True Quantum Entropy
True quantum random number generation using photonic entropy with continuous self-certification. Delivers Gbps-class throughput with provably unpredictable output — randomness guaranteed by the laws of quantum physics, not computational assumptions.
Randomness derived from quantum photonic processes. Provably unpredictable by the fundamental laws of physics, with continuous self-certification verifying entropy origin in real time.
Designed for SP 800-90B entropy validation, AIS-31 physical random number generator compliance, and FIPS 140-3 approved random bit generator requirements.
Scalable architecture delivering Gbps-class random bit generation. Meets the entropy demands of high-performance key generation, security module seeding, and scientific computing workloads.
| Parameter | Value |
|---|---|
| Entropy Source | Quantum Photonic |
| Raw Entropy Rate | Configurable, up to multi-Gbps |
| Conditioned Output Rate | Scalable to 1+ Gbps |
| Min-Entropy (raw) | >0.999 bits per bit |
| Min-Entropy (conditioned) | 1.0 bits per bit (full entropy) |
| Startup Test Duration | <100 ms |
| Health Monitoring | Continuous (inline) |
| Output Buffer | Configurable (default 4 KB) |
| Bus Interface | Standard SoC bus (32-bit data) |
| Target Frequency | 80 MHz (digital domain) |
Delivery
Complete source for the digital backend: health monitoring, entropy conditioning, output buffering, and bus interface. Includes photonic source interface specification and verification suite.
Pre-validated digital processing pipeline with timing characterization. Integration guide for analog front-end connection and entropy source interfacing.
Turnkey module with integrated photonic entropy source and digital pipeline. Ready for board-level or chip-level integration with certification evidence package.
Contact our team for evaluation access, QRNG module samples, or custom integration support for your entropy requirements.