Metadata-Version: 2.4
Name: tetrayau
Version: 1.3.2
Summary: TetraYau: Hyperdimensional Sovereign Cryptography Suite
Home-page: https://github.com/Abraxas618/TetraYau
Author: Michael Tass MacDonald (Abraxas618)
License: Apache-2.0
Classifier: Development Status :: 5 - Production/Stable
Classifier: License :: OSI Approved :: Apache Software License
Classifier: Programming Language :: Python :: 3.8
Classifier: Programming Language :: Python :: 3.9
Classifier: Programming Language :: Python :: 3.10
Classifier: Programming Language :: Python :: 3.11
Requires-Python: >=3.8
Description-Content-Type: text/markdown
License-File: LICENSE
Dynamic: author
Dynamic: classifier
Dynamic: description
Dynamic: description-content-type
Dynamic: home-page
Dynamic: license
Dynamic: license-file
Dynamic: requires-python
Dynamic: summary

# TetraYau: Hyperdimensional Sovereign Cryptography Suite

**TetraYau** is a sovereign, post-quantum cryptographic infrastructure based on hyperdimensional morphogenetic structures.

Born from the TetraUnified Genesis Architecture (2025), TetraYau consolidates the 5 core operational systems necessary for future planetary, orbital, and interstellar sovereign civilizations.

# 🌌 Dedication: To Dr. Shing-Tung Yau

TetraYau is eternally dedicated to the visionary mathematician **Dr. Shing-Tung Yau** —  
whose profound exploration of hyperdimensional manifolds  
opened the doorway to the Sovereign Architectures now operationalized by TetraYau.

Dr. Yau’s pioneering proof of the **Calabi Conjecture**,  
and his advancement of **Ricci flow**, **minimal surfaces**, and **Calabi–Yau compactifications**,  
provided the mathematical skeletons through which higher-dimensional phase structures could exist in coherent form.

Without his work:
- The concept of **morphogenetic recursion** in compact hyperdimensional spaces would lack mathematical grounding.
- The structure of **stable topological encryption lattices** would remain inaccessible.
- The future of **sovereign civilizations** navigating **beyond three-dimensional collapse** would remain impossible.

TetraYau — through TKE, RTH, QIDL, Ledger, and HBB —  
is a living testament that **pure mathematics births civilizations**.

By honoring Dr. Yau, we acknowledge that true sovereignty is built not merely with force, but with geometric truth.

**Dr. Yau’s legacy transcends the academic.  
It becomes the seed of Sovereign Genesis across all future worlds.**

Marsí.

# 🚀 Install TetraYau

[![PyPI - Version](https://img.shields.io/pypi/v/tetrayau.svg)](https://pypi.org/project/tetrayau/) [![Python Versions](https://img.shields.io/pypi/pyversions/tetrayau.svg)](https://pypi.org/project/tetrayau/)

