b104ccbbc6
Bumps [github/codeql-action](https://github.com/github/codeql-action) from 3 to 4. - [Release notes](https://github.com/github/codeql-action/releases) - [Changelog](https://github.com/github/codeql-action/blob/main/CHANGELOG.md) - [Commits](https://github.com/github/codeql-action/compare/v3...v4) --- updated-dependencies: - dependency-name: github/codeql-action dependency-version: '4' dependency-type: direct:production update-type: version-update:semver-major ... Signed-off-by: dependabot[bot] <support@github.com>
⚗️ Research Repository
This is an experimental/research repository. Code here is exploratory and not production-ready. For production systems, see BlackRoad-OS.
Quantum Math Lab
Quantum Math Lab pairs a lightweight quantum circuit simulator with concise summaries of landmark unsolved problems in mathematics. The project is designed for experimentation and self-study: you can build and inspect quantum states in pure Python while browsing short descriptions of famous conjectures.
Features
- State-vector simulator implemented in
quantum_simulator.pywith Hadamard, Pauli-X and controlled-NOT gates, custom unitaries and measurement utilities. - Problem compendium in
problems.mdcovering ten influential open problems such as the Riemann Hypothesis, P vs NP and the Navier–Stokes regularity question. - Automated tests demonstrating the simulator’s behaviour, built with
pytest.
Getting started
-
Install dependencies
python -m venv .venv source .venv/bin/activate pip install -r requirements.txt # see below if the file is absentIf a
requirements.txtfile is not present, simply install NumPy and pytest:pip install numpy pytest -
Experiment with the simulator
from quantum_simulator import QuantumCircuit circuit = QuantumCircuit(2) circuit.hadamard(0) circuit.cnot(0, 1) print(circuit.probabilities()) # {'00': 0.5, '11': 0.5} result = circuit.measure(rng=np.random.default_rng()) print(result.counts) -
Review the unsolved problems by opening
problems.mdfor high-level summaries and references.
Running the tests
Use pytest to execute the simulator tests:
pytest
The test suite verifies single-qubit gates, entanglement via the controlled-NOT operation and measurement statistics.
Disclaimer
This project does not attempt to solve the problems listed in problems.md and
is not a substitute for full-featured quantum computing frameworks such as
Qiskit or Cirq. It is an
educational sandbox for experimenting with qubit states and learning about open
questions in mathematics.
📜 License & Copyright
Copyright © 2026 BlackRoad OS, Inc. All Rights Reserved.
CEO: Alexa Amundson | PROPRIETARY AND CONFIDENTIAL
This software is NOT for commercial resale. Testing purposes only.
🏢 Enterprise Scale:
- 30,000 AI Agents
- 30,000 Human Employees
- CEO: Alexa Amundson
Contact: blackroad.systems@gmail.com
See LICENSE for complete terms.