Self-reflecting OS framework with live cosmic-web emergence simulation, Dash GUI, real-time phase transitions, and resonance coupling for GenesisAeon
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genesis-os
Self-reflecting OS framework with live cosmic-web emergence simulation, Dash GUI,
real-time phase transitions, and resonance coupling for GenesisAeon.
Overview
genesis-os v0.4.0 is a unified Python framework implementing the GenesisAeon
architecture: a self-reflecting, entropy-governed, phase-transitioning system
described by the Unified Lagrangian formalism. It integrates CREP
(Coherence-Resonance-Emergence-Poetics) evaluation, a UTAC-Logistic entropy ODE,
live cosmic-web emergence simulation via CosmicWebSimulator, a real-time
Dash web GUI, Mandala visualisation, and sonification.
v0.4.0 completes the unified-mandala Integration across eight phases, bringing canonical CREP, stochastic SDE bridges, AFET/Landauer thermodynamic consistency, FraktalRun exploration, live NATS/Prometheus streaming, and governance via OPA into a single cohesive system.
unified-mandala Integration — Phases A–H
| Phase | Module | Feature |
|---|---|---|
| A | core/crep_engine.py |
Canonical CREP Engine (Γ-weighted, TypeScript bridge) |
| B | core/utac_stoch_bridge.py |
SDE/Stochastic UTAC Bridge (Euler–Maruyama + JAX) |
| C | afet/ |
AFET + Landauer Consistency (thermodynamic KI-energy bounds) |
| D | mirror/ |
Mirror Machine (Tension Metric, DualDetector, 87.2× damping) |
| E | sigillin/ |
Sigillin & Ritual Hooks (symbolic trigger generation) |
| F | runtime/fraktalrun_engine.py |
FraktalRun Engine (fractal phase-space, Lyapunov exponent) |
| G | runtime/nats_publisher.py + monitoring/ |
Live NATS streaming + Prometheus /metrics |
| H | governance/ |
EthicsGate circuit-breaker + OPA Bridge + PersonhoodLevel |
The Unified Lagrangian
L = T - V + Phi(H) + Gamma(C, R, E, P)
where:
T = (1/2) * kappa * R^2— kinetic resonance-coupling energyV = (1/2) * eta * H^2— entropic resistance potentialPhi(H) = phi0 * ln(1 + H)— self-reflection potentialGamma(C,R,E,P) = ((C*R + E*P) / 2) * exp(-(1-C)^2 / (2*sigma_C^2))— CREP coupling term
UTAC-Logistic Entropy Evolution
dH/dt = r * H * (1 - H/K) * tanh(sigma * Gamma)
Self-Reflection Update
Phi_{n+1}(H) = Phi_n(H) * (1 + alpha * grad_H L)
where alpha is the reflection learning rate and grad_H L is
approximated from the L2 norm of the CREP gradient vector.
