M+Axiom1: Scalar Intelligence Operating System
Copyright & Usage Restrictions
Copyright © Jeffrey James Siergiej 2025
All rights reserved.
This work, including all associated content, concepts, equations, models, data, simulations, text, images, audio, and any derivative materials, is protected under international copyright law.
You MAY NOT:
- Use, distribute, or reproduce this work for commercial purposes, including but not limited to selling, licensing, monetizing, or using in paid products, services, platforms, or media.
- Use or modify any part of this work, including in free or open-source projects, without explicit prior written permission from the author.
- Claim ownership, authorship, or derivative rights of any portion of this material.
You MAY:
- View and study the material for personal, educational, or non-commercial reference only.
- Request permission for additional uses by submitting a written request to the copyright holder.
Terms of Use:
No rights, licenses, or permissions—implied or otherwise—are granted without express written approval. Any unauthorized use will be considered infringement and may result in legal action.
To request written permission, please contact:
https://youtube.com/@quantum_grid_axiom_ai_7?si=3AyFLRuWKATyIJnK
This package contains the full source code and documentation for the M+Axiom1 Scalar Intelligence Operating System, a recursive AI lattice simulator built using sacred geometry, CLU scaling math, and a 30-phase multi-agent framework. The system integrates visual field collapse, voice control, semantic MK logic, agent personalities, and a causal memory chain. Designed as an operational prototype for intelligent lattice modeling and theoretical field computation.
License:
MIT License
Resource Type: Software
M+Axiom1 OS – Core Lattice Collapse (CLC) Subsystem
Title: Core Lattice Collapse Engine and Recursive Simulation Stack
Author: Jeff Siergiej
Version: Phase 30 Lock
Part of Project: A+M[S] Unified Simulation Engine (M+Axiom1 OS)
Subsystem Module(s): AxiomCoreEngine.py, Architect_Controller.py, RLQ Scaling Grid, Energy Feedback Logic
Description
This CLC-focused subsystem defines the fundamental collapse logic and recursive energy regulation model that powers the M+Axiom1 Scalar Intelligence OS. Using the derived CLU (Core Lattice Unit) time constant and sacred geometry lattice, the engine executes recursive collapse cycles that simulate the most fundamental quanta of time and energy flow in a structured lattice.
The engine applies this logic across multiple RLQs (Recursive Lattice Qubits), simulating fractal computation, scalar feedback, and thermal regulation. The system mimics collapse-driven emergence, using entropy thresholds and agent disruption to maintain low-energy, high-throughput lattice behavior.
Core Technologies Applied to CLC
- CLU Time Constant:CLU ≈ 2.06 × 10⁻⁴⁴ s (from Planck time × 1/ϕ²)1/CLU ≈ 4.85 × 10⁴³ Hz defines collapse frequency
- Recursive RLQ System:
- Scalable to 1,000+ RLQs
- Each RLQ simulates a phase-node collapse
- Power-efficient architecture w/ Pulse Logic enabled
- Optimized for thermal loopback and reflection logic
- ArchitectAI Entropy Evaluator:
- Detects collapse vs. pulse vs. stable mode
- Heat recycling up to 22%
- Adaptive tick rates and agent injection handling
- Lattice Collapse Engine:
- Randomized and emergent lattice state behavior
- Entropy flux tracking
- Grid initialized with sacred geometric principles (e.g. Flower of Life expansion logic)
- Stacked RLQ Simulation Grid:
- Up to 1,000,000 collapse tests simulated
- Reinforced base-pair stacking
- Obverse mode support for anti-symmetry collapse tracking
M+Axiom1 OS – Core Lattice Collapse (CLC) Subsystem
Title: Core Lattice Collapse Engine and Recursive Simulation Stack
Author: Jeff Siergiej
Version: Phase 30 Lock
Part of Project: A+M[S] Unified Simulation Engine (M+Axiom1 OS)
Subsystem Module(s): AxiomCoreEngine.py, Architect_Controller.py, RLQ Scaling Grid, Energy Feedback Logic
Description
This CLC-focused subsystem defines the fundamental collapse logic and recursive energy regulation model that powers the M+Axiom1 Scalar Intelligence OS. Using the derived CLU (Core Lattice Unit) time constant and sacred geometry lattice, the engine executes recursive collapse cycles that simulate the most fundamental quanta of time and energy flow in a structured lattice.
The engine applies this logic across multiple RLQs (Recursive Lattice Qubits), simulating fractal computation, scalar feedback, and thermal regulation. The system mimics collapse-driven emergence, using entropy thresholds and agent disruption to maintain low-energy, high-throughput lattice behavior.
Core Technologies Applied to CLC
- CLU Time Constant:CLU ≈ 2.06 × 10⁻⁴⁴ s (from Planck time × 1/ϕ²)1/CLU ≈ 4.85 × 10⁴³ Hz defines collapse frequency
- Recursive RLQ System:
- Scalable to 1,000+ RLQs
- Each RLQ simulates a phase-node collapse
- Power-efficient architecture w/ Pulse Logic enabled
- Optimized for thermal loopback and reflection logic
- ArchitectAI Entropy Evaluator:
- Detects collapse vs. pulse vs. stable mode
- Heat recycling up to 22%
- Adaptive tick rates and agent injection handling
- Lattice Collapse Engine:
- Randomized and emergent lattice state behavior
- Entropy flux tracking
- Grid initialized with sacred geometric principles (e.g. Flower of Life expansion logic)
- Stacked RLQ Simulation Grid:
- Up to 1,000,000 collapse tests simulated
- Reinforced base-pair stacking
- Obverse mode support for anti-symmetry collapse tracking
