Military-Grade
Post-Quantum
Encryption
PQE-369 delivers Module-LWE based quantum-resistant encryption with three security levels (128/192/256-bit). Validated on IBM Quantum hardware with 100,196 operations per second—4× faster than NIST Kyber.
Enterprise-Grade
Quantum Security
PQE-369 combines cutting-edge cryptographic research with practical implementation for real-world security challenges.
Quantum-resistant Key Encapsulation Mechanism based on the Module Learning With Errors problem—the same foundation as NIST's Kyber standard.
Authenticated encryption using the industry-standard AES-256-GCM cipher with 1.18 GB/s throughput and hardware acceleration.
Proprietary vortex-based mathematical optimization delivers 2.56× faster encapsulation than leading competitors.
Additional security layer using non-commutative group operations for enhanced protection against lattice-based cryptanalysis.
Cross-platform support for Linux, Windows, macOS, Android, and iOS with architecture-specific optimizations.
Full AVX2 SIMD vectorization on x86-64 and ARM NEON on mobile devices for maximum throughput on any hardware.
Complete key exchange cycle in 0.061ms—22µs decapsulation enables real-time, high-throughput applications.
Level 1 (128-bit), Level 3 (192-bit), and Level 5 (256-bit) security options to match your threat model and performance needs.
Choose Your
Integration Path
From simple CLI tools to complete secure operating systems—deploy quantum-resistant encryption at any scale.
Standalone executable for Linux, Windows, and macOS. Zero dependencies, single file deployment.
- Key generation
- File encryption/decryption
- Performance benchmarking
- All security levels
Static library (libpqe369.a / pqe369.lib) with C headers for native application integration.
- Direct API access
- 28,500 ops/sec
- CMake integration
- Full documentation
Native Python bindings with pip installation. Perfect for rapid development and prototyping.
- pip install pqe369
- Type hints included
- Async support
- NumPy integration
Memory-safe Rust implementation with cargo support. Zero-copy operations for maximum performance.
- cargo add pqe369
- No unsafe code
- WebAssembly support
- Full documentation
Quantum-resistant encryption for NFC card communication. Encrypt/decrypt data for RFID/NFC systems.
- Card ID encryption
- Raspberry Pi support
- SPI interface
- Multiple security levels
Production-ready quantum-resistant blockchain. 100% transaction success rate across all security levels.
- Smart contracts
- DeFi integration
- Supply chain tracking
- HMAC signatures
Device-agnostic Android OS with hardware-to-application encryption. No SIM card required.
- ARM NEON optimized
- TrustZone TEE integration
- P2P encrypted messaging
- Secure VoIP calls
Decentralized registration and discovery infrastructure. Replace cellular networks entirely.
- Cryptographic identity
- DHT peer discovery
- NAT traversal (STUN/TURN)
- Offline messaging
Maximum security Raspberry Pi 4 OS with 7-layer defense-in-depth. Military-grade hardening for IoT and edge computing.
- TPM 2.0 integration
- Secure boot chain
- SELinux enforcing
- Tamper detection
Ultra-secured Linux distribution with PQE-369 encryption integrated at every layer. Military-grade hardening.
- Kernel-level encryption
- Secure boot chain
- Hardware security modules
- Zero-trust architecture
Not sure which solution fits your needs?
3-Layer
Security Architecture
Each layer provides independent security, creating a defense-in-depth system that remains secure even if one component is compromised.
Module-LWE KEM
Quantum-Resistant Foundation
Key Encapsulation Mechanism based on the Module Learning With Errors problem—mathematically proven resistant to both classical and quantum attacks.
- NIST Category 1/3/5 security levels
- Optimized lattice parameters
- NIST PQC compliant design
Non-Abelian Hardening
Proprietary Security Layer
Additional protection using non-commutative group operations. Provides defense-in-depth against advanced lattice-based cryptanalysis techniques.
- Non-commutative operations
- Additional security margin
- Lattice attack resistance
AES-256-GCM DEM
Authenticated Encryption
Industry-standard symmetric encryption with 1.18 GB/s throughput. Hardware-accelerated for maximum performance with authenticated data integrity.