Installation
# Core package
pip install genesis-os
# Core + live Dash web GUI
pip install "genesis-os[gui]"
# Full stack with all optional packages + GUI
pip install "genesis-os[full-stack,gui]"
# Development mode
pip install "genesis-os[dev]"
Extra Packages
[gui] — Live Dash Web Dashboard
pip install "genesis-os[gui]" installs:
| Package | Version | Purpose |
|---|---|---|
dash |
>=2.14.0 | Reactive web framework |
dash-bootstrap-components |
>=1.5.0 | Bootstrap theming |
plotly |
>=5.15.0 | Interactive charts (CREP radar, H/L/emergence) |
[full-stack] — All Optional Adapters
pip install "genesis-os[full-stack]" installs:
| Package | Version | Purpose |
|---|---|---|
aeon-ai |
>=0.2.0 | PhaseDetector + SelfReflector |
advanced-weighting-systems |
>=0.1.0 | CREP vector weighting |
fieldtheory |
>=0.1.0 | Field-theoretic potentials |
mirror-machine |
>=0.1.0 | Recursive resonance mirroring |
cosmic-web |
>=0.2.0 | Large-scale structure simulation |
sigillin |
>=0.1.0 | Symbolic trigger generation |
entropy-governance |
>=0.1.0 | Policy-based entropy control |
utac-core |
>=0.1.0 | External UTAC implementation |
mandala-visualizer |
>=0.1.0 | Advanced mandala rendering |
sonification |
>=0.1.0 | Audio synthesis output |
climate-dashboard |
>=0.1.0 | Environmental entropy coupling |
implosive-genesis |
>=0.1.0 | Implosive field dynamics |
entropy-table |
>=0.1.0 | Tabular entropy state lookup |
Quick Start
from genesis_os import GenesisOS
from genesis_os.core.orchestrator import GenesisConfig
# Create configuration
config = GenesisConfig(
entropy=0.4,
alpha=0.1, # self-reflection learning rate
max_cycles=50,
transition_threshold=0.6,
seed=42,
)
# Instantiate and run
genesis = GenesisOS(config=config)
final_state = genesis.run()
print(f"Phase: {final_state.phase.value}")
print(f"Entropy: {final_state.entropy:.4f}")
print(f"Phi(H): {final_state.phi:.4f}")
print(f"Lagrangian: {final_state.lagrangian:.4f}")
print(f"Transitions: {len(final_state.transitions)}")
print(f"Emergence Events: {len(final_state.emergence_events)}")
Live Cosmic-Web Emergence Simulation (v0.2.0)
from genesis_os import CosmicWebSimulator, GenesisOS
from genesis_os.core.orchestrator import GenesisConfig
config = GenesisConfig(entropy=0.4, max_cycles=50, seed=42)
genesis = GenesisOS(config=config, emergence_threshold=0.3)
for state in genesis.phase_transition_loop():
summary = state.metadata.get("emergence_summary", {})
if state.emergence_events:
last = state.emergence_events[-1]
print(
f"Cycle {state.cycle}: EmergenceEvent "
f"nodes={last.node_count} rate={last.emergence_rate:.4f} "
f"density={summary.get('mean_density', 0.0):.3f}"
)
Real-Time Dash Web GUI (v0.2.0)
# Install GUI extra
pip install "genesis-os[gui]"
# Launch live dashboard at http://127.0.0.1:8050
genesis-os cycle --entropy 0.4 --max-cycles 200 --gui
# Custom port
genesis-os cycle --gui --gui-port 8080 --max-cycles 500
# Programmatic GUI usage
from genesis_os import GenesisOS
from genesis_os.core.orchestrator import GenesisConfig
from genesis_os.dashboard.web_gui import GenesisWebGUI, GUISnapshot
import threading
config = GenesisConfig(entropy=0.4, max_cycles=200, seed=7)
genesis = GenesisOS(config=config)
gui = GenesisWebGUI(interval_ms=500)
gui.build_app()
# Run GUI in background
t = threading.Thread(target=lambda: gui.run(host="127.0.0.1", port=8050), daemon=True)
t.start()
for state in genesis.phase_transition_loop():
esummary = state.metadata.get("emergence_summary", {})
gui.push_snapshot(GUISnapshot(
cycle=state.cycle,
