FluxOnic Computing
Toward Resilient Magnetic Logic
FluxWorx is exploring FluxOnic Computing as a future application of Differential Flux Steering — using controlled magnetic states rather than conventional charge-based switching as the basis for logic. While power conversion and motor control are the near-term commercial focus, magnetic-state logic may offer long-term advantages in radiation resilience, EMP tolerance, low-heat operation, and hostile-environment computing.
A New Foundation for Logic
At the heart of secure computing with magnetic diodes is a deceptively simple principle: one-way flux control without electrons.
Binary & Ternary states
Instead of charge presence, logic states are defined by flux pathways.
Minimal switching power
Steering flux demands a fraction of the energy to move charge carriers.
Immunity to interference
No electrons means no ionizing radiation errors or static sensitivity.
The vulnerabilities of silicon-based computing are not theoretical—they are lived realities in defense, aerospace, and critical infrastructure. Magnetic logic devices, powered by active diodes, provide an answer.
EMP & Radiation Hardened
Hardware Hacker Resistant
Extreme Environments
Longevity & Stability
Why Institutions Should Lead
The first institution to demonstrate a working magnetic-diode logic processor will set the stage for an entirely new industry.
National Prestige
Place your group at the forefront of global defense and aerospace innovation.
Interdisciplinary Magnetism
Unite materials science, magnetics, microfabrication, and information theory.
Talent & Funding Draw
Attract public and private investment from defense, aerospace, and computing industries.
A Future Beyond Silicon
Today’s computing architectures still carry the vulnerabilities of moving electrons. Magnetic transistors and diodes remove that compromise, offering the first true alternative to silicon logic in over half a century.
The Vision
- Secure processors operating unshielded in orbit for decades.
- Hardened controllers maintaining critical infrastructure through EMP events.
- Computing architectures immune to hardware-level probing and manipulation.
Institutions that step forward now stand to lead a revolution in secure, resilient, and sustainable computing.
Download our White Paper →Frequently Asked Questions
What is FluxOnic Computing?
FluxOnic Computing is a new paradigm of resilient magnetic logic being developed by FluxWorx. It leverages the Magnetic Transistor to perform computational operations using magnetic flux rather than traditional electron flow.
What are the advantages of magnetic computing?
Magnetic computing offers potential benefits in resilience, non-volatility, and energy efficiency, particularly in environments where traditional silicon-based logic faces thermal or radiation constraints.