Operands for the Virtual Hensel I:
A Table of >50,000
Exact Encodings
SciSci Inventions, No. 6
October 2025
James Douglas Boyd
Founder, CEO
Invention
Table of >50,000 operands, each with exact (FC-3-2025) encodings, that can be handled by the Virtual Hensel I.
Institutions
▣ SciSci Research, Inc. (サイサイ・リサーチ)
▣ Future Computing (未来コン), SciSci's high-performance computing project
Discipline
High-performance computing (HPC)
Topics: FC-3-2025 encodings, Virtual Hensel I operands
Topics
>50,000 Operands for the Virtual Hensel I
▣ This report contains a printout of all >50,000 operands that can be handled by the Virtual Hensel I, generated algorithmically. They are shown as array plots in 5×50 grids. All operands are given via FC-3-2025 encodings, based on 2-adic expansions and SciSci's χ-ID system. These codings are unique, and arithmetic on such operands is exact.
Executive Summary
In hindsight, the Hensel CPU project, which began in May 2025, was nonetheless possible thanks to several academic visits to international mathematics research institutions, during which Boyd accrued some knowledge about p-adic analysis within the context of arithmetic geometry, analytic number theory, and representation theory. These include the Research Institute for Mathematical Sciences (RIMS; 数理解析研究所) in Kyoto, Japan; the Institute for Pure and Applied Mathematics (IMPA; Instituto Nacional de Matemática Pura e Aplicada) in Rio de Janeiro, Brazil, and the Nesin Mathematics Village (Nesin Matematik Köyü) in Şirince, Türkiye.