution and runtime systems layer of Recoverability Science.</p> <p class="isSelectedEnd">The framework defines operational execution conditions governing admissible computational, infrastructural, autonomous, and physical system execution under irreversibility constraints.</p> <p class="isSelectedEnd">The publication formalizes:</p> <ul> <li>recoverability-governed execution</li> <li>runtime admissibility</li> <li>boundary-triggered halt systems</li> <li>recoverability-gated actuation</li> <li>execution containment</li> <li>execution kernels</li> <li>preservation-governed runtime control</li> <li>recursive execution admissibility</li> <li>boundary detection systems</li> <li>execution-state verification</li> <li>propagation-aware execution control</li> <li>non-admissible continuation prevention</li> </ul> <p class="isSelectedEnd">across computational, biological, infrastructural, industrial, autonomous, and hybrid systems.</p> <p class="isSelectedEnd">The foundational execution invariant is:</p> <pre><code>execution permitted iff recoverability remains executable in time under real conditions</code></pre> <p class="isSelectedEnd">Where recoverability cannot be established:</p> <pre><code>continuation = NON_ADMISSIBLE</code></pre> <p>This publication establishes the execution and runtime systems layer of Recoverability Science within the broader Recoverability-Constrained Systems corpus.</p>