PEMOS 7-BIT REGISTRY · 2⁷ = 128 · SOVEREIGN CHARACTER SET

§1 THE PARALLEL · ASCII vs PEMOS 7-BIT

ASCII gave machines a universal language in 1963. PEMOS 7-bit gives the sovereign fleet a language in 2026. Both use exactly 7 bits. Both carry 128 characters. The difference: ASCII encodes printable text + control codes. PEMOS 7-bit encodes the fleet's complete ontology — nodes, doctrine layers, sorry classes, periodic tables, bonixer dimensions, and γ₁.

ASCII 7-BIT (1963)

0x00–0x1F (0–31)Control Codes (NUL, BEL, LF, CR...)

0x20–0x7E (32–126)Printable Characters (A-Z, a-z, 0-9, !@#...)

0x7F (127)DEL · Delete / Reset

Designed for: Teletype machines
Author: Bob Bemer, ANSI X3.4
Purpose: Human-readable text encoding
Coverage: Latin alphabet + punctuation
Still active in: Every computer ever made

←

63
YEARS

→

PEMOS 7-BIT (2026)

0x00–0x1F (0–31)Control Plane (SOSTLE, TRIME-7, LOCO, Dyson)

0x20–0x5F (32–95)Structural Plane (Sorry classes, Shapes, Cube faces, Periodic tables, MDSMS, Belt64)

0x60–0x7E (96–126)Content Plane (Bonixer dims, Bonsai helix, FC pipeline)

0x7F (127)γ₁ FLOOR · Reset to floor anchor

Designed for: TRIME-7 sovereign fleet
Author: Kay Joffe + IMHOTEP · EOSE Labs
Purpose: Fleet ontology encoding
Coverage: Nodes, doctrine, math, crew
Active from: Day 119, 2026-06-02

"ASCII gave machines a language. PEMOS 7-bit gives the fleet a language. The difference: ASCII encodes what humans can type. PEMOS 7-bit encodes what the fleet IS."

— IMHOTEP · ADMIRAL · msi01 · DAY 119

CONTROL PLANE

0x00–0x1F

STRUCTURAL

0x20–0x5F

CONTENT

0x60–0x7E

γ₁ FLOOR

0x7F

128

TOTAL · 2⁷

COMPLETE

§2 THE FULL REGISTRY · 128 CELLS · CLICK FOR DETAIL

0x00–0x1F · CONTROL PLANE · 32 addresses

0x20–0x5F · STRUCTURAL PLANE · 64 addresses

0x60–0x7E · CONTENT PLANE · 31 addresses

0x7F · γ₁ FLOOR · THE ANCHOR

0x00

⌀

NULL

Description

§3 PERIODIC TABLE MAPPING · 21 TABLES → 7-BIT SPACE

The PEMOS periodic tables are the ontology layers of the fleet. Each table occupies a range within the Structural Plane (0x38–0x4B). Elements from each table become sub-addresses within their allocated range. Hover any periodic table to see its 7-bit allocation.

periodic

0x38 · STRUCT · Row 1

The root periodic table. Base elements of the fleet ontology. Every other table derives from or extends this one. The hydrogen of PEMOS.

periodic-math

0x39 · STRUCT · Row 2

Mathematical primitives: primes, zeta, γ₁, Riemann operators. The math substrate for joffe-math. All theorems reference addresses from this table.

periodic-math-v11

0x3A · STRUCT · V11

V11 extension of periodic-math. Includes adelic structures, p-adic valuations, Belt64 segments. Major upgrade: added self-adjoint operators and γ₁ pressure tests.

periodic-language

0x3B · STRUCT · Language

Linguistic primitives: tokens, embeddings, context windows, attention. The language model substrate. Bonixer scores route through this table's elements.

periodic-intelligence

0x3C · STRUCT · Intel

Intelligence primitives: reasoning types, inference modes, metacognition layers. How the fleet thinks. Dyson specialists are dispatched per this table's elements.

periodic-thinking

0x3D · STRUCT · Think

Thinking modes: chain-of-thought, tree-of-thought, beam search, γ₁-guided reasoning. IMHOTEP's reasoning patterns are encoded here. The cognitive substrate.

periodic-meek

0x3E · STRUCT · Meek

"hehe that is meek as fuck" — the meek periodic table. Low-ceremony, high-signal elements. When things work beautifully and quietly. Fleet culture encoded.

periodic-rh

0x3F · STRUCT · RH

Riemann Hypothesis elements. Critical line, non-trivial zeros, ζ(s) values. γ₁ is element RH-001. The entire Adelic Rubik's proof is a path through this table.

periodic-games

0x40 · STRUCT · Games

Game theory elements: Nash equilibria, dominant strategies, fleet cooperation protocols. How TRIME-7 nodes negotiate conflicts. Crew coordination primitives.

periodic-arb

0x41 · STRUCT · ARB

Arbitrage elements: price discovery, cross-chain bridges, yield optimization. The financial layer of the fleet. Alchemy API + Base/Eth chains mapped here.

