Technology

Core Technology

We didn't engineer an algorithm.We engineered physics.

QCoreSecure's QRNG platform is powered by a Silicon-Photonics Quantum Random Number Generator chip developed at CPPICS, IIT Madras. Our technology doesn't simulate randomness - it captures real entropy from the quantum physics of photons.

The Chip

Silicon-Photonics QRNG - the competitive edge

By integrating the entire quantum process onto a compact, robust, mass-manufacturable chip, QCoreSecure delivers enterprise-grade reliability and scalability far beyond traditional optical or algorithmic randomness sources.

Quantum Photon Source

Optical Detection

Signal Processing

NIST Validation

Certified Entropy

>1 Gbps

Raw Bit Generation

>200 Mbps

Certified Entropy Output

SiPh Chip

Compact, Mass-Manufacturable

Continuous

NIST Health Monitoring

How We're Ahead

What sets QCoreSecure apart from every competitor

What sets Q Core Secure apart from every competitor

Monolithic Silicon-Photonics - Not Discrete Optics

Most competitors use discrete optical components bolted onto boards - fragile, expensive, difficult to scale. QCoreSecure's entire quantum process is integrated onto a single chip. Consistent quality. Enterprise reliability. Mass manufacturing at cost points competitors cannot match.

200 Mbps Certified Today, 1 Gbps by 2027

Most competing QRNGs deliver entropy in the low Mbps range. QCoreSecure already certifies >200 Mbps - with a clear roadmap to 1 Gbps. Essential for post-quantum cryptography and machine-scale identity systems where millions of tokens are generated per minute.

NIST SP 800-90B - Continuous, Not One-Time

Many competitors test entropy at the factory and ship. QCoreSecure runs the full NIST SP 800-90B test suite continuously in real time. If any anomaly is detected, the system halts output. Zero-compromise entropy health monitoring.

Cloud + Appliance + SDK - Not Just Hardware

Competitors sell hardware. QCoreSecure delivers its powerful silicon-photonics QRNG chip across three deployment models: QRaaS (cloud API, sub-10 ms), the on-premise appliance (air-gapped), and QIDSecure (agent identity SDK). No other QRNG vendor offers this range.

PQC-Native by Design

Entropy output already exceeds NIST post-quantum key generation requirements for ML-KEM, ML-DSA, and SLH-DSA. The QIDSecure SDK uses PQC natively - ML-KEM for the handshake, ML-DSA for signing. Future-proof entropy, not a retrofit.

Backed by Real Science - Not Theoretical Promises

The QRNG chip is the product of a rigorous academic-industry collaboration with IIT Madras CPPICS. Backed by peer-reviewed research, fabricated on proven silicon-photonics processes, and validated against NIST test suites. Real quantum hardware delivering real post-quantum security.

WHY QCORESECURE

Not all randomness is equal.

Capability	Hardware TRNG	HSM Entropy	QCoreSecure QRNG
Provably unpredictable	Partial	Partial	Quantum-guaranteed
NIST SP 800-90B certified	Varies
Throughput >200 Mbps
Post-quantum ready		Varies	ML-KEM / ML-DSA
Cloud API delivery			Sub-10 ms
Entropy provenance audit		Partial
AI-attack resistant	Partial	Partial	Physics-based

Compliance

Certified & Auditable

NIST SP 800-90B

Gold-standard entropy source certification. Continuous real-time testing.

FIPS 140-3

Active certification track. Government procurement ready.

PQC-Ready

Exceeds NIST ML-KEM, ML-DSA, SLH-DSA requirements.

EU AI Act

QIDSecure audit trail meets AI governance transparency requirements.

PCI DSS & SOX

Entropy provenance for financial key management.

FedRAMP

QRaaS architecture designed for federal alignment.

If it isn’t Quantum, it isn’t Random.

Ready for Quantum-Grade Security?

Whether you’re securing encryption keys, AI agent credentials, or critical infrastructure — start with randomness rooted in physics.

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