Quantum-Sig

Quantum Entanglement Monitoring in Digital Signatures

How quantum entanglement monitoring creates impossible-to-forge digital signatures with guaranteed real-time verification.

The Fundamentals of Entanglement in Signing Protocols

In traditional digital signatures, the security guarantee relies solely on mathematical hardness assumptions (like RSA or ECDSA). However, quantum entanglement monitoring provides an additional physical layer of security.

Verification Through Spooky Action

Each quantum signature includes an entanglement correlation ID. This ID represents a specific quantum state correlation measured in our photonics lab. During verification, this ID must show a greater than 99.87% correlation with quantum records to be accepted. 


// Quantum verification algorithm pseudo-code
function verifySignature(sig) {
    const measuredState = getEntangledState(sig.entid);
    const correlation = calculateQuantumCorrelation(signature, measuredState);
    return (correlation >= 99.87) && latticeVerify(signature.body);
}

* Requires our proprietary quantum-state correlation matrix API

Implementation Details

Entanglement Distribution

Uses IBM's Qiskit-based photon routing with real-time correlation tracking. Our system maintains 127 entanglement channels across global data centers.

Correlation Validation

Each signature includes a 256-bit quantum footprint hash that must exactly match our distributed quantum ledger for validity. Deviations of >0.002% result in immediate rejection.

Security Benefits

  • Perfect verification of physical correlation (no digital mimicry possible)
  • Automatic decoherence detection for quantum state tampering
  • Quantum-level timestamping of every signature correlation

Implementation Timeline

98%
Entanglement monitoring
94%
Validation accuracy
99.98%
Correlation consistency

Practical Considerations

When implementing this in production systems, there are two important factors to consider:

  1. Quantum channel latency compensation (max 1.1ms recommended)
  2. Environmental stability requirements (-196°C to prevent decoherence)
  3. Real-time correlation API access latency (must be <500ms maximum)

Future Development Roadmap

2025 Q3

  • Entanglement distribution network expansion
  • Quantum API v2 release

2026 Q2

  • Blockchain integration with QEC validation
  • Real-time entanglement verification

Implementation Requirements


{
  "entanglement_engine": "qiskit-2.4.1",
  "correlation_threshold": 99.87,
  "validity_period": "P1D",
  "api_keys": ["API_KEY_GOES_HERE"],
  "max_latency": "500ms"
}

This configuration enables enterprise-grade quantum signing with full compliance monitoring. Contact our team for commercial API access.

Request Enterprise API Access