Published July 1, 2026 | Version v2

Hardware-Verifiable Recursive Computational Architecture Derived from the SEXA Unified Field Framework: Computational Correspondence, Recursive Admissibility, and Structured Validation Across a 2880-Dimensional Manifold | SEXA Mathematical Sciences Pacific LLC © | ANY KNOWN OBJECT Advanced Aerospace & Terraforming LLC ©|

  • 1. SEXA Institute of Technology and Interdomain Galactic Advisors

Description

*Currently Under Conference Peer Review*

7th International Conference on VLSI & Embedded Systems (VLSIE 2026)

August 15 ~ 16, 2026, Melbourne, Australia

This conference preprint presents a hardware-oriented computational formulation derived from the SEXA Unified Field Framework, emphasizing recursive admissibility, computational correspondence, dimensional reduction, and structured validation across a 2880-dimensional recursive manifold. The framework is evaluated through recursive functional consistency, dimensional and unit consistency, computational correspondence, reduction-recovery, and explicit falsifiability criteria. This version has been submitted for conference peer review. Upon publication, the official conference proceedings, DOI, revisions, supplementary materials, software implementations, and datasets will become the version of record.

Files

Hardware-Verifiable Recursive Computational Architecture Derived from the SEXA Unified Field Framework_ Computational Correspondence, Recursive Admissibility, and Structured Validation Across a 2880-Dimensional (4).pdf

Additional details

Software

Repository URL
https://SEXAMATH.com
Development Status
Active