phase=state.phase.value,
entropy=state.entropy,
phi=state.phi,
lagrangian=state.lagrangian,
gamma=state.crep.gamma if state.crep else 0.0,
mean_density=float(esummary.get("mean_density", 0.0)),
active_nodes=int(esummary.get("active_nodes", 0)),
emergence_events=len(state.emergence_events),
))
Real-Time Loop with Mandala
from genesis_os import GenesisOS
from genesis_os.core.orchestrator import GenesisConfig
from genesis_os.dashboard.mandala import MandalaDashboard
config = GenesisConfig(entropy=0.5, max_cycles=20, seed=7)
genesis = GenesisOS(config=config)
dashboard = MandalaDashboard()
for state in genesis.phase_transition_loop():
if state.crep:
print(dashboard.render_ascii(state.crep, state.phase, state.cycle))
Sonification
from genesis_os import GenesisOS
from genesis_os.core.orchestrator import GenesisConfig
from genesis_os.dashboard.sonification import Sonifier
config = GenesisConfig(max_cycles=10, seed=1)
genesis = GenesisOS(config=config)
sonifier = Sonifier()
for state in genesis.phase_transition_loop():
if state.crep:
frame = sonifier.crep_to_frequencies(state.crep, state.cycle)
print(f"Cycle {state.cycle}: C={frame.frequencies['C']:.1f} Hz")
Canonical CREP + Mandala Bridge (v0.4.0)
from genesis_os import GenesisOS
from genesis_os.core.orchestrator import GenesisConfig
from genesis_os.core.crep_engine import CanonicalCREPEngine
from genesis_os.dashboard.mandala import MandalaDashboard
config = GenesisConfig(entropy=0.5, max_cycles=30, seed=42)
genesis = GenesisOS(config=config)
crep_engine = CanonicalCREPEngine()
mandala = MandalaDashboard()
for state in genesis.phase_transition_loop():
if state.crep:
# Canonical Γ with Gaussian coherence weighting
canonical = crep_engine.evaluate(state.crep)
tension = float(state.metadata.get("tension", 0.0))
print(
f"Cycle {state.cycle:3d} | "
f"Γ_canonical={canonical.gamma:.4f} | "
f"Tension={tension:.3f} | "
f"Phase={state.phase.value}"
)
print(mandala.render_ascii(state.crep, state.phase, state.cycle))
EthicsGate + Tension Circuit-Breaker (v0.4.0)
from genesis_os import GenesisOS
from genesis_os.core.orchestrator import GenesisConfig
# EthicsGate enabled by default; halts cycles when tension > 5.0
config = GenesisConfig(
entropy=0.6,
max_cycles=100,
ethics_gate_enabled=True,
tension_threshold=5.0, # Tension(t) = Γ_Klima · Q_KI / (V_Eis + ε)
min_personhood_level=1, # Require at least REACTIVE level
seed=7,
)
genesis = GenesisOS(config=config)
for state in genesis.phase_transition_loop():
tension = state.metadata.get("tension", 0.0)
print(f"Cycle {state.cycle}: tension={tension:.3f}")
# Loop stops automatically if EthicsGate triggers
CLI
# Run a cycle with real-time output + emergence events
genesis-os cycle --entropy 0.4 --max-cycles 50 --phases
# Headless simulation, JSON output (includes emergence_events + emergence_summary)
genesis-os cycle --simulate --entropy 0.3 --max-cycles 100 --seed 42
# Launch live Dash GUI at http://127.0.0.1:8050
genesis-os cycle --gui --entropy 0.4 --max-cycles 200
# GUI on custom port
genesis-os cycle --gui --gui-port 8080 --max-cycles 500
# With visualisation and sonification (requires [full-stack])
genesis-os cycle --visualize --sonify --max-cycles 20
# List phase information
genesis-os phases
# System info
genesis-os info
CLI Reference
| Option | Default | Description |
|---|---|---|
--entropy FLOAT |
0.5 | Initial entropy H in [0,1] |
--max-cycles INT |
20 | Number of orchestration cycles |
--alpha FLOAT |
0.1 | Self-reflection learning rate alpha |
--seed INT |