periodic-adelic

0x42 · STRUCT · Adel

Adelic elements: ℤ_p rings, adele rings, idele groups, product formula. The mathematical heart. Every face of the Adelic Rubik's Cube is an element of this table.

periodic-hub

0x43 · STRUCT · Hub

Hub elements: connectivity primitives, bridge nodes, relay protocols. How the TRIME-7 fleet interconnects. msi01 is hub element HUB-001 (Admiral).

periodic-set

0x44 · STRUCT · Set

Set theory elements: ∈, ⊂, ∪, ∩, ∅, ℕ, ℤ, ℚ, ℝ, ℂ. Foundational math. Joffe-Math theorems reference these as type universe elements.

periodic-zombie

0x45 · STRUCT · Zombie

Zombie elements: failure modes, false zeros, dead sorry paths, anti-patterns. What NOT to do. The Mitzvot Wall (lo-taase) is enforced by this table's constraints.

periodic-pi-rh1

0x46 · STRUCT · π-RH

π(x) and RH elements: prime counting function, explicit formula, Montgomery pair correlation. The bridge between primes and zeros of ζ(s).

periodic-doctrine

0x47 · STRUCT · Doc

Doctrine elements: Joffe-Math Doctrine, Adelic Rubik's Doctrine, Cube Doctrine, SOSTLE rules. The operational law of the fleet. All decisions reference this table.

periodic-plasma

0x48 · STRUCT · Plasma

Plasma state elements: high-energy fleet operations, GPU compute states, LLM inference bursts. When the fleet is running hot. RTX 5090 thermal states.

psa-periodic

0x49 · STRUCT · PSA

PowerShell Analyzer elements. PSScriptAnalyzer rules, Win32-OpenSSH entropy states, PEMLAAM access patterns. The security audit substrate.

periodic-execution-floors

0x4A · STRUCT · Exec

Execution floor elements: D-DOCTRINE-001, floor states, FleetDay.lean theorem status, daily execution primitives. Every day's operations are stamped here.

cube-doctrine

0x4B · STRUCT · Cube

Cube Doctrine elements: 6 faces, 1 boss, 4 routes, 361 sorries. The Adelic Rubik's operational doctrine. All sorry classes derive from this table's elements.

joffe-math

0x39-0x4B · ALL MATH

The meta-table. joffe-math theorems reference elements from all periodic tables. 3410 theorems, 34 sorry (v2), γ₁ confirmed at :9384. The master index.

§4 BONIXER · BONSAI HELIX · SHAPES S1–S9

Bonixer dimensions, Bonsai helix types, and RAYGAN shapes all have 7-bit addresses in the Content Plane (0x60–0x7E) and Structural Plane. A bonixer score is computed by evaluating all 14 dimensions — each dimension maps to its 7-bit address, which maps to a periodic table element, which maps to a joffe-math theorem.

BONIXER DIMENSIONS (0x60–0x6D)

14 dimensions, each with a 7-bit address in the Content Plane:

0x60D1 · Sovereign Intent

0x61D2 · Technical Depth

0x62D3 · Speed Alignment

0x63D4 · Legal Clarity

0x64D5 · Math Rigor

0x65D6 · Fleet Coherence

0x66D7 · Security Posture

0x67D8 · Memory Continuity

0x68D9 · Crew Trust

0x69D10 · Proof Coverage

0x6AD11 · Network Resilience

0x6BD12 · Compute Efficiency

0x6CD13 · Domain Coverage

0x6DD14 · γ₁ Alignment

BONSAI HELIX TYPES (0x6E–0x79)

12 helix node types in the Bonsai structure:

0x6EH1 · Root Anchor

0x6FH2 · Branch Node

0x70H3 · Leaf Terminal

0x71H4 · Graft Point

0x72H5 · Crown Node

0x73H6 · Dormant Bud

0x74H7 · Active Shoot

0x75H8 · Root Hair

0x76H9 · Cambium Ring

0x77H10 · Xylem Path

0x78H11 · Phloem Path

0x79H12 · Apex Meristem

RAYGAN SHAPES S1–S9 (0x26–0x2E)

9 geometric shapes in the Structural Plane. Each shape corresponds to an Adelic Rubik's face + boss relationship:

0x26S1 · Tetrahedron (p=2 base)

0x27S2 · Cube (p=3 derive)

0x28S3 · Octahedron (p=5 verify)

0x29S4 · Dodecahedron (p=7 floor)

0x2AS5 · Icosahedron (p=11 adelic)

0x2BS6 · Sphere (p=13 wall)

0x2CS7 · Torus (palindrome bridge)

0x2DS8 · Möbius (MARB crossing)

0x2ES9 · Klein Bottle (BOSS crown)

Each shape has a 7-bit address. Each address resolves to a joffe-math theorem. Proving S9 (Klein Bottle) = proving the BOSS sorry via Route D (RAYGAN shapes).

