Crypton logo CRYPTON.
Protocol v1.0
Post-Quantum Secure Communication Platform

Zero packet
fragmentation.
Over any infrastructure.

CRYPTON replaces legacy secure transport with a post-quantum communication protocol — and deploys seamlessly through a drop-in hardware proxy for existing infrastructure.

SATCOM / L-BAND
Satellite Communications
MODBUS / OPC-UA
Industrial IoT
GRID / SCADA
Critical Infrastructure
MIL-STD
Defense Networks
§ 01 — The Problem

Quantum migration
isn't only a
cryptography problem.

Naïve PQ migration multiplies certificate size, breaks MTU assumptions, and cascades through the transport layer. What begins as a key-exchange upgrade ends as an infrastructure overhaul.

Current migration path
  1. 01 Large certificates +8–14 KB per identity
  2. 02 Larger handshakes Multi-flight negotiation
  3. 03 Packet fragmentation MTU exceeded on link
  4. 04 Retransmissions Reliability degrades
  5. 05 Higher latency P99 balloons under load
  6. 06 Deployment complexity Every stack must change
§ 02 — Core Technology

Meet CRYPTON Protocol.

A post-quantum secure transport protocol built from the ground up to replace TLS in constrained networks. Purpose-designed for satellites, embedded devices, and industrial links where every byte and round-trip matters.

The core innovation
Stack position
Applications
HTTP · MQTT · CoAP · Custom
CRYPTON Protocol
Post-quantum secure transport
Core
TCP / UDP
Reliable / datagram
Network
IP · L2 links
FEAT / 01
Binary Framing

Deterministic, zero-copy record layout. No ambiguous parsing states.

FEAT / 02
Identity Cache

Peer identities pinned once, elided from subsequent flights.

FEAT / 03
Raw Public Keys

No X.509 chains. Direct key attestation, kilobytes saved.

FEAT / 04
1 RTT Handshake

Application data flows on the first round-trip. No warm-up.

FEAT / 05
Session Resumption

0-RTT resumption with replay-safe binding to prior transcript.

FEAT / 06
Transcript Binding

Every flight cryptographically committed. Downgrade-proof by construction.

§ 03 — Benchmarks

The numbers.

Handshake
1 RTT
Memory footprint
120 KB
Compact handshake
1.5 KB
Validated runs
1M+
Bare-metal tested
ESP32
§ 04 — Deployment

Migration without
replacing
infrastructure.

Not every network can replace TLS overnight. For brownfield infrastructure, CRYPTON Proxy enables post-quantum migration without modifying existing software or applications.

Crypton full view
01
Legacy Network
Untouched applications, existing stacks
02
CRYPTON Proxy
Drop-in 1U appliance · line-rate
03
Quantum-Safe Communication
End-to-end post-quantum transport
CRYPTON PROXY · 1U
Crypton front view
I/O · POWER · MGMT
Crypton rear view
§ 05 — Migration Path

Choose your migration path.

Two paths, one platform. Both converge on end-to-end post-quantum communication.

GREENFIELD PATH A

Native CRYPTON Protocol

Embed the protocol directly into new products and platforms. Maximum efficiency, smallest footprint.

  • Satellite OEMs
  • IoT Devices
  • Embedded Systems
  • Defense Platforms
  • New Infrastructure
BROWNFIELD PATH B

CRYPTON Proxy

Drop-in appliance for networks that can't rewrite the stack. Post-quantum without code changes.

  • Utilities
  • Factories
  • Ground Stations
  • Enterprise Networks
  • Existing Infrastructure
Quantum-Safe Communication
§ 06 — Supported Deployments

Environments in production trial.

Satellite
Field trial
Industrial IoT
Field trial
Critical Infrastructure
Field trial
Defense
Field trial
Maritime
Field trial
Energy
Field trial
Smart Manufacturing
Field trial
Ground Stations
Field trial
● Registration Open

Protocol validated.
Pilot onboarding
has begun.

CRYPTON has completed protocol validation and embedded benchmarking. We're onboarding a limited cohort of organizations evaluating post-quantum migration across satellite, industrial, defense, and critical infrastructure environments.

Reserve your pilot spot