QVault Protocol Formula
Vault-120 uses quantum entropy, post-quantum cryptography, and zk-proof privacy to secure Web3 transactions against 120-qubit-class threats.
QVault Protocol Formula
The Quantum Shift Has Arrived
In 2025, quantum computing is no longer theory, it’s here.
The same processing power revolutionizing AI and data research now poses a direct threat to traditional encryption.
Algorithms like RSA and ECDSA, which protect most wallets today, can be cracked by large-scale quantum systems in hours, exposing private keys, transaction data, and entire DeFi infrastructures.
Every blockchain secured by pre-quantum cryptography is living on borrowed time.
What “Quantum-Ready” Actually Means
Most blockchains rely on mathematics.
Vault-120 relies on physics.
By combining post-quantum cryptography (Kyber-1024, CRYSTALS-Dilithium) with quantum entropy, randomness derived from subatomic behavior, the qVault Protocol eliminates the predictability that quantum computers exploit.
In short:
Vault-120’s encryption isn’t hard to guess, it’s impossible to predict.
The Vault-120 Formula
Our three cryptographic layers form the backbone of the protocol:
Quantum Entropy Engine (Q-Entropy) – Generates true quantum randomness for key creation and stealth wallet generation.
Post-Quantum Cryptographic Core (PQC) – Implements lattice-based encryption that remains secure even under 120-qubit decryption attempts.
Zero-Knowledge Proof Framework (ZK-Core) – Verifies transactions and swaps privately, concealing sender, receiver, and amount data while keeping everything verifiable on-chain.
Together, these create quantum-grade privacy and verifiable trust.
The Need for Speed and Scale
Quantum-ready encryption is powerful, but power is meaningless without performance.
That’s why Vault-120 operates on Solana, combining low-latency finality with unmatched throughput to make post-quantum privacy scalable.
Network | Avg TPS | Verification Time | Quantum Resistance |
|---|---|---|---|
Ethereum | ~30 TPS | 500 ms | ❌ None |
zkSync | ~3,000 TPS | 150 ms | ⚠️ Partial |
Solana + Vault-120 | 65,000+ TPS | 50 ms | ✅ Full |
Solana’s parallel execution engine allows thousands of PQC signatures and zk-proofs to run simultaneously, proving that quantum security doesn’t have to come at the cost of speed.
Applications Beyond DeFi
Quantum-safe cryptography isn’t just for crypto, it’s the foundation of digital trust for the next generation of systems.
Vault-120’s protocol can secure:
AI Agents: Protect model weights and decision logic from quantum decryption.
Finance: Preserve confidentiality in institutional settlements and tokenized asset flows.
IoT Networks: Authenticate and secure devices against quantum-class interception.
From DeFi to defense systems, Vault-120 provides a physics-backed foundation for the quantum future.
