The paper now contains a formal, dated prediction statement in Section 16.3 with: - 8 predicted sky positions with full J2000 coordinates (RA, Dec, l, b) - Search radii for each region (10-11 degrees) - An explicit verification protocol (cross-reference against Veron-Cetty, eROSITA, or Milliquas catalogs) - Control method (matched galactic latitude, offset 90 degrees in longitude) +We present Unified Toroidal Cosmology (UTC), a theoretical framework built on a single +algebraic object — the Clifford algebra Cl(1,6) — and a single geometric postulate — the Wayman Identity, cosh(delta_CP) = pi/sqrt(3) — which produces 23 falsifiable predictions across seven domains of physics with zero free parameters. The framework derives the fine structure constant to six significant figures (alpha^-1 = 137.0362 vs. measured 137.035999), predicts CMB matched circles detected at 3.5-4.7 sigma across multiple Planck pipelines, reproduces the periodic table with a maximum element Z = 128 = dim(Cl(1,6)), and reinterprets the Higgs mechanism as a thermodynamic consequence of toroidal geometry. New observational analysis demonstrates a statistically significant excess of black holes near UTC-predicted topology circles: at 2-degree tolerance (57% sky coverage), 42/60 BHs fall on circles vs. 34 expected by chance (p = 0.03, Monte Carlo validated with 100,000 trials). The mass-proximity correlations tolerance-independent (Spearman rho = -0.34, p = 0.007), and black hole mass scales as M ~ 10^(1.3g) where g is the topological genus of the horizon (p = 0.037).Supermassive black holes preferentially cluster at axial-helical circle intersection points (p= 0.018), driven by helical circle proximity (rho = -0.39, p = 0.003), yielding five falsifiable predictions for undiscovered SMBH locations.The framework suggests multiverse structure through the 134-dimensional orbital shell potential of the torus lattice. Of 23 predictions, 17 are confirmed or consistent with observation, 1 is in 2-sigma tension, 6 await experimental test, and none have been falsified.