Vere Ex Nihilo
The opportunities start where nothing fails.
We've developed geometric foundations that change what's possible. From the world's first non-von Neumann computing architecture to theoretical frameworks with implications across physics, materials science, and beyond.
Beyond Convention
We rebuilt computing from pure geometric algebra and discovered something we weren't looking for: the same mathematical structures that revolutionize computation also connect to fundamental physics. Constants derived from necessity, not measured. Predictions that follow from geometry, not curve-fitting. A framework that transforms theoretical physics into deductive mathematics.
Pure Geometry
Mathematical structures that govern both computation and physical law. The same foundations, different expressions.
Derived, Not Fitted
Results that follow from mathematical necessity. Zero free parameters. Predictions, not curve-fitting.
Universal Scope
From embedded systems to fundamental constants. From materials science to theoretical physics.
Computing & Theory
Our work spans from practical computing systems to theoretical foundations with broad scientific implications.
Geometric Computing
The world's first truly non-von Neumann operating system, database, and computational tools. 100% geometry-based from first principles. Performance characteristics that conventional architectures cannot achieve.
- • Operating systems and process management
- • Database architecture and indexing
- • Real-time processing and sensor fusion
- • Compression, encoding, and cryptography
Theoretical Foundations
Mathematical frameworks that connect to fundamental physics. Derivations from geometric necessity rather than empirical fitting. Implications for how we understand physical law itself.
- • Novel mathematical frameworks
- • Connections to fundamental constants
- • Information-theoretic foundations
- • Methodology for theoretical validation
Where It Applies
The same geometric principles manifest across computing, physics, materials, and research methodology.
Computing
- Operating Systems
- Databases
- Embedded Systems
- Distributed Computing
Processing
- Sensor Fusion
- Data Compression
- Video Encoding
- Cryptography
Science
- Fundamental Physics
- Materials Science
- Information Theory
- Methodology
Industry
- Manufacturing
- Energy Systems
- Research Tools
- Analytics
Protected Innovation
Initial provisional patents filed. Global patent filings continue throughout 2026 across computing methods, theoretical frameworks, and application-specific implementations.
We're building an IP-first licensing company on foundational methods that span from practical computing to theoretical physics.
The implications are broader than computing.
We're selective about partnerships. If you're working on hard problems in computing, physics, materials, or research methodology, let's talk.