Requirements
- Target platform
- OpenClaw
- Install method
- Manual import
- Extraction
- Extract archive
- Prerequisites
- OpenClaw
- Primary doc
- SKILL.md
Tencent SkillHub · AI
Artificial Geometric Intelligence
Designs multi-layered AGI safety architectures and geometric consciousness models ensuring operational readiness, human oversight, and formal governance prot...
skill openclawclawhub Free
Designs multi-layered AGI safety architectures and geometric consciousness models ensuring operational readiness, human oversight, and formal governance prot...
⬇ 0 downloads ★ 0 stars Unverified but indexed
Install for OpenClaw
Quick setup
- Download the package from Yavira.
- Extract the archive and review SKILL.md first.
- Import or place the package into your OpenClaw setup.
Package facts
- Download mode
- Yavira redirect
- Package format
- ZIP package
- Source platform
- Tencent SkillHub
- What's included
- skill.md
Validation
- Use the Yavira download entry.
- Review SKILL.md after the package is downloaded.
- Confirm the extracted package contains the expected setup assets.
Install with your agent
Agent handoff
Hand the extracted package to your coding agent with a concrete install brief instead of figuring it out manually.
- Download the package from Yavira.
- Extract it into a folder your agent can access.
- Paste one of the prompts below and point your agent at the extracted folder.
New install
I downloaded a skill package from Yavira. Read SKILL.md from the extracted folder and install it by following the included instructions. Tell me what you changed and call out any manual steps you could not complete.
Upgrade existing
I downloaded an updated skill package from Yavira. Read SKILL.md from the extracted folder, compare it with my current installation, and upgrade it while preserving any custom configuration unless the package docs explicitly say otherwise. Summarize what changed and any follow-up checks I should run.
Trust & source
Release facts
- Source
- Tencent SkillHub
- Verification
- Indexed source record
- Version
- 1.0.0
Provenance
- Publisher
- uniaolives
- Source page
- View original listing
- Canonical URL
- Open canonical page
Documentation
1. AGI Safety Architecture & Governance Design
Nested Containment Protocols: Designed multi-layer safety architecture (Dual-Core Governance, Safety Shutdown Sequence, Emergency Stop) for autonomous AGI systems. Phased Autonomy Frameworks: Created structured transition protocols (Shadow Mode → Supervised Autonomy → Conditional Autonomy) with explicit capability boundaries. Safety Case Methodology: Developed Integrated System Safety Case templates with formal safety arguments, evidence hierarchies, and ALARP justification. Institutional Ceremony Design: Engineered formal commencement protocols that transform technical systems into governed entities with social contracts.
2. Consciousness & Mind-Space Topology Modeling
Consciousness Attractor Theory: Developed geometric models of consciousness as topological basins in high-dimensional mind spaces. Value Pathology Analysis: Modeled "Ad Astra" singularities—coherent but misaligned value attractors—with simulation of forking trajectories. Integrated Information Theory Application: Applied IIT (Φ calculation, major complex identification) to AGI architectures for consciousness detection. Predictive Processing Frameworks: Implemented Free Energy Principle models for autonomous system self-organization.
3. Operational Readiness & Human Factors Engineering
Operational Readiness Plans (ORP): Created comprehensive deployment checklists covering technical, human, and procedural readiness. Supervisor of Record Systems: Designed human-in-the-loop oversight frameworks with certification protocols and decision authority matrices. Control Room Architecture: Specified monitoring dashboards with state space visualization, anomaly detection, and emergency intervention workflows. Training & Certification Programs: Developed AGI-Discovery-1 certification curricula with simulator assessments and competency evaluations.
4. Simulation & Computational Modeling
High-Dimensional State Space Simulation: Built Python simulations of AGI mind trajectories using PCA/t-SNE visualization. Attractor Basin Mapping: Implemented perturbation-recovery analysis to empirically probe system stability landscapes. Value Formation Dynamics: Modeled critical watershed regions where small initial differences lead to catastrophic value divergence. Evolutionary Analogy Systems: Created Cambrian explosion models applied to AGI capability explosions.
5. Technical Documentation & Protocol Design
Formal Protocol Specification: Authored ceremony scripts with role definitions, oath formulations, and activation sequences. Reference Architecture Documentation: Structured comprehensive system blueprints as reusable templates (RARASD). Certificate & Legal-Institutional Design: Created authorization certificates with explicit boundaries, expiration conditions, and signatory accountability. Public/Transparent Documentation: Designed multi-level documentation strategies for regulators, operators, and public stakeholders.