- 256-bit key encryption
- Galois/Counter Mode
- Hardware acceleration
Speed Without
Compromise
AVX2 SIMD optimized for enterprise-grade throughput. Peak 100,196 ops/sec—4× faster than NIST Kyber reference.
KEM encapsulation operations (AVX2 optimized)
KEM decapsulation operations (AVX2 optimized)
Military Level 1 key generation speed
AES-256-GCM encryption (16KB blocks)
| Security Level | KeyGen | Encrypt | Decrypt | Total Cycle | Latency |
|---|---|---|---|---|---|
Level 1 (128-bit) | 50,049/s | 24,924/s | 50,098/s | 16,644/s | 0.060 ms |
Level 3 (192-bit) | 49,951/s | 16,661/s | 25,024/s | 10,002/s | 0.100 ms |
Level 5 (256-bit) | 50,000/s | 16,667/s | 14,845/s | 7,852/s | 0.127 ms |
Decapsulation Performance vs Industry
Operations per second (higher is better)
Benchmarked on Intel Core i9-13900 + 64GB DDR4-3200 | AVX2 SIMD Optimized | December 2025
Quantum
Validation Results
Rigorously tested on real quantum hardware. Our validation process confirms quantum resistance at the highest level.
Overall Quantum Resistance Score
PQE-369 vs Industry Standards
Comprehensive comparison against NIST standards, legacy encryption, and real-world applications in critical infrastructure.
| Algorithm | Status | Throughput | Latency | Security | Layers | Quantum Tested | Adoption |
|---|---|---|---|---|---|---|---|
PQE-369 Hybrid KEM | SAFE | 100,196 ops/sec | 0.010 ms | 128/192/256 | 3-Layer | 75.8% | Enterprise Ready |
CRYSTALS-Kyber Lattice KEM | SAFE | ~25,000 ops/sec | ~0.040 ms | 128/192/256 | 1-Layer | Theoretical | NIST Standard |
SABER Lattice KEM | SAFE | ~20,000 ops/sec | ~0.050 ms | 128/192/256 | 1-Layer | Theoretical | NIST Finalist |
NTRU Lattice KEM | SAFE | ~15,000 ops/sec | ~0.067 ms | 128/192/256 | 1-Layer | Theoretical | Legacy PQC |
secp256k1 (BTC) ECC | VULN | ~15,000 ops/sec | ~0.067 ms | 128→0 | 1-Layer | N/A | Bitcoin/Ethereum |
RSA-2048 Factoring | VULN | ~1,500 ops/sec | ~0.67 ms | 112→0 | 1-Layer | N/A | Legacy (Sunset) |
IBM Quantum Validated
Tested on ibm_fez 156-qubit quantum computer
Attack Complexity
100% Validation
All 27 cryptographic tests passed
Military-Grade
Three security levels: 128/192/256-bit
Built on peer-reviewed research from:
Industry
Use Cases
PQE-369 is designed for organizations that cannot afford to wait for quantum threats to materialize.
Protect classified information and secure communications with hardware-to-application encryption.
Quantum-resistant blockchain transactions with 100% success rate. Smart contracts, payments, and supply chain.
RC522-compatible quantum-resistant encryption for access control, payments, and identity systems.
Quantum-resistant protection for corporate secrets, customer data, and cloud infrastructure.
Secure satellite communications, space systems, and deep-space data transmission.
ARM-optimized security for Raspberry Pi, embedded systems, and resource-constrained devices.
Protect critical infrastructure, power grids, and industrial control systems.
Banking-grade security for transactions, trading platforms, and regulatory compliance.
Blockchain-verified product tracking, authenticity verification, and logistics security.
HIPAA-compliant encryption for medical records, patient data, and healthcare IoT devices.
No-SIM mobile OS and P2P network infrastructure for truly private communications.
Quantum-resistant security for smart homes, wearables, and consumer electronics.
Don't see your industry?
PQE-369 is adaptable to any sector requiring quantum-resistant security.
Secure Your
Future Today
The quantum threat is real. Organizations that act now will be protected when quantum computers become capable of breaking traditional encryption.