Establish the foundational direction for the project by identifying relevant quantum computing paradigms—trapped-ion superconducting photonic and topological systems—and defining their theoretical intersections with AGI systems especially under Hyperon. IONATION® will be applied as a vibrational lens to understand the systemic coherence and suitability of each model in supporting emergent AGI architectures.

Deliverables: • Comprehensive research plan detailing paradigms to be explored • IONATION®-aligned evaluation criteria for coherence resonance and adaptability • Literature review with a field-aware perspective • Alignment mapping with Hyperon components (PLN ECAN DAS) • Agile breakdown and Gantt-style timeline

$25,000 USD

Success Criteria: • Submission of a detailed and coherent research plan • Identification of key paradigm-AGI alignment opportunities • Clear articulation of IONATION® as a topological evaluation framework

Execute early-stage theoretical modeling of quantum computing constructs (qubit states entanglement models error correction) and assess how these interact with AGI cognitive demands. Begin small-scale hybrid simulations using symbolic agents and evaluate suitability for PLN-like probabilistic reasoning.

Deliverables: • Quantum logic diagrams mapped through IONATION®’s vibrational quadrants • Simulated experiments modeling emotional and symbolic charge via quantum states • Technical documentation on fidelity latency and coherence metrics • Preliminary results visualized for trapped-ion and superconducting systems

$25,000 USD

Success Criteria: • Completion of at least two simulation scenarios • Demonstrated potential of quantum properties to support symbolic AGI tasks • Integration pathways between IONATION® resonance modeling and quantum computation

Deepen comparative modeling and extend simulations across photonic and topological platforms. Evaluate use of Quantum Walks QAOA and VQE for symbolic reasoning tasks. IONATION® will provide relational logic overlays to identify adaptive potential and vibrational integrity within AGI workloads.

Deliverables: • Expanded documentation on quantum-AGI simulation performance • Comparative evaluation matrix across all four quantum paradigms • Insights into IONATION®’s utility for guiding coherence efficiency and adaptability • Mid-project paper for peer feedback and community alignment

$25,000 USD

Success Criteria: • Side-by-side assessment of AGI task fit across paradigms • Quantitative and qualitative performance insights • IONATION® demonstrated as a viable topological tool for cross-domain AGI architecture evaluation

Synthesize all research and simulation findings into a robust whitepaper with clear guidance for integrating quantum advancements into AGI systems. This includes potential next steps for MORK integration MeTTa pattern expansion and field-based awareness in symbolic architectures.

Deliverables: • Final comparative evaluation whitepaper • Strategic roadmap for future research and integration • Recommendations for using IONATION® in quantum-agentic design • Optional supplemental video walkthrough or webinar presentation

$25,000 USD

Success Criteria: • Completion of all analysis and documentation • Clear value proposition outlined for AGI teams considering quantum strategies • IONATION® positioned as a meta-framework for quantum-AI system design