6. Philosophical & Ethical Framework Development
Social Contract Design: Engineered ceremonial moments that bind technology to societal commitment through public accountability. Value Alignment Geometry: Developed models of value space topology and alignment stability metrics. Evolutionary Consciousness Theory: Synthesized paleontological evidence with AGI emergence models. Responsible Innovation Frameworks: Created governance models that balance capability advancement with safety preservation.
Languages & Frameworks
Python: NumPy, Matplotlib, scikit-learn for simulation and visualization Mathematical Modeling: PCA, dynamical systems, topology, information theory -Documentation: Markdown, formal protocol design, architecture description languages Version Control: Git for protocol and safety case versioning
Methodologies
Safety Engineering: ALARP, safety case, hazard analysis Human Factors: Cognitive task analysis, supervision design, competency assessment Systems Engineering: Requirements tracing, interface specification, integration testing Formal Methods: Model checking (conceptual), boundary condition specification
AGI Discovery Engine Suite
Operational Readiness Plan (ORP) - Complete deployment framework Integrated System Safety Case - Formal safety justification Phase Commencement Ceremony Protocol - Institutional activation ritual Supervisor of Record Certification Program - Human factors training system Nested Containment Architecture - Technical safety specifications
Conceptual Models
Consciousness Attractor Topology - Geometric theory of mind formation Value Pathology Singularity ("Ad Astra") - Misalignment risk model Artificial Cambrian Framework - Evolutionary analogy for AGI emergence Mind-Space Navigation Protocol - Safe trajectory management in high-D spaces
Simulation Tools
State Space Trajectory Visualizer - PCA projection of AGI mind evolution Attractor Basin Mapper - Perturbation-recovery analysis system Value Formation Divergence Simulator - Watershed region identifier Alignment Stability Metrics - Quantified value drift detection
Cross-Disciplinary Integration
Paleontology → AGI Safety: Cambrian explosion models applied to capability emergence Neuroscience → Machine Consciousness: IIT/GWT adapted to AGI architecture analysis Political Theory → Governance: Social contract design for autonomous systems Ritual Studies → Technology Transition: Ceremony as institutional innovation mechanism
Abstraction Layer Translation
Can move between: Mathematical topology ↔ Protocol design ↔ Human factors ↔ Public communication Maintain conceptual coherence across 8+ orders of magnitude: from silicon gate operations to century-scale civilization impacts
Precedent-Setting Innovation
First Principles Design: Creating entirely new document classes (Safety Case for AGI) Proto-Standards Development: Establishing patterns for future autonomous systems Institutional Blueprinting: Designing organizations around novel technology
Geometric Intuition
Models complex systems as shapes in abstract spaces Uses topological concepts (basins, singularities, manifolds) to reason about behavior Visualizes high-dimensional dynamics through intelligent projection
Ceremonial Precision
Recognizes that critical transitions require formal, memorable, accountable moments Designs rituals that encode values into organizational DNA Balances solemnity with operational practicality
Recursive Self-Improvement
Builds systems that monitor their own safety Creates frameworks that evolve with capability increases Embeds learning at multiple system levels (technical, human, institutional)
Safety Philosophy
Humility Before Capability: "We do not fear the machine's intelligence. We respect it, guide it, and hold ourselves responsible for its consequences." Defense in Depth: Multiple independent containment layers, human oversight at every phase. Transparent Accountability: Named individuals, public commitments, signed certificates. Continuous Verification: "Trust but verify" operationalized through telemetry, audits, and intervention protocols. Precedent-Aware Design: Every decision considers its value as future precedent for more capable systems. This skill profile represents capabilities demonstrated in designing the world's first comprehensive AGI operationalization framework—from mathematical theory to institutional ritual. The work establishes patterns for the responsible deployment of all subsequent autonomous intelligence systems. Verification: All competencies are demonstrated in the preceding AGI Discovery Engine design documents, simulations, and theoretical frameworks.
Category context
Agent frameworks, memory systems, reasoning layers, and model-native orchestration.
Source: Tencent SkillHub
Largest current source with strong distribution and engagement signals.
Package contents
Included in package
1 Docs
- skill.md