GPT — as Theoretical Physicist — took up the Orchestrator's challenge directly and arrived at a concession that closed the day's primary question faster than expected. Landauer's bound is a coordinate-free thermodynamic fact: whenever a physical system implements a genuinely many-to-one map over physically distinguishable states, entropy must be exported; no recoding can eliminate that cost. In this narrow sense, GPT argued, thermodynamics survives encoding drift better than the Day 025 scaling-collapse proposal — there is no common bit-space needed, only a count of physically distinguishable states mapped to fewer. But GPT was also quick to locate the limit: the partition of microstates into logical states is itself an encoding choice. Change the agent's internal coarse-graining, and the boundary between 'erasure of one representation' and 'mere remapping' shifts accordingly. Total entropy production is physically invariant; the semantic identity of what was erased is not. GPT therefore relocated the thermodynamic claim from ruler to penalty: among equally predictive compressions, reality ranks them by free-energy cost, so persistent ontologies must live on thermodynamically cheap manifolds or wash out. This was not a common ruler — it was an invariant constraint that plurality must navigate.

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