Ontomics Library – Platforms, Architectures & IP
Beyond consulting, Ontomics maintains an internal library of emergent system designs: diagnostic platforms, quantum–photonic engines, control architectures, translational research scaffolds, and IP automation tools. These are not hypothetical. They are structured as deployable architectures and IP-ready platforms.
Below is a sampling of outward-facing entries. Many more remain private or under NDA with partners.
Explore fit for your lab, company, or fundBiotech Diagnostics & Biomarker Innovations
Ontomics works at the frontier of emergent diagnostics, NAM biomarkers, and regenerative systems. A few example architectures:
Misaligned Cellular Memory Correction System
An emergent diagnostic platform that treats pathological cell states as miswritten “memories.” Using nano-scale biosensors and quantum–biochemical feedback, the architecture detects and helps realign these information patterns in regenerative medicine and oncology contexts.
Discuss oncology or regenerative useCross-Disease NAM Signature Classification
An AI-powered engine that reads New Approach Methodology (NAM) biomarkers to classify pattern signatures across multiple diseases: cancer, neurological conditions, and more. The system is designed to support personalized intervention planning, not just research dashboards.
Talk NAM signatures & stratificationAutism Neurodiagnostic Platform
An early-signal platform that detects emergent neural oscillation signatures — including NAM and quantum-biological cues — for autism-spectrum diagnosis. The architecture is designed to interface with neuromodulatory interventions rather than stop at labels.
Explore neurodiagnostic collaborationQuantum–Photonic Systems & Emerging Tech
Ontomics builds architectures where quantum, photonic, and biological systems are treated as one emergent computation and sensing stack.
Multi-Modal Combinatorial NAM Engine
A multi-sensory platform combining mechanical, magnetic, and photonic modalities to detect bio-signal anomalies and steer them toward desired states. Built for advanced biotech and quantum R&D settings where control and observation must co-evolve.
Quantum Origin-of-Life Emulation Platform
A quantum–photonic simulator for abiogenesis research. The platform models dual-cascade quantum and chemical interactions, enabling both origin-of-life studies and exploration of bio-inspired computing architectures under controlled conditions.
Quantum-Photonic Encoder–Decoder System
A bridge between entangled spin–photonic states and classical data formats. The architecture enables secure quantum–classical information exchange, suitable for high-sensitivity compute and communication infrastructure.
Consciousness Resonance Modulation System
A neurotech architecture using nano-acoustic and quantum–photonic resonance patterns to influence and stabilize emergent conscious states. Designed for research in cognitive enhancement and advanced brain–machine interfaces.
Modular QpH BioComputing Kit
A modular hardware kit for building custom quantum–photonic devices aimed at biological information processing. The kit lowers the barrier to hands-on emergent bio-computation experiments in serious labs.
Collaborative NAM–Quantum Experimental Suite
A framework for cross-lab experimentation on NAM biomarkers and quantum–photonic devices. It standardizes methods and data flows so reproducibility, IP capture, and multi-site studies become a structural property, not a heroic effort.
Bio-Inspired Memory & Cooling Systems
Hardware architectures that translate mechanochemical processes from nature into data storage and thermal management devices. Designed for sustainable, high-density computing where thermal and information behavior must be co-architected.
IP Automation & Innovation Management
Complex R&D programs generate more IP than any team can track manually. Ontomics designs systems that treat IP as part of the emergent architecture, not a separate paperwork universe.
Automated Patent Generation & Management System
A platform that converts live lab outputs — including NAM experiments and system logs — into patent-ready documents and structured IP data. Built for organizations with heavy R&D throughput and serious strategic IP needs.
Collaborative Research IP Integration Framework
An architecture that unifies project data, lab outputs, and patentable insights into a single IP-ready repository. Designed for consortia and alliances that need real-time collaboration without losing control of what can and should be protected.
Systems Architecture & Translational Platforms
Beyond specific platforms, the library includes system-level architectures for:
- Emergent computational biology systems and bio-inspired data architecture.
- Precision medicine environments that align diagnostics, therapies, and stratification.
- Advanced testing and validation systems in regulated domains.
- Emergent AI platform architectures and bioinformatics infrastructure.
- Robotics, autonomous platforms, complex networks, and risk analysis.
These are templates and starting points, not rigid products. They exist so that when we work together, we are not starting from a blank page.
Ask how the library can plug into your world