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Intent-Driven Computing: A Computational Model for Governed Autonomous Systems

Published 21 May 2026 in cs.PL | (2605.24036v1)

Abstract: Programming languages assume programs directly execute effects. When autonomous systems generate behavior dynamically, this assumption becomes problematic: there is no structural mediation point between deciding to act and acting. We define intent-driven computing: a programming model where programs produce intents (finite data values describing proposed actions) rather than directly executing effects. A governed runtime examines each intent against a decidable policy language, records every decision in a tamper-evident ledger, and only then realizes the effect. The language provides no alternative path to effects. The model does not decide arbitrary behavioral properties of programs (which Rice's theorem shows is impossible). Instead, it constrains the language so that all effectful interaction is reified as finite intent values, shifting governance from the undecidable domain of program semantics to the decidable domain of intent data. This yields emergent properties: event sourcing by construction, governance simulation via intent replay, structural audit completeness, and improved human comprehensibility. We specify the model formally, implement it in a concrete language compiling to the BEAM virtual machine, and verify key properties in Rocq (454 theorems, 36 modules, zero admitted lemmas). Property-based testing (70,000+ random inputs, zero disagreements) validates that the implementation matches the specification.

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