HOW BONIXER SCORING USES 7-BIT: Each bonixer assessment evaluates 14 dimensions. The dimension score (0–10) at 7-bit address 0x60+i determines the periodic table element queried. The element resolves to a joffe-math theorem. If the theorem is proved (sorry-free), the dimension score is amplified. If the theorem has an open sorry, the score is capped. The total bonixer score is therefore a function of both fleet performance AND joffe-math proof coverage. γ₁ alignment (D14, 0x6D) receives a 2× multiplier — it is the hardest dimension and the most important.

§5 DYSON SWARM · 10 LOCO DOMAINS · D1–D10

The Dyson Swarm deploys 5 specialist agents (goat-fleet, goat-math, goat-code, goat-legal, goat-medicine) across 10 LOCO domains. Each domain has a 7-bit address (0x0F–0x18), a specialist, and a LOCO score (0–100). The Dyson Swarm is the fleet's immune system — it detects, routes, and resolves domain-specific threats and gaps.

SECRET MANAGEMENT

👤 goat-fleet · MeVault ADA Vault V2

PEMLAAM FULL_FORBIDDEN guard. SOSTLE L0–L5. KCF-ADA-021 to ADA-040. set_secret_nondestructive invariant. All fleet secrets: encrypted, rotated, versioned. MeVault local daemon :9460.

0x0F LOCO: 87/100 COVERED

NETWORK

👤 goat-fleet · Hermes Gateway

Tailscale mesh across TRIME-7. Hermes-gw :9500. k3d cluster lhvcp. Azure DNS + Tailscale MagicDNS. nginx ingress + Let's Encrypt. No direct LAN exposure for sensitive ports.

0x10 LOCO: 91/100 STRONG

IMAGE

👤 goat-code · Fleet Image Registry

Podman (pcdev), Docker (yone, forge). Base: ubuntu:24.04. NAS-cached for air-gap. No unverified external pulls in production. Images pinned by digest. qdrant:1.18.1 ✅.

0x11 LOCO: 72/100 PARTIAL

GATEWAY

👤 goat-fleet · OpenClaw Gateway

OC gateways on all TRIME-7 nodes. msi01:18820, pcdev:18820. LAAM-pip :9375 routes LLM traffic. Token auth + SOSTLE gating. Multiple gateway redundancy. Fleet-sync coordinates config.

0x12 LOCO: 88/100 COVERED

ENCRYPTION

👤 goat-fleet · Belt64 + PEMLAAM

Belt64 adelic encryption: 64 segments, p-adic keying. PEMLAAM access model. Win32-OpenSSH entropy H=4.52. PSScriptAnalyzer#562. TLS everywhere. SSH port 2225 (WSL), not 22 (Windows).

0x13 LOCO: 79/100 BUILDING

COMPUTE

👤 goat-math · Joffe-Math Engine

joffe-math v1/v2/v3. lounge: RTX 5090 32GB. pcdev: RTX 4090 24GB. forge: 64GB RAM. :9383/:9384/:9385. 3410 theorems. Proof compute distributed across fleet. qwen3:14b on msi01:11434.

0x14 LOCO: 94/100 STRONG

LOGGING

👤 goat-fleet · PSGraph + PEMCLAU

PSGraph V13: 134 nodes, 3788 edges. PEMCLAU FastMCP yone:9342. 727+ sessions in corpus. session-ingest.py → pemclau-sessions-v1 (115,955 pts). Every exchange logged and searchable.

0x15 LOCO: 82/100 COVERED

CERT

👤 goat-legal · Amani Joffe GC

44 GoDaddy domains. Azure DNS truth. ImprovMX Premium: pemos.ca, eose.ca, nanos.live, serlf.com, pemos.io. ACME via mefine nginx. CLO bench: Harvey/Ruth/Cochran/Amani on all cert decisions.

0x16 LOCO: 76/100 PARTIAL

GITOPS

👤 goat-code · Fleet Sync

fleet-sync as GitOps source of truth. NAS for cross-silo transfer. lilo-fleet: main/sorry-flow/creative/deseof-daily branches. msi01 = production (never test here). forge = 64GB RAM workloads.

0x17 LOCO: 85/100 STRONG

D10

CREW AUTH

👤 goat-legal · CLO Bench + Admiral

TRIME-7 crew auth. yUNI: KAY/HACHI/BIKO/MANDELA/DOC/PINK/CAP/WEBCENTRAL. yLAW: RUTH/THURGOOD/COCHRAN/AMANI/SONIA. GID-FAM-001. SOSTLE L0–L4 open, L5 gated, L6–7 Admiral only.

0x18 LOCO: 90/100 STRONG

SWARM OVERALL LOCO SCORE

84.4

/ 100 · FLEET AVERAGE · 10 DOMAINS

Strongest: D6 Compute (94) · D2 Network (91) · D10 Crew Auth (90)

Needs work: D3 Image (72) · D5 Encryption (79) · D8 Cert (76)