Mission · Sovereign security

PHYSICAL
identity.
SOVEREIGN.

Quanthor Forge protects critical objects where traditional cybersecurity can't reach, in the very matter of the component itself. No key to steal. No identity to forge.

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30+

Years of post-quantum protection

Unique combined building blocks

Keys stored, nothing to extract

We are convinced that the next security war will be won in matter, not in software.

The nations that control the authenticity of their critical objects will control their technological sovereignty. Quanthor Forge is our answer.

“How do you prove an object is authentic, not authenticated, authentic?”

Classical cybersecurity protects access and data. It does not answer the question of physical authenticity. That is exactly where Quanthor Forge steps in.

The problem

Object identity remains declarative.

Serial numbers and certificates

Any declarative identifier can be copied. A cloned drone carries the same certificate as the original.

Stored cryptographic keys

A key held in memory can be extracted with physical access. This is the systematic scenario in modern conflicts.

Substituted supply-chain components

A counterfeit component bearing the right label passes every software check. Physical identity is never verified.

Predictable cryptographic randomness

Algorithmic generators can be modeled. Faced with quantum computers, all classical encryption becomes breakable.

Why now

The window opened in 2024.
It won't last.

Standards finalized

NIST standardized the post-quantum algorithms in August 2024 (ML-KEM, ML-DSA). Compatible silicon has been commercially available since late 2025.

Regulatory obligation

Remote ID FAA, U-space EASA, NIS2, EU PQC directive, the transition is mandated between 2026 and 2030. Players who don't move will fall out of compliance.

Unaddressed market

No vendor today combines QRNG, PUF and PQC in a single embedded architecture. The niche of integrated physical identity is wide open.

Products

One platform.
One first product.

Platform

Universal physical identity for critical objects. QRNG + PUF + PQC in a single embedded architecture.

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First product

Hardware security module for drones. First implementation of the Forge architecture on the most demanding use case.

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Technology

Identity lives in matter.

Quanthor Forge is built on an architecture of four complementary building blocks that no other vendor combines today. Each one is necessary. Together they are unmatched.

BLOCK 01 · QRNG

Quantum random number generator

Randomness is the foundation of all cryptography. Algorithmic generators can be modeled and predicted, especially against quantum computers. The QRNG draws randomness from quantum physical processes, physically unpredictable by nature.

BLOCK 02 · PUF

Physical Unclonable Function

Every electronic chip carries microscopic manufacturing variations, invisible to the eye, unique by construction. The PUF turns those variations into a unique physical fingerprint. The key is never stored: it is derived on demand from matter, then erased. There is nothing to extract.

BLOCK 03 · PQC

Post-quantum cryptography

Quantum computers will make RSA and ECC obsolete within 10 to 15 years. NIST standardized the replacement algorithms in August 2024 (ML-KEM, ML-DSA). Quanthor Forge implements them in silicon, not software, faster, more resilient, no software attack surface.

BLOCK 04 · MKL

Merkle cryptographic log

Every event in an object's life, manufacture, certification, maintenance, deployment, is recorded in a cryptographic log built on a Merkle tree. Any retroactive tampering is immediately detectable. History is immutable.

Target markets