None | Random seed for reproducibility |
--phases |
False | Print phase transitions + emergence events |
--simulate |
False | Headless mode, JSON output |
--visualize |
False | Render Mandala dashboard |
--sonify |
False | Generate sonification output |
--gui |
False | Launch live Dash web GUI (requires [gui]) |
--gui-port INT |
8050 | Dash server port |
--gui-host STR |
127.0.0.1 | Dash server host |
Architecture
genesis-os/
├── src/genesis_os/
│ ├── core/
│ │ ├── crep.py # CREPEvaluator, CREPScore
│ │ ├── crep_engine.py # CanonicalCREPEngine (Phase A)
│ │ ├── utac_stoch_bridge.py # SDE/JAX bridge (Phase B)
│ │ ├── phase.py # Phase, PhaseMatrix, PhaseTransition
│ │ └── orchestrator.py # GenesisOS orchestrator
│ ├── afet/ # AFET + Landauer thermodynamics (Phase C)
│ ├── mirror/
│ │ ├── tension_metric.py # Tension(t) = Γ·Q_KI/(V_Eis+ε) (Phase D)
│ │ └── dual_detector.py # Collapse + regeneration detector
│ ├── sigillin/ # Symbolic trigger generation (Phase E)
│ ├── runtime/
│ │ ├── engine.py # RuntimeEngine (Unified Lagrangian)
│ │ ├── utac.py # UTACLogistic ODE
│ │ ├── emergence.py # CosmicWebSimulator
│ │ ├── fraktalrun_engine.py # Fractal phase-space exploration (Phase F)
│ │ └── nats_publisher.py # Async NATS streaming (Phase G)
│ ├── monitoring/
│ │ └── prometheus_exporter.py # /metrics endpoint (Phase G)
│ ├── governance/
│ │ ├── ethics_gate.py # EthicsGate circuit-breaker (Phase H)
│ │ ├── opa_bridge.py # OPA policy bridge (Phase H)
│ │ └── personhood.py # PersonhoodLevel CREP assessment
│ ├── dashboard/
│ │ ├── mandala.py # MandalaDashboard
│ │ ├── sonification.py # Sonifier
│ │ └── web_gui.py # Dash live dashboard
│ └── plugins/
│ ├── registry.py # PluginRegistry
│ └── adapters/ # One adapter per optional package
Development
git clone https://github.com/GenesisAeon/genesis-os.git
cd genesis-os
pip install -e ".[dev]"
# Run tests
pytest
# Lint
ruff check src tests
# Type check
mypy src
# Build docs
mkdocs serve
Citation
If you use genesis-os in academic work, please cite:
Paper (V2 — peer-review expanded):
@article{roemer2026genesisaeon_v2,
author = {Römer, Johann},
title = {{GenesisAeon v0.3.1}: A Unified Variational Framework
for Emergent Criticality Across Physical Domains},
journal = {Zenodo},
year = {2026},
month = apr,
version = {v2},
publisher = {Zenodo},
doi = {10.5281/zenodo.19645351},
url = {https://doi.org/10.5281/zenodo.19645351}
}
Software:
@software{roemer2026genesisaeon_software,
author = {Römer, Johann},
title = {{genesis-os}: GenesisAeon Unified Framework — Python Implementation},
year = {2026},
publisher = {GitHub},
version = {v0.3.1},
url = {https://github.com/GenesisAeon/genesis-os}
}
Full bibliography (25 BibTeX entries including Bak, Pikovsky, GENERIC, ERA5,
GADGET-4, IllustrisTNG, IPCC AR6):
→ docs/genesisaeon_citations.bib
Paper PDF: docs/genesisaeon_v0.3.1_paper.pdf
APA: Römer, J. (2026, April). GenesisAeon v0.3.1: A unified variational framework for emergent criticality across physical domains (v2). Zenodo. https://doi.org/10.5281/zenodo.19645351
License
- Code: GNU General Public License v3 or later (GPLv3+)
- Documentation: Creative Commons Attribution 4.0 International (CC BY 4.0)
The dual-licence model allows free academic use and redistribution under GPLv3
while ensuring documentation and scientific content remain openly citable under
CC BY 4.0. See LICENSE for the full GPLv3 text.
"A system that listens - a pattern that lives." Im Kreis der Genesis erwacht das Mandala.
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