Lume-OS v2 extends the deterministic execution substrate introduced in Lume-OS v1 into a fully distributed, multi-organism runtime capable of coordinating agents, verticals, and physical-digital systems under a unified global timebase. Version 1 established the single-node deterministic kernel: a runtime that guarantees invariant-preserving execution, envelope-bounded behavior, deterministic scheduling, and replayable state transitions. Version 2 generalizes this model to support multi-agent, multi-node, and cross-vertical execution, enabling DAIGS to evolve from a single synthetic organism into a distributed ecosystem of cooperating organisms. The paper presents the v2 architecture in eight canonical blocks: (1) distributed state model with four state categories and a deterministic merge function, (2) deterministic global timebase for cross-node event ordering, (3) multi-node invariants extending single-node guarantees to distributed deployments, (4) distributed envelopes with a four-level hierarchy (node → cluster → vertical → global), (5) cross-node arbitration with deterministic conflict resolution, (6) distributed override with escalation from local to ecosystem-wide, (7) certificate lineage extending trust from single-chain to multi-chain DAG topology, and (8) deterministic replay across nodes enabling bit-identical reconstruction of governance history. Seven fundamental properties are proven: deterministic state convergence, merge commutativity, distributed invariant preservation, envelope inheritance monotonicity, arbitration totality, certificate lineage integrity, and cross-node replay fidelity. The paper further introduces the physical-digital convergence layer, which extends deterministic governance from purely digital systems to cyber-physical environments where sensors produce certificate-verified observations and actuators operate within deterministic envelopes. Lume-OS v2, together with Lume-Ops v2 (the vascular operational mesh) and DAIGS v2 (the governance cognition layer), forms the complete deterministic substrate for planet-scale multi-organism governance. All 23 DAIGS vertical substrates execute on top of Lume-OS v2. Patent Pending — U.S. Pat. App. No. 64/032,339 — "Deterministic Governance Substrate for AI and Operational Systems." Filed April 7, 2026.
Ronald Jason Andrews (Thu,) studied this question.