x = true
The physics‑level validation of SECS Sovereign — the truth‑conditions, invariants, and computational laws the substrate must satisfy to exist as itself.
Truth‑Condition Execution
SECS Sovereign executes only when all declared truth‑conditions hold. If any invariant is violated, execution collapses deterministically. This ensures the substrate never enters an undefined or probabilistic state.
Determinism Envelope
The substrate guarantees identical outputs for identical governed inputs across all time, load, and topology. This is not statistical determinism — it is exact determinism within the declared resolution of the system.
Collapse Correctness
Divergence is not tolerated. When behaviour deviates from the governed path, the substrate isolates, collapses, and restores invariants. Collapse is a correctness mechanism, not an error state.
Purity Preservation
cannot survive execution. The substrate rejects impurity at the boundary before it can propagate.
Compliance With Computational Laws
SECS Sovereign adheres to foundational computer science laws: deterministic state transitions, referential transparency within governed mode, and invariant‑preserving execution semantics.
Identity‑Free Fairness
Fairness is enforced without identity, tenancy, or routing metadata. The substrate evaluates behaviour, not actors, ensuring deterministic fairness without probabilistic heuristics.
Topology‑Free Execution
Execution is invariant across worker topologies. No noisy neighbours, no scheduler heuristics, no locality bias. Behaviour remains identical regardless of physical layout.
Invariant Timing
Timing envelopes remain stable across load and time. The substrate’s timing behaviour is deterministic, measurable, and validated continuously through the Permatest Beacon.
Non‑Forkability
The substrate cannot be cloned or imitated. Its guarantees emerge from doctrine, invariants, and collapse rules — not configuration. Partial replication is impossible.