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QENP
Quantum-Assisted Entangled Network Propagation (QENP) is a next-generation blockchain transmission protocol designed for instantaneous, quantum-resilient data propagation across distributed nodes in NovaNet.
Traditional network propagation suffers from:
❌ Latency due to sequential block validation and relays.
❌ Vulnerabilities in block propagation attacks (e.g., selfish mining).
❌ Packet loss in high-throughput environments.
NovaNet’s QENP solves these issues by:
- Leveraging quantum entanglement for near-instant data synchronization.
- Using AI-driven adaptive relay systems to prevent network congestion.
- Securing propagation with post-quantum cryptographic overlays.
QENP combines quantum entanglement and AI-driven network topology optimization to ensure the fastest, most secure block propagation.
Component | Description |
---|---|
Quantum Entangled Relay Nodes (QERNs) | Nodes that use quantum entanglement to synchronize block propagation across distances. |
AI-Assisted Adaptive Routing (AI-AR) | Dynamically adjusts data transmission paths based on congestion and node reliability. |
Post-Quantum Secure Channel (PQSC) | Encrypts block propagation using lattice-based cryptography to prevent quantum attacks. |
Quantum-Locked Packet Integrity (QLPI) | Ensures that every propagated block maintains authenticity through quantum hashing. |
- Quantum propagation allows sub-second synchronization of validator nodes.
- QENP ensures every transmitted block reaches all nodes with minimal delay.
Quantum Entangled Relay Nodes (QERNs) establish instantaneous communication channels using quantum entanglement.
Let:
-
$$Q_s$$ be the quantum-entangled state between validator nodes. -
$$H_Q(B_t)$$ be the quantum-secure hash of a propagated block$$B_t$$ .
- Ensures real-time propagation of blocks between validator nodes.
QENP integrates AI-optimized network pathfinding to select the fastest block propagation routes.
Let:
-
$$R(t)$$ be the set of all possible network routes at time$$t$$ . -
$$S(R)$$ be the route scoring function based on congestion and speed.
- Minimizes congestion and prevents network relay failures.
QENP encrypts block propagation using lattice-based cryptography to prevent quantum decryption.
Let:
-
$$E_Q(M)$$ be the quantum-resistant encryption of message$$M$$ .
- Prevents adversarial interception of blockchain transactions.
QLPI ensures every block propagating through QENP maintains integrity and authenticity.
Let:
-
$$P_Q$$ be the quantum-secure proof of data transmission.
- Ensures block propagation is immutable and secure.
Feature | PoW (Bitcoin) | PoS (Ethereum) | QENP (NovaNet) |
---|---|---|---|
Block Propagation Speed | ✅ Instant AI & Quantum Sync | ||
Security Against Attacks | ✅ Quantum-Resistant | ||
Network Latency Prevention | ❌ No AI Routing | ❌ No AI Routing | ✅ AI-Adaptive Routing |
Post-Quantum Encryption | ❌ Vulnerable | ✅ Fully Secure |
- Ensures ultra-fast block propagation across the NovaNet ecosystem.
- Prevents validator collusion and selfish mining exploits.
- Prepares NovaNet for a post-quantum computing world.
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