QTS Protocol
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If quantum computing drops tomorrow,
would your crypto survive?

Quantum Threat Scanner enables seamless verification of blockchain vulnerabilities and efficient smart-contract protections.

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Secure Identities

Understand The Threat

Quantum computers utilizing Shor's algorithm threaten the core cryptographic foundations protecting modern EVM and Solana crypto assets. Unsecured wallets risk total vulnerability.

Multi-Chain Deep Scan

Our advanced heuristic engine scans your on-chain footprint across networks to identify vulnerable signature patterns, exposed public keys, and recycled nonces.

Actionable Protection

Gain exclusive premium insights to mathematically secure your exposed assets and smoothly migrate to post-quantum safe architectures before it's too late.

HOW IT WORKS

Select Network

CRYPTOGRAPHIC THREAT INTEL

The Quantum Threat Horizon

Classical blockchains rely on mathematical problems that would take conventional supercomputers billions of years to solve. Quantum computing changes the timeline from aeons to seconds.

Shor's Algorithm: The ECDSA Decimator

Formulated by Peter Shor in 1994, this quantum algorithm finds the prime factors of an integer in polynomial time. Classical security relies on the absolute difficulty of factoring massive numbers.

COMPLEXITY MATRIX SHOR'S IMPACT
Classical
O(2^(n/2)) EXPONENT
Quantum
O(n^3) POLYNOM

Grover's Algorithm: Hash Degradation

Developed by Lov Grover in 1996, this algorithm speeds up unstructured database searches quadratically. It reduces the cryptographic security margin of symmetric keys and hash functions by exactly 50%.

HASH ENTROPY IMPACT GROVER'S DECAY
SHA-256
→ SHA-128 VULN
AES-256
→ AES-128 DEGRADED

Superposition & Entanglement

Unlike classical binary bits which are strictly 0 or 1, Qubits exist in a coherent superposition of both states simultaneously. Through quantum entanglement, qubits share state instantly, enabling parallel processing power that scales exponentially.

EXPONENTIAL STATE SCALING QUBIT POWER
50 Logical Qubits
1.12 Quadrillion States
300 Logical Qubits
Exceeds atoms in universe

Post-Quantum Safe Architectures

To withstand quantum decryptors, systems must migrate to mathematical problems that quantum computers cannot solve efficiently. QTS enables automated scanning to evaluate your readiness for transition.

STANDARDIZED PQC SHIELDS NIST SHIELDS
Lattice Standard
ML-KEM, ML-DSA
Hash Signatures
XMSS, LMS

The Quantum Decryption Countdown

Phase 1: NISQ Era

Active Today

Noisy Intermediate-Scale Quantum computing. Physical qubits scaling up, but logical qubits are limited by high noise levels.

CRITICAL WINDOW

Phase 2: Public Key Leaks

2027 – 2029

Active addresses reveal public keys during normal transactions, exposing their signature keys to pre-computation queues.

Phase 3: Y2Q Decryption

Estimated 2030+

Cryptographically Relevant Quantum Computers (CRQCs) online. Instantaneous decryption of unshielded wallets.

Get QTS

Your quantum security journey starts here.

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