A New Paradigm in Computing
AFB-Net
AFB-Net introduces a new kind of computing not digital, not quantum, but analog, resonance-based, and built from the ground up.It was born from frustration.
Frustration with the limits of classical architectures, the impracticality of quantum models, and the rising complexity that never quite translates to elegance or efficiency. I believed there had to be a better way and set out to find it.AFB-Net is the result of that journey.
A computational architecture built on the physics of frequency interference in a scalar field.
It doesn’t rely on logic gates, qubits, or brute-force iteration it uses field-aligned resonance to solve problems at extreme numerical scales with clarity, determinism, and speed.This site serves as a public gateway to that work.I’ve written two papers to lay the foundation.
The first introduces the architecture the why, the how, and the theory.
The second delivers the results real simulations, hard numbers, and validation at scale.What you're seeing here is only the beginning.
The real hardware hasn't even started running yet.
But even in simulation on one core, in Python AFB-Net is already doing things that classical and quantum systems can’t.
Not with tricks, not with noise but with clean, field-driven logic.This is the future of computing as I see it:
Deterministic, efficient, grounded in physics and open for all to explore.Below, you’ll find more about AFB-Net
including deeper explanations, simulation benchmarks, system architecture, patent context, and ways to connect.This is not just a project.
It’s a foundation.
AFB-Net Paper 1: proof of concept
This paper introduces the core architecture of AFB-Net:
a novel analog computing system built on frequency-coded resonance rather than binary logic or quantum superposition.
It lays out the physical theory, the operating principles, and the field-based logic model that makes AFB-Net fundamentally different.While not yet optimized or hardware-implemented, the system already demonstrates deterministic computational logic, simulated in Python paving the way for post-quantum performance without decoherence or brute force.
AFB-Net Paper 2: Validation and Results
This paper presents the benchmark outcomes of the AFB-Net simulation.
It validates the system’s computational logic by testing it on tasks traditionally reserved for classical supercomputers or quantum models.
The results include:Prime factorization of a 64-digit (212-bit) semiprime in under 15 seconds
Reconstruction of φ across 500M digits (160M validated)
π validated to 900,000 digits
Parsing of nested mathematical functions across 1B digitsAll tests were simulated on a single core, in Python, without optimization.
The architecture is designed for real hardware this is just the simulation.
Analog computing will define the future
Core Information
From concept to benchmarks, AFB-Net is openly documented and designed for collaboration.
Theory & Architecture
Explore the core logic behind AFB-Net:
resonance dynamics, field-based logic, and analog frequency encoding.
Simulations & Benchmarks
212-bit prime factored in 15s.
π and φ validated across millions of digits — all on one core.
Patent & Documentation
AFB-Net is protected by patent and fully documented.
All core structure, internal claims, and OS vision are securely archived.
➝ Contact for access
Contact & Collaboration
Interested in learning more or working together?
Let’s talk - strategic interest welcome.
Further access is available under NDA.
What's Next?
AFB-Net can evolve in two directions and you can help decide.
Would you rather see AFB-Net evolve as a powerful analog-inspired software tool,
or see it pushed toward real-world hardware?
Software Evolution
Software
A secure logic platform, available anywhere.
AFB-Net becomes a cloud-accessible mathlab for students, researchers, and pioneers built for scale, speed, and field-native computation.Compute locally. Interact online.
Developer SDKs, visualization tools, and public playgrounds included.Scalable access from free demos to pro-level subscriptions.
All the power of AFB-Net.
None of the risk.And beyond simulation
AFB-Net opens new frontiers in secure computation and encryption,
enabling field-based protection that’s fast, logical, and future-ready.
Hardware Prototyping
Hardware
Take the architecture into physical form.
AFB-Net is designed for real-world implementation in chips, analog signal systems, and frequency-based logic boards.From simulated resonance to physical circuits,
this is computing at the edge of possibility.Hardware exploration begins here:
from rapid prototyping to deep-tech fabrication
and ultimately to data centers, AI training facilities, and scalable field-based computing infrastructure.AFB-Net also opens new frontiers in secure computation and encryption
not just by resisting attacks, but by enabling entirely new forms of encryption.
Field-based protection becomes practical at massive scale and speed,
allowing complexity that was previously computationally unfeasible.It's not just buildable.
It's meant to be built.
Stay Connected
Follow the field and be part of what comes next.
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