fix: import the compact and consensus foundation on the observers wrapper (issue #42)

paper/observers_are_all_you_need.tex

@@ -144,7 +144,9 @@
 \OPHPaperReleaseBanner
 
 \begin{abstract}
-Observer-Patch Holography starts from a simple question: if every observer sees only part of the world, what kind of physics follows from partial descriptions that agree where they overlap? This paper gathers that picture in one place. It starts from a concrete microscopic observer architecture with stable records, Born-rule measurements, Bell correlations, no-signaling, and repair rules whose physical outcome does not depend on update order. Under the stated continuum assumptions, the same overlap structure yields Lorentzian spacetime and Einstein gravity. On the particle side it recovers the Standard Model gauge group and charge pattern, the massless photon, gluons, and graviton, the electroweak boson masses, the Thomson-limit fine-structure constant, a precise Higgs mass, a precise running quark spectrum with explicit Yukawas, and a neutrino family in the observed hierarchy and mixing regime. One local pixel input ties those quantitative branches together. A self-similar balance theorem puts the golden ratio at the equilibrium reference point for that calibration structure, while the exact numerical value of the input is still fixed by calibration. Charged-lepton absolute masses and the hadron spectrum remain open.
+This paper is a synthesis surface. Recovered-core theorem status and claim tier inherit from Ref.~\cite{ophcompact}, while lane-specific claim tier remains with Refs.~\cite{ophconsensus,ophmicrophysics,ophparticles}. On this wrapper surface, the imported fixed-cutoff consensus package from Ref.~\cite{ophconsensus} consists of asynchronous confluence for the declared recovery-derived repair law, the cycle-obstruction / higher-gauge defect hierarchy, gauge-quotient descent, observable-level confluence on the declared physical observable algebras, and the record-algebra theorem, with repair completeness and the stated Petz support/CPTP clause remaining explicit burdens where used. The imported recovered-core branch from Ref.~\cite{ophcompact} consists of the conditional Lorentz/null-modular/Einstein chain and the compact-gauge / realized-Standard-Model branch on their stated premises: D3 carries \textbf{T2} together with geometric cap-pair extraction and ordered cut-pair rigidity, D4 carries the inherited-strip and exact-or-controlled Markov hypotheses together with the same-half-line local modular-Hamiltonian input and the separate bounded-interval projective branch, D5 adds fixed-cap stationarity, the locally Lorentzian \(d=4\) scaling regime, and the tensor-upgrade side conditions, and the gauge branch keeps the transportable-sector premise \textbf{T6}, the symmetric-braiding premise \textbf{T4}, the fiber-functor premise \textbf{T5} (or the explicit super-Tannakian fork), the ordinary-route loop-coherence condition \textbf{T1} where invoked, and MAR explicit. The present paper organizes those imported packages across lanes and does not recreate or upgrade them here.
+
+Observer-Patch Holography starts from local observer descriptions that must agree on overlaps. The role of the present paper is to map the OPH suite on one synthesis surface and to keep explicit which outputs are fixed-cutoff theorems, which are conditional branches, and which remain calibration or continuation material.
 \end{abstract}
 
 \tableofcontents
@@ -253,6 +255,8 @@ \subsection*{Companion Papers}
 \item \emph{Reality as a Consensus Protocol: The Fixed-Point Computation That Implements Physics}~\cite{ophconsensus}, which carries the finite patch-net fixed-point, defect, quotient, and operator-record consensus package.
 \item \emph{Screen Microphysics, Patches, and Observer Synchronization in OPH}~\cite{ophmicrophysics}, which carries the regulated reference architecture, the fixed-cutoff edge heat-kernel / Casimir theorem, and the measurement and observer checkpoint/restoration packages.
 \item \emph{Deriving the Particle Zoo from Observer Consistency}~\cite{ophparticles}, which carries the structural-to-family particle route and the per-sector claim-tier ledger.
+Sections~1--4 should therefore be read as synthesis-level routing into those imported packages; the explicit burden split repeated below is inherited from Refs.~\cite{ophcompact,ophconsensus} and is not promoted by this wrapper.
+
 \end{enumerate}
 
 \def\OPHSkipEmbeddedReferences{1}