Result: Trinity Bridge Architecture: Algorithmic Prime Distribution Through Harmonic Constant Interactions
Title:
Trinity Bridge Architecture: Algorithmic Prime Distribution Through Harmonic Constant Interactions
Authors:
Publisher Information:
OSF, 2025.
Publication Year:
2025
Subject Terms:
parallel processing, bootstrap initialization, FOS: Physical sciences, Trinity Bridge algorithm, scale invariance, computational mathematics, number theory, prime distribution, Needham Spiral Constant, π-digit classification, Number Theory, Physical Sciences and Mathematics, FOS: Mathematics, prime prediction, statistical significance, algorithmic number theory, Quantum Physics, harmonic constants, NSC Stuctural, Physics, Eric Needham, mathematical computation, Atomic, Molecular and Optical Physics, NSC Harmonic, mathematical architecture, Other Mathematics, Analysis, Mathematics
Document Type:
Other literature type
DOI:
10.17605/osf.io/m8ud4
Accession Number:
edsair.doi...........6b705cc1a5d1ed470d834cd9f76031ab
Database:
OpenAIRE
Further Information
Trinity Bridge Architecture reveals algorithmic patterns in prime distribution using π-digit classification. Computational validation across 2,000,000 primes achieves 99.903% predictive accuracy, challenging orthodox assumptions about prime randomness. The parallel processing architecture (139.85% total coverage) suggests primes exist in multiple computational layers simultaneously. Bootstrap harmonic initialization proves critical for system stability. Validation methodology provided under NCND 4.0 License terms. Results indicate fundamental mathematical constants function as computational operators rather than passive descriptors, potentially revolutionizing number theory foundations.