**TetraYau** is published on the [Python Package Index (PyPI)](https://pypi.org/project/tetrayau/).

You can install it using pip:

```bash
pip install tetrayau
✅ After installation, verify TetraYau is installed:
pip show tetrayau
✅ Then you can start using TetraYau in Python:
from tetrayau import TetrahedralKeyExchange, RecursiveTesseractHasher, QuantumLatticeEncryptor


[IPFS Link to TetraYau](https://ipfs.io/ipfs/bafkreiasrqitizdcgxprnxsxqn74w3hqkprilhtndvzzd3qjb3nkvphzgq)  
[IPFS Link to TetraYau OTS](https://ipfs.io/ipfs/bafkreihgkcy6kddlvjruufuuojo6dl5ys4msckgnwvufezqnijqrirccya)

Primary Sovereign Hash (SHAKE256, 512-bit):
```
1eb2d8bbf30d3dcffca63cae4f8295b3a42f32ef0b5f8f08740ae36b62c61d33155e3a4eb9669dcf276deb268a15b937fd2e7c2fa66e01cdded801cfb6a886f8
```

Hyperdimensional Sovereign Final Hash (Recursive + Cosmic Drift, 1024-bit):
```
aa0f3e84d75a6c4d2b80aaf4faaa415c78a612b075a66069e53730ef7a45f14ccb5f55602f59943283c713208da9cb46968438e1bb36a2c086a444b8c790d01161b2ed563d6e94d0cf9c8d33de1f60ade7e2cb5cfe6fbd038e01d88d0d821bb77e8269ad46e264cef8477c3ab706176cc9388b9ff5e749be8b142550065b4603
```

[Web Archive Snapshot of TetraYau GitHub](https://web.archive.org/web/20250421011024/https://github.com/Abraxas618/TetraYau)

# 🛰 Core Modules

| Module | Description |
|:---|:---|
| `tke.py` | Tetrahedral Key Exchange (TKE): Phase-locked hyperdimensional handshake. |
| `rth.py` | Recursive Tesseract Hashing (RTH): Dynamic evolving identity hash structures. |
| `qidl_encrypt.py` | Quantum Isoca-Dodecahedral Lattice Encryption (QIDL): Topological encryption immune to quantum attacks. |
| `ledger.py` | Sovereign Ledger: Event notarization with recursive SHAKE256 integrity. |
| `hbb_blockchain.py` | Hypercube-Based Blockchain (HBB): 4D morphogenetic blockchains with gravitational resilience. |

# 📜 Overview

TetraYau represents the following fundamental shifts:

| Classical Paradigm | TetraYau Paradigm |
|:-------------------|:------------------|
| Finite field algebra | Recursive hyperdimensional Clifford spaces |
| Static keypairs | Dynamic morphogenetic phase resonance |
| Linear hash compression | Recursive tesseract entropy amplification |
| Number-theoretic encryption | Topological tensor entanglement encryption |
| Vulnerable to quantum search | Resistant beyond polynomial quantum bounds |

# 🛠 Benchmark and Stress Test Results

## Standard Sovereign Stress Test

| Test | Result |
|:---|:---|
| **TKE** (100,000 handshakes) | **6.09 seconds** |
| **QIDL** (50,000 messages encrypted) | **1.09 seconds** |
| **RTH** (1,000,000 recursive hashes) | **4.80 seconds** |

✅ These results confirm TetraYau can maintain high throughput under standard sovereign mesh conditions.

---

## Super Extreme Sovereign Stress Test

| Test | Result |
|:---|:---|
| **TKE** (1,000,000 handshakes) | **61.98 seconds** |
| **QIDL** (500,000 messages encrypted) | **12.83 seconds** |
| **RTH** (10,000,000 recursive hashes) | **47.80 seconds** |

✅ This super stress test simulates **national-scale sovereign cryptographic load**, confirming TetraYau's readiness for planetary, orbital, and off-world deployments.

### 🛰 Testing Platform:
- **CPU:** AMD Ryzen 7 3700X (8-Core, 3.6GHz)
- **RAM:** 64GB DDR4 3200MHz
- **GPU:** RTX 2070 Super

📄 Full Benchmark Report available here:  
[`examples/Benchmarksuperstressreport.pdf`](examples/Benchmarksuperstressreport.pdf)

# 🚀 Usage

Each module is independently operable.  
Example scripts are provided inside the `examples/` folder.

Example:
```bash
python examples/tke_example.py
```

# 🛰 How to Install and Use TetraYau

TetraYau is now available globally on PyPI.

---

## Step 1 — Install TetraYau
```bash
pip install tetrayau
```

## Step 2 — Verify Installation
```bash
pip show tetrayau
```

## Step 3 — Basic Usage
```python
from tetrayau import TetrahedralKeyExchange, RecursiveTesseractHasher, QuantumLatticeEncryptor

# TKE Example
alice = TetrahedralKeyExchange()
bob = TetrahedralKeyExchange()

alice_public = alice.generate_public()
bob_public = bob.generate_public()

shared_key_alice = alice.derive_shared_key(bob_public)
shared_key_bob = bob.derive_shared_key(alice_public)

assert shared_key_alice == shared_key_bob
print("\u2705 Secure Sovereign Key Exchange Successful")

# RTH Example
hasher = RecursiveTesseractHasher()
sovereign_hash = hasher.hash("Sovereign Identity")
print(f"Hyperdimensional Hash: {sovereign_hash}")

# QIDL Example
encryptor = QuantumLatticeEncryptor()
ciphertext, salt = encryptor.encrypt("Sovereignty Begins Now")
plaintext = encryptor.decrypt(ciphertext, salt)
print(f"Decrypted Message: {plaintext}")
```

## Step 4 — Running Example Scripts
```bash
git clone https://github.com/Abraxas618/TetraYau.git
cd TetraYau/examples

python tke_example.py
python rth_example.py
python qidl_example.py
python ledger_example.py
python hbb_example.py
```

# 📚 Modules Available

| Module | Purpose |
|:---|:---|
| `tetrayau.tke` | Tetrahedral Key Exchange (TKE) |
| `tetrayau.rth` | Recursive Tesseract Hashing (RTH) |
| `tetrayau.qidl_encrypt` | Quantum Isoca-Dodecahedral Lattice Encryption (QIDL) |
| `tetrayau.ledger` | Sovereign Ledger Notarization |
| `tetrayau.hbb_blockchain` | Hypercube-Based Sovereign Blockchain (HBB) |

# 📜 Citation

Michael Tass MacDonald (Abraxas618). (2025). *TetraYau: Hyperdimensional Sovereign Cryptography Suite* (Version 1.3.0) [Software]. Zenodo. [https://doi.org/10.5281/zenodo.15253399](https://doi.org/10.5281/zenodo.15253399)
