The amount of dark matter in the universe isn't some random accident—it’s actually a math requirement based on how information works.
April 10, 2026
Original Paper
Mass Energy Information Equivalence III IV The Dark-to-Baryonic Ratio, Cosmic Void Density, and the Hubble Tension from the FCC Lattice Code
SSRN · 6551581
The Takeaway
This theory suggests that the fundamental makeup of our universe is "coded" like a computer program. By looking at the geometry of how information is processed, researchers derived the exact ratio of dark matter to normal matter, implying the cosmos is built on a rigid mathematical blueprint rather than random chance.
From the abstract
Parts I and II of the Mass Energy Information (M/E/I) framework [1, 2] derived particle mass ratios and nuclear binding energies from the fault-tolerant veri cation cost of topological defects in a [[192,130,3]] CSS code on the FCC lattice [3]. This paper extends the framework to cosmological scales. The 13-node FCC coordination cluster (cuboctahedron) has f-vector (V,E,F) = (13,36,38), where the 38 faces divide into two geometrically distinct sectors: 32 triangular faces forming the con ned (no